ID;DOI;Publication short ref.;Publication title;SAO;TAO;Country;Climate;Age;MAT;MAP;Elevation;Land use;"""If other"" (Land use)";Degree of soil anthropization;Soil cover;"""If other"" (Soil cover)";Observation description;Soil | constituant;Upper sampling limit;Lower sampling limit;Soil type (WRB);Soil principal qualifier (WRB);Soil subqualifiers (WRB);Soil type (RPF);TC;TC - method;TC - SD;TC - rep;SOC;SOC - method;SOC - SD;SOC - rep;SOM;SOM - method;SOM - SD;SOM - rep;N;N - method;N - SD;N - rep;pH;pH - method;pH - SD;pH - rep;CEC;CEC - method;CEC - SD;CEC - rep;BD;BD - method;BD - SD;BD - rep;Texture - method;Texture - sand;Texture - sand - SD;Texture - silt;Texture - silt - SD;Texture - clay;Texture - clay - SD;Texture - rep
1;10.1016/j.jenvman.2018.08.114;"(Asemaninejad et al.; 2018)";"Blended pulp mill; forest humus and mine residual material Technosols for mine reclamation: A growth-chamber study to explore the role of physiochemical properties of substrates and microbial inoculation on plant growth";2 (profile);0 (no particular approach);Canada;D (continental);;;;;Mining;;Soil affected by land use;Bare;;Hard rock mine residual samples - Site A : desulphurized Ni-Cu fine silt tailings materials.;Other;;;;;;;;;;;;;;;;;;;;;;;6;;;;;;;;;;;;;;;;;;;
2;10.1016/j.jenvman.2018.08.114;"(Asemaninejad et al.; 2018)";"Blended pulp mill; forest humus and mine residual material Technosols for mine reclamation: A growth-chamber study to explore the role of physiochemical properties of substrates and microbial inoculation on plant growth";2 (profile);0 (no particular approach);Canada;D (continental);;;;;Mining;;Soil affected by land use;Bare;;Hard rock mine residual samples - Site B : barren legacy acid generating Ni/Cu fine sand textured tailings materials;Other;;;;;;;;;;;;;;;;;;;;;;;25;;;;;;;;;;;;;;;;;;;
3;10.1016/j.jenvman.2018.08.114;"(Asemaninejad et al.; 2018)";"Blended pulp mill; forest humus and mine residual material Technosols for mine reclamation: A growth-chamber study to explore the role of physiochemical properties of substrates and microbial inoculation on plant growth";2 (profile);0 (no particular approach);Canada;D (continental);;;;;Mining;;Soil affected by land use;Bare;;Hard rock mine residual samples - Site C : fine sand and coarse to medium silt residual materials;Other;;;;;;;;;;;;;;;;;;;;;;;83;;;;;;;;;;;;;;;;;;;
4;10.1016/j.jenvman.2018.08.114;"(Asemaninejad et al.; 2018)";"Blended pulp mill; forest humus and mine residual material Technosols for mine reclamation: A growth-chamber study to explore the role of physiochemical properties of substrates and microbial inoculation on plant growth";2 (profile);0 (no particular approach);Canada;D (continental);;;;;Mining;;Soil affected by land use;Bare;;Hard rock mine residual samples - Site D : fine sand textured legacy gold tailing;Other;;;;;;;;;;;;;;;;;;;;;;;35;;;;;;;;;;;;;;;;;;;
5;10.1016/j.jenvman.2018.08.114;"(Asemaninejad et al.; 2018)";"Blended pulp mill; forest humus and mine residual material Technosols for mine reclamation: A growth-chamber study to explore the role of physiochemical properties of substrates and microbial inoculation on plant growth";2 (profile);0 (no particular approach);Canada;D (continental);;;;;Mining;;Soil affected by land use;Bare;;Hard rock mine residual samples - Site E : sand-textured silver mine tailings;Other;;;;;;;;;;;;;;;;;;;;;;;81;;;;;;;;;;;;;;;;;;;
6;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Heavy metal-rich (Zn) mining soils : Entisol;Soil;;;;;;Anthroposol arificiel;;;;;;;;;44;;;;;;;;56;;;;;;;;;;;;;305;;44;;255;;
7;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Heavy metal-rich (Zn) mining soils : Oxysol;Soil;;;Ferralsol;;;Anthroposol arificiel;;;;;;;;;0;;;;;;;;59;;;;;;;;;;;;;145;;295;;56;;
8;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Heavy metal-rich (Zn) mining soils : Technosol;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;0;;;;;;;;73;;;;;;;;;;;;;58;;315;;105;;
9;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Amendment : Composted food remains;Organic soil constituant (intentionally incorporated);;;;;;;33;Dry combustion;;;;;;;;;;;3.1;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
10;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Amendment : Limestone;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;0;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
11;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Amendment : Sewage sludge from municipal wastewater treatment;Organic soil constituant (intentionally incorporated);;;;;;;27.9;Dry combustion;;;;;;;;;;;3.59;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
12;10.1016/j.ecoenv.2018.07.040;"(Martins et al.; 2018)";Amending potential of organic and industrial by-products applied to heavy metal-rich mining soils;2 (profile);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;Amendment : Biochar;Organic soil constituant (intentionally incorporated);;;;;;;51.9;Dry combustion;;;;;;;;;;;0.28;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
13;10.1134/S1064229318100149;"(Villenave et al.; 2018)";Rapid Changes in Soil Nematodes in the First Years after Technosol Construction for the Remediation of an Industrial Wasteland;2 (profile);0 (no particular approach);France;C (temperate);1;10;760;;Industrial;;Constructed soil;Grasslands;;Constructed Technosol (Biotechnosol) T1;Soil;0;20;Technosol;Spolic;;Anthroposol construit;;;;;8.58;Dry combustion;29;;;;;;0.387;Kjeldahl method;2;;81;1:5 water;0;;;;;;;;;;;246;;261;;493;;
14;10.1134/S1064229318100149;"(Villenave et al.; 2018)";Rapid Changes in Soil Nematodes in the First Years after Technosol Construction for the Remediation of an Industrial Wasteland;2 (profile);0 (no particular approach);France;C (temperate);1;10;760;;Industrial;;Constructed soil;Grasslands;;Constructed Technosol (Biotechnosol) T2 (compacted);Soil;0;20;Technosol;Spolic;;Anthroposol construit;;;;;9.09;Dry combustion;3;;;;;;0.339;Kjeldahl method;22;;82;1:5 water;0;;;;;;;;;;;35;;264;;387;;
15;10.1134/S1064229318100149;"(Villenave et al.; 2018)";Rapid Changes in Soil Nematodes in the First Years after Technosol Construction for the Remediation of an Industrial Wasteland;2 (profile);0 (no particular approach);France;C (temperate);3;10;760;;Industrial;;Constructed soil;Grasslands;;Constructed Technosol (Biotechnosol) average of the 2 Technosols;Soil;0;15;Technosol;Spolic;;Anthroposol construit;;;;;11.77;Dry combustion;197;;;;;;0.683;Kjeldahl method;214;;82;1:5 water;1;;;;;;;;;;;442;;283;;274;;
16;10.1134/S1064229318100149;"(Villenave et al.; 2018)";Rapid Changes in Soil Nematodes in the First Years after Technosol Construction for the Remediation of an Industrial Wasteland;2 (profile);0 (no particular approach);France;C (temperate);3;10;760;;Industrial;;Constructed soil;Grasslands;;Constructed Technosol (Biotechnosol) average of the 2 Technosols;Soil;16;35;Technosol;Spolic;;Anthroposol construit;;;;;7.73;Dry combustion;41;;;;;;0.22;Kjeldahl method;13;;84;1:5 water;1;;;;;;;;;;;471;;284;;245;;
17;10.1134/S1064229318100149;"(Villenave et al.; 2018)";Rapid Changes in Soil Nematodes in the First Years after Technosol Construction for the Remediation of an Industrial Wasteland;2 (profile);0 (no particular approach);France;C (temperate);3;10;760;;Industrial;;Constructed soil;Grasslands;;Constructed Technosol (Biotechnosol) average of the 2 Technosols;Soil;36;85;Technosol;Spolic;;Anthroposol construit;;;;;8.36;Dry combustion;53;;;;;;0.237;Kjeldahl method;19;;82;1:5 water;1;;;;;;;;;;;403;;313;;283;;
18;10.1134/S001670291810004X;"(Bauer et al.; 2018)";"Ecological?Geochemical Studies of Technogenic Soils in the Flood Plain Landscapes of the Seversky Donets; Lower Don Basin.";1 (aggregate);1 (static);Russia;D (continental);22;;;;Industrial;;No major anthropization;Grasslands;;Monitoring plot spaced 2km away from the lake (Fluvisol);Soil;0;20;Fluvisol;;;;;;;;;;;;34;Chromic acid titration (Walkley-Black);1;;;;;;73;1:2.5 water pH;2;;;;;;;;;;;;;;;;;
19;10.1134/S001670291810004X;"(Bauer et al.; 2018)";"Ecological?Geochemical Studies of Technogenic Soils in the Flood Plain Landscapes of the Seversky Donets; Lower Don Basin.";1 (aggregate);1 (static);Russia;D (continental);22;;;;Industrial;;Soil affected by land use;Grasslands;;Industrial wastes reservoir soils : Technosol (T1);Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;28;Chromic acid titration (Walkley-Black);2;;;;;;77;1:2.5 water pH;1;;;;;;;;;;;;;;;;;
20;10.1134/S001670291810004X;"(Bauer et al.; 2018)";"Ecological?Geochemical Studies of Technogenic Soils in the Flood Plain Landscapes of the Seversky Donets; Lower Don Basin.";1 (aggregate);1 (static);Russia;D (continental);22;;;;Industrial;;Soil affected by land use;Grasslands;;Industrial wastes reservoir soils : Technosol (T2);Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;36;Chromic acid titration (Walkley-Black);2;;;;;;78;1:2.5 water pH;2;;;;;;;;;;;;;;;;;
21;10.1134/S001670291810004X;"(Bauer et al.; 2018)";"Ecological?Geochemical Studies of Technogenic Soils in the Flood Plain Landscapes of the Seversky Donets; Lower Don Basin.";1 (aggregate);1 (static);Russia;D (continental);22;;;;Industrial;;Soil affected by land use;Grasslands;;Industrial wastes reservoir soils : Technosol (T3);Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;24;Chromic acid titration (Walkley-Black);1;;;;;;8;1:2.5 water pH;2;;;;;;;;;;;;;;;;;
22;10.1134/S001670291810004X;"(Bauer et al.; 2018)";"Ecological?Geochemical Studies of Technogenic Soils in the Flood Plain Landscapes of the Seversky Donets; Lower Don Basin.";1 (aggregate);1 (static);Russia;D (continental);22;;;;Industrial;;Soil affected by land use;Grasslands;;Industrial wastes reservoir soils : Technosol (T4);Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;44;Chromic acid titration (Walkley-Black);2;;;;;;77;1:2.5 water pH;1;;;;;;;;;;;;;;;;;
23;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);0;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;;;Technosol;;;Anthroposol arificiel;0.193;Dry combustion;15;;;;;;;;;;0;Dry combustion;;;273;1:2.5 water pH;;;611;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
24;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;0;15;Technosol;;;Anthroposol arificiel;0*;Dry combustion;;;;;;;;;;;0*;Dry combustion;;;351;1:2.5 water pH;;;84;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
25;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;0;15;Technosol;;;Anthroposol arificiel;0*;Dry combustion;;;;;;;;;;;0*;Dry combustion;;;302;1:2.5 water pH;;;368;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
26;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;0;15;Technosol;;;Anthroposol arificiel;0*;Dry combustion;;;;;;;;;;;0*;Dry combustion;;;263;1:2.5 water pH;;;107;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
27;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;0;15;;;;Anthroposol construit;28*;Dry combustion;;;;;;;;;;;0.00175*;Dry combustion;;;703;1:2.5 water pH;;;41;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
28;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;0;15;;;;Anthroposol construit;28*;Dry combustion;;;;;;;;;;;0.0014*;Dry combustion;;;689;1:2.5 water pH;;;347;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
29;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;0;15;;;;Anthroposol construit;30*;Dry combustion;;;;;;;;;;;0.00175*;Dry combustion;;;752;1:2.5 water pH;;;299;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
30;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;0;15;;;;Anthroposol construit;27*;Dry combustion;;;;;;;;;;;0.0012*;Dry combustion;;;717;1:2.5 water pH;;;234;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
31;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;0;15;;;;Anthroposol construit;25*;Dry combustion;;;;;;;;;;;0.0012*;Dry combustion;;;711;1:2.5 water pH;;;31;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
32;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;0;15;;;;Anthroposol construit;32*;Dry combustion;;;;;;;;;;;0.0014*;Dry combustion;;;748;1:2.5 water pH;;;291;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
33;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;15;30;Technosol;;;Anthroposol arificiel;0.15*;Dry combustion;;;;;;;;;;;;;;;341;1:2.5 water pH;;;94;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
34;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;15;30;Technosol;;;Anthroposol arificiel;0.15*;Dry combustion;;;;;;;;;;;;;;;303;1:2.5 water pH;;;306;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
35;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;15;30;Technosol;;;Anthroposol arificiel;0.25*;Dry combustion;;;;;;;;;;;;;;;265;1:2.5 water pH;;;795;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
36;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;15;30;;;;Anthroposol construit;0.35*;Dry combustion;;;;;;;;;;;;;;;289;1:2.5 water pH;;;104;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
37;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;15;30;;;;Anthroposol construit;0.45*;Dry combustion;;;;;;;;;;;;;;;277;1:2.5 water pH;;;675;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
38;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;15;30;;;;Anthroposol construit;1*;Dry combustion;;;;;;;;;;;;;;;478;1:2.5 water pH;;;136;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
39;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;15;30;;;;Anthroposol construit;0.3*;Dry combustion;;;;;;;;;;;;;;;327;1:2.5 water pH;;;284;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
40;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;15;30;;;;Anthroposol construit;0.4*;Dry combustion;;;;;;;;;;;;;;;314;1:2.5 water pH;;;443;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
41;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;15;30;;;;Anthroposol construit;0.7*;Dry combustion;;;;;;;;;;;;;;;377;1:2.5 water pH;;;10;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
42;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;30;45;Technosol;;;Anthroposol arificiel;0.15*;Dry combustion;;;;;;;;;;;;;;;339;1:2.5 water pH;;;109;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
43;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;30;45;Technosol;;;Anthroposol arificiel;0.2*;Dry combustion;;;;;;;;;;;;;;;305;1:2.5 water pH;;;323;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
44;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil affected by land use;Bare;;Settling pond soil (S) was made of waste material resulting from the flotation of sulfides during copper processing;Soil;30;45;Technosol;;;Anthroposol arificiel;0.25*;Dry combustion;;;;;;;;;;;;;;;258;1:2.5 water pH;;;156;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
45;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;30;45;;;;Anthroposol construit;0.4*;Dry combustion;;;;;;;;;;;;;;;276;1:2.5 water pH;;;101;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
46;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;30;45;;;;Anthroposol construit;0.45*;Dry combustion;;;;;;;;;;;;;;;264;1:2.5 water pH;;;816;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
47;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + compost + biochar + Brassica juncea L. (SCBP);Soil;30;45;;;;Anthroposol construit;0.65*;Dry combustion;;;;;;;;;;;;;;;342;1:2.5 water pH;;;164;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
48;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;30;45;;;;Anthroposol construit;0.3*;Dry combustion;;;;;;;;;;;;;;;285;1:2.5 water pH;;;823;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
49;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);583333333;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;30;45;;;;Anthroposol construit;0.3*;Dry combustion;;;;;;;;;;;;;;;299;1:2.5 water pH;;;611;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
50;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);916666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Settling pond soil + technosol + biochar + Brassica juncea L. (STBP);Soil;30;45;;;;Anthroposol construit;0.5*;Dry combustion;;;;;;;;;;;;;;;317;1:2.5 water pH;;;93;Sum of exchangeable cation concentrations;;;;;;;;;;;;;;
51;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Amendment : Technosol;Organic soil constituant (intentionally incorporated);;;;;;;25.6;Dry combustion;251;;;;;;;;;;1.76;Dry combustion;5;;604;1:2.5 water pH;5;;766;Sum of exchangeable cation concentrations;4;;;;;;;;;;;;;
52;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Amendment : Compost;Organic soil constituant (intentionally incorporated);;;;;;;27.6;Dry combustion;249;;;;;;;;;;2.13;Dry combustion;102;;647;1:2.5 water pH;2;;535;Sum of exchangeable cation concentrations;107;;;;;;;;;;;;;
53;10.1007/s10661-018-6997-4;"(Forj n et al.; 2018)";Comparative effect of compost and technosol enhanced with biochar on the fertility of a degraded soil;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Amendment : biochar;Organic soil constituant (intentionally incorporated);;;;;;;67.6;Dry combustion;458;;;;;;;;;;0.534;Dry combustion;22;;99;1:2.5 water pH;2;;158;Sum of exchangeable cation concentrations;7;;;;;;;;;;;;;
54;10.1007/s11356-018-2789-1;"(Ahirwal et al.; 2018)";Reclamation of coal mine spoil and its effect on Technosol quality and carbon sequestration: a case study from India;3 (plot);2 (dynamic);India;C (temperate);0;25.7;1375;475;Mining;;Soil affected by land use;Bare;;Unreclaimed coal mining site;Soil;0;15;;;;Anthroposol arificiel;;;;;0.14;Chromic acid titration (Walkley-Black);;;;;;;0.006*;Dry combustion;;;834;1:2.5 w/v;27;;;;;;2.13;Cylinder method;28;;Pipette method;727;;221;;155;;
55;10.1007/s11356-018-2789-1;"(Ahirwal et al.; 2018)";Reclamation of coal mine spoil and its effect on Technosol quality and carbon sequestration: a case study from India;3 (plot);2 (dynamic);India;C (temperate);3;25.7;1375;475;Mining;;Soil affected by land use;Forests;;Revegetaded coal mining site;Soil;0;15;;;;Anthroposol arificiel;;;;;0.2;Chromic acid titration (Walkley-Black);;;;;;;0.007*;Dry combustion;;;638;1:2.5 w/v;18;;;;;;1.84;Cylinder method;8;;Pipette method;796;;146;;355;;
56;10.1007/s11356-018-2789-1;"(Ahirwal et al.; 2018)";Reclamation of coal mine spoil and its effect on Technosol quality and carbon sequestration: a case study from India;3 (plot);2 (dynamic);India;C (temperate);7;25.7;1375;475;Mining;;Soil affected by land use;Forests;;Revegetaded coal mining site;Soil;0;15;;;;Anthroposol arificiel;;;;;0.31;Chromic acid titration (Walkley-Black);;;;;;;0.013*;Dry combustion;;;561;1:2.5 w/v;21;;;;;;1.71;Cylinder method;11;;Pipette method;776;;178;;429;;
57;10.1007/s11356-018-2789-1;"(Ahirwal et al.; 2018)";Reclamation of coal mine spoil and its effect on Technosol quality and carbon sequestration: a case study from India;3 (plot);2 (dynamic);India;C (temperate);10;25.7;1375;475;Mining;;Soil affected by land use;Forests;;Revegetaded coal mining site;Soil;0;15;;;;Anthroposol arificiel;;;;;0.47;Chromic acid titration (Walkley-Black);;;;;;;0.035*;Dry combustion;;;548;1:2.5 w/v;38;;;;;;1.67;Cylinder method;9;;Pipette method;756;;203;;471;;
58;10.1007/s11356-018-2789-1;"(Ahirwal et al.; 2018)";Reclamation of coal mine spoil and its effect on Technosol quality and carbon sequestration: a case study from India;3 (plot);2 (dynamic);India;C (temperate);15;25.7;1375;475;Mining;;Soil affected by land use;Forests;;Revegetaded coal mining site;Soil;0;15;;;;Anthroposol arificiel;;;;;0.58;Chromic acid titration (Walkley-Black);;;;;;;0.06*;Dry combustion;;;537;1:2.5 w/v;12;;;;;;1.52;Cylinder method;11;;Pipette method;737;;222;;568;;
59;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;0;5;Technosol;;;Anthroposol arch‚ologique;2.48;Dry combustion;;;;;;;;;;;0.07;Dry combustion;;;35;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;91;;45;;46;;
60;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;5;13;Technosol;;;Anthroposol arch‚ologique;1.63;Dry combustion;;;;;;;;;;;0.04;Dry combustion;;;4;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;93;;35;;35;;
61;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;13;21;Technosol;;;Anthroposol arch‚ologique;1.19;Dry combustion;;;;;;;;;;;0.04;Dry combustion;;;43;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;948;;22;;3;;
62;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;21;23;Technosol;;;Anthroposol arch‚ologique;4.29;Dry combustion;;;;;;;;;;;0.09;Dry combustion;;;39;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
63;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;23;31;Technosol;;;Anthroposol arch‚ologique;0.45;Dry combustion;;;;;;;;;;;0.03;Dry combustion;;;44;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;921;;38;;41;;
64;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;31;50;Technosol;;;Anthroposol arch‚ologique;0.17;Dry combustion;;;;;;;;;;;0.02;Dry combustion;;;45;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;937;;33;;31;;
65;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;50;70;Technosol;;;Anthroposol arch‚ologique;0.05;Dry combustion;;;;;;;;;;;0.01;Dry combustion;;;46;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;967;;15;;18;;
66;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;70;90;Technosol;;;Anthroposol arch‚ologique;0.07;Dry combustion;;;;;;;;;;;0.002;Dry combustion;;;47;1:2.5 CaCl2 0.01M;;;;;;;;;;;Wet sieving;974;;5;;21;;
67;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;90;100;Technosol;;;Anthroposol arch‚ologique;0.06;Dry combustion;;;;;;;;;;;0.02;Dry combustion;;;55;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
68;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;0;24;Technosol;;;Anthroposol arch‚ologique;2.27;Dry combustion;;;;;;;;;;;0.049;Dry combustion;;;38;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
69;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;24;28;Technosol;;;Anthroposol arch‚ologique;1.95;Dry combustion;;;;;;;;;;;0.047;Dry combustion;;;4;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
70;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;28;32;Technosol;;;Anthroposol arch‚ologique;0.494;Dry combustion;;;;;;;;;;;0.03;Dry combustion;;;43;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
71;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;32;40;Technosol;;;Anthroposol arch‚ologique;0.398;Dry combustion;;;;;;;;;;;0.023;Dry combustion;;;44;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
72;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;40;50;Technosol;;;Anthroposol arch‚ologique;0.218;Dry combustion;;;;;;;;;;;0.021;Dry combustion;;;46;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
73;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;50;60;Technosol;;;Anthroposol arch‚ologique;0.156;Dry combustion;;;;;;;;;;;0.023;Dry combustion;;;46;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
74;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;60;70;Technosol;;;Anthroposol arch‚ologique;0.096;Dry combustion;;;;;;;;;;;0.018;Dry combustion;;;46;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
75;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;70;80;Technosol;;;Anthroposol arch‚ologique;0.049;Dry combustion;;;;;;;;;;;0.018;Dry combustion;;;47;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
76;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;80;90;Technosol;;;Anthroposol arch‚ologique;0.079;Dry combustion;;;;;;;;;;;0.02;Dry combustion;;;48;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
77;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;90;100;Technosol;;;Anthroposol arch‚ologique;0.052;Dry combustion;;;;;;;;;;;0.015;Dry combustion;;;48;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
78;10.3389/fenvs.2018.00094;"(Hirsch et al.; 2018)";"Formation; Classification; and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg; Germany";2 (profile);1 (static);Germany;D (continental);300;;;;Other;Former charcoal production site;Soil affected by land use;Bare;;Charcoal-bearing deposit soils (former charcoal production site);Soil;100;110;Technosol;;;Anthroposol arch‚ologique;0.029;Dry combustion;;;;;;;;;;;0.016;Dry combustion;;;48;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
79;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: AY1;Soil;5;10;;;;Anthroposol arificiel;;;;;2.26;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
80;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: AY2;Soil;10;20;;;;Anthroposol arificiel;;;;;0.92;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
81;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: ALY1;Soil;0;5;;;;Anthroposol arificiel;;;;;3.46;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
82;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: ALY2;Soil;5;10;;;;Anthroposol arificiel;;;;;2.92;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
83;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: AYW;Soil;0;5;;;;Anthroposol arificiel;;;;;1.98;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
84;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: AUr;Soil;13;12;;;;Anthroposol arificiel;;;;;9.05;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
85;10.1134/S1064229318090016;"(Aparin et al.; 2018)";Humus Horizons of Soils in Urban Ecosystems;2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urban soil: AUr2;Soil;19;28;;;;Anthroposol arificiel;;;;;3.3;NA;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
86;10.1134/S1064229318090028;"(Bezuglova et al.; 2018)";Physical Properties of Urban Soils in Rostov Agglomeration;2 (profile);1 (static);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Urbic Technosol (Loamic, Mollic) [AU];Soil;;;Technosol;Urbic;Loamic, Mollic;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.5;Cylinder method;1;;;;;;;;;
87;10.1134/S1064229318090028;"(Bezuglova et al.; 2018)";Physical Properties of Urban Soils in Rostov Agglomeration;2 (profile);1 (static);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Calcic Chernozerm (Loamic, Novic, Technic) [AJ];Soil;;;Chernozerm;Calcic;Loamic, Novic, Technic;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.5;Cylinder method;1;;;;;;;;;
88;10.1134/S1064229318090028;"(Bezuglova et al.; 2018)";Physical Properties of Urban Soils in Rostov Agglomeration;2 (profile);1 (static);Russia;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;Calcic Chernozerm (Loamic, Hyperhumic) [BCA];Soil;;;Chernozerm;Calcic;Loamic, Hyperhumic;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
89;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);1;12;650;;Urban;;Constructed soil;Forests;;Growing material: 58 % of brick manufacturing, 42 % compost made of sewage sludge and green waste;Organic soil constituant (intentionally incorporated);;;;;;;;;;;6.948;Chromic acid titration (Walkley-Black);755;3;;;;;0.713;Dry combustion;86;3;727;1:5 water;2;3;1997;Other;232;3;0.52*;Lysimeter weighing;;;;;;;;;;
90;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);2;12;650;;Urban;;Constructed soil;Forests;;Growing material: 58 % of brick manufacturing, 42 % compost made of sewage sludge and green waste;Organic soil constituant (intentionally incorporated);;;;;;;;;;;5.938;Chromic acid titration (Walkley-Black);924;3;;;;;0.683;Dry combustion;21;3;717;1:5 water;27;3;2083;Other;326;3;0.75*;Lysimeter weighing;;;;;;;;;;
91;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);3;12;650;;Urban;;Constructed soil;Forests;;Growing material: 58 % of brick manufacturing, 42 % compost made of sewage sludge and green waste;Organic soil constituant (intentionally incorporated);;;;;;;;;;;3.721;Chromic acid titration (Walkley-Black);701;3;;;;;0.463;Dry combustion;29;3;72;1:5 water;31;3;1813;Other;235;3;0.75*;Lysimeter weighing;;;;;;;;;;
92;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);1;12;650;;Urban;;Constructed soil;Forests;;Structure material: control;Organic soil constituant (intentionally incorporated);;;;;;;;;;;3.591;Chromic acid titration (Walkley-Black);461;3;;;;;0.22;Dry combustion;7;3;463;1:5 water;18;3;13;Other;129;3;1.82*;Lysimeter weighing;;;;;;;;;;
93;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);2;12;650;;Urban;;Constructed soil;Forests;;Structure material: control;Organic soil constituant (intentionally incorporated);;;;;;;;;;;3.217;Chromic acid titration (Walkley-Black);29;3;;;;;0.193;Dry combustion;22;3;42;1:5 water;19;3;1197;Other;43;3;1.77*;Lysimeter weighing;;;;;;;;;;
94;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);3;12;650;;Urban;;Constructed soil;Forests;;Structure material: control;Organic soil constituant (intentionally incorporated);;;;;;;;;;;2.461;Chromic acid titration (Walkley-Black);76;3;;;;;0.2;Dry combustion;1;3;423;1:5 water;29;3;116;Other;14;3;1.75*;Lysimeter weighing;;;;;;;;;;
95;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);1;12;650;;Urban;;Constructed soil;Forests;;Structure material: track ballast + sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;2.797;Chromic acid titration (Walkley-Black);402;3;;;;;0.343;Dry combustion;39;3;653;1:5 water;29;3;111;Other;144;3;1.9*;Lysimeter weighing;;;;;;;;;;
96;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);2;12;650;;Urban;;Constructed soil;Forests;;Structure material: track ballast + sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;2.959;Chromic acid titration (Walkley-Black);565;3;;;;;0.373;Dry combustion;72;3;593;1:5 water;16;3;1307;Other;332;3;1.9*;Lysimeter weighing;;;;;;;;;;
97;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);3;12;650;;Urban;;Constructed soil;Forests;;Structure material: track ballast + sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;2.577;Chromic acid titration (Walkley-Black);126;3;;;;;0.323;Dry combustion;216;3;577;1:5 water;3;3;1373;Other;53;3;1.9*;Lysimeter weighing;;;;;;;;;;
98;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);1;12;650;;Urban;;Constructed soil;Forests;;Structure material: demolition rubble + green waste;Organic soil constituant (intentionally incorporated);;;;;;;;;;;1.56;Chromic acid titration (Walkley-Black);295;3;;;;;0.113;Dry combustion;32;3;577;1:5 water;4;3;477;Other;75;3;1.5*;Lysimeter weighing;;;;;;;;;;
99;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);2;12;650;;Urban;;Constructed soil;Forests;;Structure material: demolition rubble + green waste;Organic soil constituant (intentionally incorporated);;;;;;;;;;;1.585;Chromic acid titration (Walkley-Black);152;3;;;;;0.133;Dry combustion;15;3;777;1:5 water;4;3;54;Other;44;3;1.5*;Lysimeter weighing;;;;;;;;;;
100;10.1007/s12665-018-7848-x;"(Cannavo et al.; 2018)";Technosols made with various urban wastes showed contrasted performance for tree development during a 3-year experiment;2 (profile);1 (static);France;C (temperate);3;12;650;;Urban;;Constructed soil;Forests;;Structure material: demolition rubble + green waste;Organic soil constituant (intentionally incorporated);;;;;;;;;;;1.667;Chromic acid titration (Walkley-Black);144;3;;;;;0.15;Dry combustion;7;3;777;1:5 water;7;3;59;Other;42;3;1.5*;Lysimeter weighing;;;;;;;;;;
101;10.1016/j.apsoil.2018.07.002;"(Vincent et al.; 2018)";Functional structure and composition of Collembola and soil macrofauna communities depend on abiotic parameters in derelict soils;2 (profile);1 (static);France;C (temperate);8;10.8;500;;Industrial;;Constructed soil;;;Experimental constructed soil (Biotechnosol);Soil;;;Technosol;Spolic;Garbic;Anthroposol construit;;;;;;;;;397;;59;;;;;;79;;2;;22;;29;;;;;;;;;;;11;;
102;10.1016/j.apsoil.2018.07.002;"(Vincent et al.; 2018)";Functional structure and composition of Collembola and soil macrofauna communities depend on abiotic parameters in derelict soils;2 (profile);1 (static);France;C (temperate);4;10.8;500;;Industrial;;Soil affected by land use;;;Non-hazardous waste landfill (Retonfey);Soil;;;Technosol;Skeletic;;Anthroposol arificiel;;;;;;;;;32;;14;;;;;;79;;1;;172;;33;;;;;;;;;;;4;;
103;10.1016/j.apsoil.2018.07.002;"(Vincent et al.; 2018)";Functional structure and composition of Collembola and soil macrofauna communities depend on abiotic parameters in derelict soils;2 (profile);1 (static);France;C (temperate);35;10.8;500;;Industrial;;Soil affected by land use;;;Coking plant site (Hom‚court);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;167;;63;;;;;;79;;1;;172;;18;;;;;;;;;;;6;;
104;10.1016/j.apsoil.2018.07.002;"(Vincent et al.; 2018)";Functional structure and composition of Collembola and soil macrofauna communities depend on abiotic parameters in derelict soils;2 (profile);1 (static);France;C (temperate);34;10.8;500;;Industrial;;Soil affected by land use;;;Settling pond site (Moyeuvre-Petite);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;133;;28;;;;;;84;;2;;113;;7;;;;;;;;;;;4;;
105;10.1016/j.apsoil.2018.07.002;"(Vincent et al.; 2018)";Functional structure and composition of Collembola and soil macrofauna communities depend on abiotic parameters in derelict soils;2 (profile);1 (static);France;C (temperate);40;10.8;500;;Industrial;;Soil affected by land use;;;Coking plant site (Micheville);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;48;;3;;;;;;72;;2;;155;;14;;;;;;;;;;;27;;
106;10.1016/j.apsoil.2018.07.002;"(Vincent et al.; 2018)";Functional structure and composition of Collembola and soil macrofauna communities depend on abiotic parameters in derelict soils;2 (profile);1 (static);France;C (temperate);2;10.8;500;;Industrial;;Constructed soil;;;Experimental constructed and contaminated soil (Jeandelaincourt);Soil;;;Technosol;Spolic;;Anthroposol construit;;;;;;;;;28;;8;;;;;;83;;4;;101;;4;;;;;;;;;;;15;;
107;10.1007/s11368-018-1968-5;"(Jangorzo et al.; 2018)";"Ranking of wetting?drying; plant; and fauna factors involved in the structure dynamics of a young constructed Technosol";2 (profile);2 (dynamic);France;;;;;;Other;Vegetation vase experiment;Constructed soil;;;Technosol component: Green waste compost;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;376;;;;;;;;86;;;;423;;;;;;;;;;;;;;;
108;10.1007/s11368-018-1968-5;"(Jangorzo et al.; 2018)";"Ranking of wetting?drying; plant; and fauna factors involved in the structure dynamics of a young constructed Technosol";2 (profile);2 (dynamic);France;;;;;;Other;Vegetation vase experiment;Constructed soil;;;Technosol component: paper-mill sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;251;;;;;;;;79;;;;46;;;;;;;;;;;;;;;
109;10.1007/s11368-018-1968-5;"(Jangorzo et al.; 2018)";"Ranking of wetting?drying; plant; and fauna factors involved in the structure dynamics of a young constructed Technosol";2 (profile);2 (dynamic);France;;;;;;Other;Vegetation vase experiment;Constructed soil;;;Technosol component: treated industrial soil;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;94;;;;;;;;9;;;;67;;;;;;;;;;;;;49;;
110;10.1007/s11368-018-1968-5;"(Jangorzo et al.; 2018)";"Ranking of wetting?drying; plant; and fauna factors involved in the structure dynamics of a young constructed Technosol";2 (profile);2 (dynamic);France;;;;;;Other;Vegetation vase experiment;Constructed soil;;;Technosol component: mix bewteen PS and TIS 2/3 and 1/3 respectively;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;137;;;;;;;;84;;;;73;;;;;;;;;;;;;151;;
111;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;Tells (archeological soils) TG1 a;Soil;0;10;;;;Anthroposol arch‚ologique;;;;;1;Chromic acid titration (Walkley-Black);;;;;;;;;;;82;1:1 water;;;;;;;;;;;Pipette method;118;;649;;233;;
112;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TG1 b;Soil;10;50;;;;Anthroposol arch‚ologique;;;;;0.4;Chromic acid titration (Walkley-Black);;;;;;;;;;;83;1:1 water;;;;;;;;;;;Pipette method;94;;696;;21;;
113;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TG1 c;Soil;50;150;;;;Anthroposol arch‚ologique;;;;;0.3;Chromic acid titration (Walkley-Black);;;;;;;;;;;79;1:1 water;;;;;;;;;;;Pipette method;78;;707;;215;;
114;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TG2 a;Soil;0;75;;;;Anthroposol arch‚ologique;;;;;0.2;Chromic acid titration (Walkley-Black);;;;;;;;;;;85;1:1 water;;;;;;;;;;;Pipette method;159;;691;;15;;
115;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TG2 b;Soil;75;180;;;;Anthroposol arch‚ologique;;;;;0.5;Chromic acid titration (Walkley-Black);;;;;;;;;;;84;1:1 water;;;;;;;;;;;Pipette method;127;;656;;217;;
116;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TG2 c;Soil;180;445;;;;Anthroposol arch‚ologique;;;;;0.9;Chromic acid titration (Walkley-Black);;;;;;;;;;;84;1:1 water;;;;;;;;;;;Pipette method;101;;65;;249;;
117;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TE1 a;Soil;0;10;;;;Anthroposol arch‚ologique;;;;;0.7;Chromic acid titration (Walkley-Black);;;;;;;;;;;84;1:1 water;;;;;;;;;;;Pipette method;81;;655;;264;;
118;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TE1 b;Soil;10;45;;;;Anthroposol arch‚ologique;;;;;0.4;Chromic acid titration (Walkley-Black);;;;;;;;;;;79;1:1 water;;;;;;;;;;;Pipette method;88;;693;;219;;
119;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TE1 c;Soil;45;70;;;;Anthroposol arch‚ologique;;;;;0.4;Chromic acid titration (Walkley-Black);;;;;;;;;;;84;1:1 water;;;;;;;;;;;Pipette method;74;;675;;251;;
120;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TE2 a;Soil;0;20;;;;Anthroposol arch‚ologique;;;;;1.1;Chromic acid titration (Walkley-Black);;;;;;;;;;;8;1:1 water;;;;;;;;;;;Pipette method;97;;632;;271;;
121;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TE2 b;Soil;20;50;;;;Anthroposol arch‚ologique;;;;;0.5;Chromic acid titration (Walkley-Black);;;;;;;;;;;74;1:1 water;;;;;;;;;;;Pipette method;64;;644;;292;;
122;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TE2 c;Soil;50;70;;;;Anthroposol arch‚ologique;;;;;0.5;Chromic acid titration (Walkley-Black);;;;;;;;;;;79;1:1 water;;;;;;;;;;;Pipette method;64;;644;;292;;
123;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH1 a;Soil;0;10;;;;Anthroposol arch‚ologique;;;;;0.4;Chromic acid titration (Walkley-Black);;;;;;;;;;;8;1:1 water;;;;;;;;;;;Pipette method;112;;555;;333;;
124;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH1 b;Soil;10;50;;;;Anthroposol arch‚ologique;;;;;0.9;Chromic acid titration (Walkley-Black);;;;;;;;;;;82;1:1 water;;;;;;;;;;;Pipette method;143;;628;;229;;
125;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH1 c;Soil;50;85;;;;Anthroposol arch‚ologique;;;;;0.4;Chromic acid titration (Walkley-Black);;;;;;;;;;;81;1:1 water;;;;;;;;;;;Pipette method;75;;637;;288;;
126;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH1 d;Soil;85;130;;;;Anthroposol arch‚ologique;;;;;0.5;Chromic acid titration (Walkley-Black);;;;;;;;;;;82;1:1 water;;;;;;;;;;;Pipette method;155;;661;;184;;
127;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH2 a;Soil;0;10;;;;Anthroposol arch‚ologique;;;;;0.3;Chromic acid titration (Walkley-Black);;;;;;;;;;;92;1:1 water;;;;;;;;;;;Pipette method;112;;639;;249;;
128;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH2 b;Soil;10;70;;;;Anthroposol arch‚ologique;;;;;0.3;Chromic acid titration (Walkley-Black);;;;;;;;;;;92;1:1 water;;;;;;;;;;;Pipette method;126;;646;;228;;
129;10.1016/j.catena.2018.03.014;"(Itkin et al.; 2018)";"Pedology of archaeological soils in tells of the Judean foothills; Israel";2 (profile);1 (static);Israel;C (temperate);;;;;Archeological;;Soil affected by land use;;;TH2 c;Soil;70;130;;;;Anthroposol arch‚ologique;;;;;0.7;Chromic acid titration (Walkley-Black);;;;;;;;;;;8;1:1 water;;;;;;;;;;;Pipette method;114;;671;;215;;
130;10.1002/ldr.3071;"(Carabassa et al.; 2018)";Sewage sludge as an organic amendment for quarry restoration: Effects on soil and vegetation;3 (plot);0 (no particular approach);Spain;C (temperate);;15.8;570;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;Mine sites amended with sludge (N=28);Soil;;;;;;Anthroposol arificiel;;;;;1.13;Chromic acid titration (Walkley-Black);41;;;;;;;;;;81;1:2.5 water;2;;;;;;;;;;;35;;41;;23;;
131;10.1002/ldr.3071;"(Carabassa et al.; 2018)";Sewage sludge as an organic amendment for quarry restoration: Effects on soil and vegetation;3 (plot);0 (no particular approach);Spain;C (temperate);;15.8;570;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;Sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;577;Loss on ignition;271;;;;;;77;1:10 water;6;;;;;;;;;;;;;;;;;
132;10.1016/j.chemosphere.2018.04.037;"(You et al.; 2018)";Initiation of soil formation in weathered sulfidic Cu-Pb-Zn tailings under subtropical and semi-arid climatic conditions;1 (aggregate);1 (static);Australia;B (dry);25;35*;;;Mining;;Soil affected by land use;;;Tailings dam 5 (TD5);Soil;0;10;;;;Anthroposol arificiel;;;;;0.15;Dry combustion after carbonates removal;0;;;;;;0.011;Dry combustion;3;;67;1:5 water;0;;79;AgTU extraction method;27;;;;;;;;;;;;;
133;10.1016/j.chemosphere.2018.04.037;"(You et al.; 2018)";Initiation of soil formation in weathered sulfidic Cu-Pb-Zn tailings under subtropical and semi-arid climatic conditions;1 (aggregate);1 (static);Australia;B (dry);25;35*;;;Mining;;Soil affected by land use;;;TD5 amended with woodchips;Soil;0;10;;;;Anthroposol arificiel;;;;;0.43;Dry combustion after carbonates removal;4;;;;;;0.034;Dry combustion;11;;67;1:5 water;1;;166;AgTU extraction method;41;;;;;;;;;;;;;
134;10.1016/j.chemosphere.2018.04.037;"(You et al.; 2018)";Initiation of soil formation in weathered sulfidic Cu-Pb-Zn tailings under subtropical and semi-arid climatic conditions;1 (aggregate);1 (static);Australia;B (dry);25;35*;;;Mining;;Soil affected by land use;;;TD5 + growing plants;Soil;0;10;;;;Anthroposol arificiel;;;;;0.47;Dry combustion after carbonates removal;2;;;;;;0.04;Dry combustion;4;;64;1:5 water;1;;452;AgTU extraction method;31;;;;;;;;;;;;;
135;10.1016/j.chemosphere.2018.04.037;"(You et al.; 2018)";Initiation of soil formation in weathered sulfidic Cu-Pb-Zn tailings under subtropical and semi-arid climatic conditions;1 (aggregate);1 (static);Australia;B (dry);25;35*;;;Mining;;Soil affected by land use;Grasslands;;TD5 + woodchips + plants;Soil;0;10;;;;Anthroposol arificiel;;;;;0.55;Dry combustion after carbonates removal;0;;;;;;0.043;Dry combustion;8;;65;1:5 water;0;;448;AgTU extraction method;43;;;;;;;;;;;;;
136;10.1134/S1064229318070104;"(Zamotaev et al.; 2018)";Assessment of the State of Soils and Vegetation in Areas of Landfills and Municipal Solid Waste Sites (a Review);2 (profile);1 (static);Russia;;;;;;Other;Solid waste landfill;Soil affected by land use;;;Municipal solid wastes sites (review);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
137;10.1007/s11356-018-2173-1;"(Forj n et al.; 2018)";Effects of compost and technosol amendments on metal concentrations in a mine soil planted with Brassica juncea L.;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Soil affected by land use;;;Copper mine soil (settling pond);Soil;;;;;;Anthroposol arificiel;0.193;Dry combustion;15;;;;;;;;;;;;;;273;1:2.5 water;8;;611;BaCl2 0.1M extraction;;;;;;;;;;;;;;
138;10.1007/s11356-018-2173-1;"(Forj n et al.; 2018)";Effects of compost and technosol amendments on metal concentrations in a mine soil planted with Brassica juncea L.;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Soil affected by land use;;;Compost;Organic soil constituant (intentionally incorporated);;;;;;;27.6;Dry combustion;266;;;;;;;;;;2.13;Dry combustion;102;;625;1:2.5 water;4;;535;BaCl2 0.1M extraction;;;;;;;;;;;;;;
139;10.1007/s11356-018-2173-1;"(Forj n et al.; 2018)";Effects of compost and technosol amendments on metal concentrations in a mine soil planted with Brassica juncea L.;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Soil affected by land use;;;Technosol (60% plant wastes, 10 aluminium wastes, 5% ash, 10% agri-food industry wates, ...);Organic soil constituant (intentionally incorporated);;;Technosol;;;;25.6;Dry combustion;251;;;;;;;;;;1.76;Dry combustion;5;;604;1:2.5 water;5;;766;BaCl2 0.1M extraction;;;;;;;;;;;;;;
140;10.1007/s00374-018-1290-9;"(Giannetta et al.; 2018)";Distribution and thermal stability of physically and chemically protected organic matter fractions in soils across different ecosystems;1 (aggregate);1 (static);Italy;C (temperate);;11.1;1190;;Mining;;Soil affected by land use;;;The technosols included two open-pit mines, filled and then reclaimed with Helianthus annuus (since 2010) and with Triticum (since 2000), respectively, two dumps, reclaimed in 2000 and in 2011, respectively, and a site of disposal of compost and other non-hazardous waste materials (all TS sites <?300 m a.s.l.);Soil;;;;;;Anthroposol arificiel;;;;;1.26;Dry combustion after carbonates removal;93;5;;;;;0.15;Dry combustion;11;5;84;1:2.5 water;1;5;;;;;;;;;Pipette method;187;;445;;367;;5
141;10.1007/s00374-018-1290-9;"(Giannetta et al.; 2018)";Distribution and thermal stability of physically and chemically protected organic matter fractions in soils across different ecosystems;1 (aggregate);1 (static);Italy;C (temperate);8;11.1;1190;;Mining;;Soil affected by land use;Crops;;Open-pit mine filled and then reclaimed with Helianthus annuus (since 2010);Soil;0;25;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
142;10.1007/s00374-018-1290-9;"(Giannetta et al.; 2018)";Distribution and thermal stability of physically and chemically protected organic matter fractions in soils across different ecosystems;1 (aggregate);1 (static);Italy;C (temperate);18;11.1;1190;;Mining;;Soil affected by land use;Crops;;Open-pit mine filled and then reclaimed with Triticum (since 2000);Soil;0;25;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
143;10.1007/s00374-018-1290-9;"(Giannetta et al.; 2018)";Distribution and thermal stability of physically and chemically protected organic matter fractions in soils across different ecosystems;1 (aggregate);1 (static);Italy;C (temperate);18;11.1;1190;;Mining;;Soil affected by land use;;;Dump reclaimed in 2000;Soil;0;20;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
144;10.1007/s00374-018-1290-9;"(Giannetta et al.; 2018)";Distribution and thermal stability of physically and chemically protected organic matter fractions in soils across different ecosystems;1 (aggregate);1 (static);Italy;C (temperate);;11.1;1190;;Urban;;Soil affected by land use;;;Site of disposal of compost and other non-hazardous waste materials;Soil;0;20;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
145;10.1007/s00374-018-1290-9;"(Giannetta et al.; 2018)";Distribution and thermal stability of physically and chemically protected organic matter fractions in soils across different ecosystems;1 (aggregate);1 (static);Italy;C (temperate);7;11.1;1190;;Mining;;Soil affected by land use;;;Dump reclaimed in 2011;Soil;0;20;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
146;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;0;20;;;;Anthroposol arificiel;;;;;0.68;Dry combustion after carbonates removal;9;;;;;;;;;;627;1:2.5 water;32;;121;Na saturation method;9;;1.54;;12;;Pipette method;788;;196;;418;;
147;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;20;40;;;;Anthroposol arificiel;;;;;0.13;Dry combustion after carbonates removal;2;;;;;;;;;;605;1:2.5 water;27;;106;Na saturation method;21;;1.62;;121;;Pipette method;686;;244;;655;;
148;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;0;20;;;;Anthroposol arificiel;;;;;0.68*;Dry combustion after carbonates removal;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
149;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;20;40;;;;Anthroposol arificiel;;;;;0.25*;Dry combustion after carbonates removal;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
150;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;40;60;;;;Anthroposol arificiel;;;;;0.18*;Dry combustion after carbonates removal;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
151;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;60;80;;;;Anthroposol arificiel;;;;;0.12*;Dry combustion after carbonates removal;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
152;10.1016/j.catena.2018.03.026;"(Ahirwal and Maiti; 2018)";"Development of Technosol properties and recovery of carbon stock after 16 years of revegetation on coal mine degraded lands; India";2 (profile);1 (static);India;A (tropical);16;23;1375;;Mining;;Soil affected by land use;Forests;;Coal mining revegetated soil;Soil;80;100;;;;Anthroposol arificiel;;;;;0.09*;Dry combustion after carbonates removal;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
153;10.1016/j.landurbplan.2018.03.012;"(Egendorf et al.; 2018)";Constructed soils for mitigating lead (Pb) exposure and promoting urban community gardening: The New York City Clean Soil Bank pilot study;2 (profile);1 (static);United States;C (temperate);;12.2;1140;;Urban;;Soil affected by land use;Garden;;control soil (CON);Soil;;;;;;Anthroposol arificiel;;;;;;;;;45;Loss on ignition;;6;;;;;8;1:1 slurry;;6;;;;;;;;;;;;;;;;
154;10.1016/j.landurbplan.2018.03.012;"(Egendorf et al.; 2018)";Constructed soils for mitigating lead (Pb) exposure and promoting urban community gardening: The New York City Clean Soil Bank pilot study;2 (profile);1 (static);United States;C (temperate);;12.2;1140;;Urban;;Soil with anthropogenic constituants incorporated;Garden;;CSB sediments and compost 80:20. Compost, created from food scraps and wood chips, was donated by the Gowanus Canal Conservancy (GCC);Soil;;;;;;Anthroposol arificiel;;;;;;;;;24;Loss on ignition;;6;;;;;8;1:1 slurry;;6;;;;;;;;;;;;;;;;
155;10.1016/j.landurbplan.2018.03.012;"(Egendorf et al.; 2018)";Constructed soils for mitigating lead (Pb) exposure and promoting urban community gardening: The New York City Clean Soil Bank pilot study;2 (profile);1 (static);United States;C (temperate);;12.2;1140;;Urban;;Soil with anthropogenic constituants incorporated;Garden;;CSB sediments and compost 67:33. Compost, created from food scraps and wood chips, was donated by the Gowanus Canal Conservancy (GCC);Soil;;;;;;Anthroposol arificiel;;;;;;;;;34;Loss on ignition;;6;;;;;81;1:1 slurry;;6;;;;;;;;;;;;;;;;
156;10.1016/j.landurbplan.2018.03.012;"(Egendorf et al.; 2018)";Constructed soils for mitigating lead (Pb) exposure and promoting urban community gardening: The New York City Clean Soil Bank pilot study;2 (profile);1 (static);United States;C (temperate);;12.2;1140;;Urban;;Soil with anthropogenic constituants incorporated;Garden;;CSB sediments and compost 50:50. Compost, created from food scraps and wood chips, was donated by the Gowanus Canal Conservancy (GCC);Soil;;;;;;Anthroposol arificiel;;;;;;;;;96;Loss on ignition;;6;;;;;78;1:1 slurry;;6;;;;;;;;;;;;;;;;
157;10.1002/rcm.8111;"(Rennert et al.; 2018)";Small-scale distribution of copper in a Technosol horizon studied by nano-scale secondary ion mass spectrometry;1 (aggregate);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Spolic Technosol developed from deposited flue?dust slurry on a former Pb?smelter site;Soil;51;90;Technosol;Spolic;;Anthroposol arificiel;;;;;16.5;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
158;10.1007/s11368-017-1763-8;"(Lebrun et al.; 2018)";Eco-restoration of a mine technosol according to biochar particle size and dose application: study of soil physico-chemical properties and phytostabilization capacities of Salix viminalis;2 (profile);1 (static);France;D (continental);121;;;;Mining;;Soil affected by land use;;;Mine Technosol former silver-lead extraction mine, second settling pond;Soil;0;20;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
159;10.1007/s11368-017-1763-8;"(Lebrun et al.; 2018)";Eco-restoration of a mine technosol according to biochar particle size and dose application: study of soil physico-chemical properties and phytostabilization capacities of Salix viminalis;2 (profile);1 (static);France;D (continental);121;;;;Mining;;Soil affected by land use;;;Biochar particles (slow pyrolisys of a mixture of oak, beech and charm wafers and chips) particle size <0.1mm;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;953;3g:21mL water;1;;;;;;;;;;;;;;;;;
160;10.1007/s11368-017-1763-8;"(Lebrun et al.; 2018)";Eco-restoration of a mine technosol according to biochar particle size and dose application: study of soil physico-chemical properties and phytostabilization capacities of Salix viminalis;2 (profile);1 (static);France;D (continental);121;;;;Mining;;Soil affected by land use;;;Biochar particles (slow pyrolisys of a mixture of oak, beech and charm wafers and chips) particle size 0.2-0.4 mm;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;898;3g:21mL water;2;;;;;;;;;;;;;;;;;
161;10.1007/s11368-017-1763-8;"(Lebrun et al.; 2018)";Eco-restoration of a mine technosol according to biochar particle size and dose application: study of soil physico-chemical properties and phytostabilization capacities of Salix viminalis;2 (profile);1 (static);France;D (continental);121;;;;Mining;;Soil affected by land use;;;Biochar particles (slow pyrolisys of a mixture of oak, beech and charm wafers and chips) particle size 0.5-1 mm;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;846;3g:21mL water;1;;;;;;;;;;;;;;;;;
162;10.1007/s11368-017-1763-8;"(Lebrun et al.; 2018)";Eco-restoration of a mine technosol according to biochar particle size and dose application: study of soil physico-chemical properties and phytostabilization capacities of Salix viminalis;2 (profile);1 (static);France;D (continental);121;;;;Mining;;Soil affected by land use;;;Biochar particles (slow pyrolisys of a mixture of oak, beech and charm wafers and chips) particle size 1-2.5 mm;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;881;3g:21mL water;2;;;;;;;;;;;;;;;;;
163;10.1007/s11368-017-1708-2;"(Minkina et al.; 2018)";"Forms of Cu (II); Zn (II); and Pb (II) compounds in technogenically transformed soils adjacent to the Karabashmed copper smelter";2 (profile);1 (static);Russia;D (continental);;;;;Industrial;;Soil affected by land use;;;"Spolic Technosol, Technogenic ""badland"" soils, copper smelting pollution T1";Soil;0;5;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;4;Chromic acid titration (Walkley-Black);;;;;;;39;1:2.5 water;;;;;;;;;;;Pipette method;97;;27;;3;;
164;10.1007/s11368-017-1708-2;"(Minkina et al.; 2018)";"Forms of Cu (II); Zn (II); and Pb (II) compounds in technogenically transformed soils adjacent to the Karabashmed copper smelter";2 (profile);1 (static);Russia;D (continental);;;;;Industrial;;Soil affected by land use;;;"Spolic Technosol, Technogenic ""badland"" soils, copper smelting pollution T2";Soil;0;5;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;6;Chromic acid titration (Walkley-Black);;;;;;;42;1:2.5 water;;;;;;;;;;;Pipette method;96;;38;;1;;
165;10.1007/s11368-017-1708-2;"(Minkina et al.; 2018)";"Forms of Cu (II); Zn (II); and Pb (II) compounds in technogenically transformed soils adjacent to the Karabashmed copper smelter";2 (profile);1 (static);Russia;D (continental);;;;;Industrial;;Soil affected by land use;;;"Spolic Technosol, Technogenic ""badland"" soils, copper smelting pollution T3";Soil;0;5;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;5;Chromic acid titration (Walkley-Black);;;;;;;45;1:2.5 water;;;;;;;;;;;Pipette method;488;;299;;2;;
166;10.1007/s11368-017-1708-2;"(Minkina et al.; 2018)";"Forms of Cu (II); Zn (II); and Pb (II) compounds in technogenically transformed soils adjacent to the Karabashmed copper smelter";2 (profile);1 (static);Russia;D (continental);;;;;Industrial;;Soil affected by land use;;;"Spolic Technosol, Technogenic ""badland"" soils, copper smelting pollution T4";Soil;0;5;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;6;Chromic acid titration (Walkley-Black);;;;;;;44;1:2.5 water;;;;;;;;;;;Pipette method;398;;528;;73;;
167;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosols near the steelmaking plant;Soil;0;3;Technosol;;;Anthroposol arificiel;;;;;;;;;133;Loss on ignition;;;;;;;79;1:1 water;;;;;;;1.1;;;;;;;;;;;
168;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;3;6;Technosol;;;Anthroposol arificiel;;;;;;;;;112;Loss on ignition;;;;;;;8;1:1 water;;;;;;;1.3;;;;;;;;;;;
169;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;6;10;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;79;1:1 water;;;;;;;1.4;;;;;;;;;;;
170;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;10;20;Technosol;;;Anthroposol arificiel;;;;;;;;;115;Loss on ignition;;;;;;;78;1:1 water;;;;;;;1.2;;;;;;;;;;;
171;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;20;22;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;78;1:1 water;;;;;;;1.2;;;;;;;;;;;
172;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;22;26;Technosol;;;Anthroposol arificiel;;;;;;;;;115;Loss on ignition;;;;;;;79;1:1 water;;;;;;;1.4;;;;;;;;;;;
173;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;26;30;Technosol;;;Anthroposol arificiel;;;;;;;;;121;Loss on ignition;;;;;;;78;1:1 water;;;;;;;1.3;;;;;;;;;;;
174;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;30;35;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;77;1:1 water;;;;;;;1.3;;;;;;;;;;;
175;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;NS (near sea) Technosol near steelmaking plant;Soil;35;40;Technosol;;;Anthroposol arificiel;;;;;;;;;125;Loss on ignition;;;;;;;78;1:1 water;;;;;;;1.3;;;;;;;;;;;
176;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;FS  (far the sea)Technosol near a steelmaking soil;Soil;0;4;Technosol;;;Anthroposol arificiel;;;;;;;;;99;Loss on ignition;;;;;;;81;1:1 water;;;;;;;1.2;;;;;;;;;;;
177;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;FS  (far the sea)Technosol near a steelmaking soil;Soil;4;8;Technosol;;;Anthroposol arificiel;;;;;;;;;77;Loss on ignition;;;;;;;81;1:1 water;;;;;;;1.2;;;;;;;;;;;
178;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;FS  (far the sea)Technosol near a steelmaking soil;Soil;19;24;Technosol;;;Anthroposol arificiel;;;;;;;;;108;Loss on ignition;;;;;;;81;1:1 water;;;;;;;1.1;;;;;;;;;;;
179;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;FS  (far the sea)Technosol near a steelmaking soil;Soil;24;32;Technosol;;;Anthroposol arificiel;;;;;;;;;121;Loss on ignition;;;;;;;79;1:1 water;;;;;;;1;;;;;;;;;;;
180;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;FS  (far the sea)Technosol near a steelmaking soil;Soil;50;55;Technosol;;;Anthroposol arificiel;;;;;;;;;126;Loss on ignition;;;;;;;76;1:1 water;;;;;;;1;;;;;;;;;;;
181;10.1007/s11270-018-3808-z;"(Kanbar et al.; 2018)";Leaching of Metals in Coastal Technosols Triggered by Saline Solutions and Labile Organic Matter Removal;1 (aggregate);0 (no particular approach);Lebanon;C (temperate);;;975;;Industrial;;Soil affected by land use;Bare;;FS  (far the sea)Technosol near a steelmaking soil;Soil;81;87;Technosol;;;Anthroposol arificiel;;;;;;;;;146;Loss on ignition;;;;;;;78;1:1 water;;;;;;;1;;;;;;;;;;;
182;10.1007/s11368-017-1867-1;"(Santini and Fey; 2018)";From tailings to soil: long-term effects of amendments on progress and trajectory of soil formation and in situ remediation in bauxite residue;2 (profile);1 (static);United States;C (temperate);13;;805;;Industrial;;Constructed soil;Grasslands;;SS : Bauxite residues from aluminium industries + amendment (Sewage sludge in this case);Soil;;;;;;Anthroposol construit;15;Dry combustion;558;;14.6;Dry combustion after carbonates removal;581;;;;;;1.72;Dry combustion;77;;675;1:5 water;47;;482;Sum of exchangeable cation concentrations;129;;;;;;;;;;;;;
183;10.1007/s11368-017-1867-1;"(Santini and Fey; 2018)";From tailings to soil: long-term effects of amendments on progress and trajectory of soil formation and in situ remediation in bauxite residue;2 (profile);1 (static);United States;C (temperate);13;;805;;Industrial;;Constructed soil;Crops;;SS+CS;Soil;;;;;;Anthroposol construit;12.2;Dry combustion;562;;12;Dry combustion after carbonates removal;581;;;;;;1.23;Dry combustion;63;;665;1:5 water;78;;241;Sum of exchangeable cation concentrations;122;;;;;;;;;;;;;
184;10.1007/s11368-017-1867-1;"(Santini and Fey; 2018)";From tailings to soil: long-term effects of amendments on progress and trajectory of soil formation and in situ remediation in bauxite residue;2 (profile);1 (static);United States;C (temperate);12;;805;;Industrial;;Constructed soil;Grasslands;;SS+YW;Soil;;;;;;Anthroposol construit;3.12;Dry combustion;34;;2.68;Dry combustion after carbonates removal;27;;;;;;0.25;Dry combustion;2;;696;1:5 water;11;;417;Sum of exchangeable cation concentrations;195;;;;;;;;;;;;;
185;10.1007/s11368-017-1867-1;"(Santini and Fey; 2018)";From tailings to soil: long-term effects of amendments on progress and trajectory of soil formation and in situ remediation in bauxite residue;2 (profile);1 (static);United States;C (temperate);12;;805;;Industrial;;Constructed soil;Grasslands;;TS+B;Soil;;;;;;Anthroposol construit;1.88;Dry combustion;12;;1.13;Dry combustion after carbonates removal;1;;;;;;0.16;Dry combustion;14;;843;1:5 water;61;;206;Sum of exchangeable cation concentrations;943;;;;;;;;;;;;;
186;10.1007/s11368-017-1867-1;"(Santini and Fey; 2018)";From tailings to soil: long-term effects of amendments on progress and trajectory of soil formation and in situ remediation in bauxite residue;2 (profile);1 (static);United States;C (temperate);;;805;;Industrial;;Constructed soil;Grasslands;;UT;Soil;;;;;;Anthroposol construit;1.38;Dry combustion;16;;0.2;Dry combustion after carbonates removal;85;;;;;;0.019;Dry combustion;18;;983;1:5 water;7;;178;Sum of exchangeable cation concentrations;347;;;;;;;;;;;;;
187;10.3390/su10041146;"(Robin et al.; 2018)";Effect of Three Types of Exogenous Organic Carbon on Soil Organic Matter and Physical Properties of a Sandy Technosol;2 (profile);0 (no particular approach);France;C (temperate);1;11;788;;Agricultural;;Constructed soil;;;SS1 : agricultural soil covered with 1 m of marine sediments;Soil;;;Technosol;;;Anthroposol construit;;;;;0.55;Chromic acid titration (Walkley-Black);;;9;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;Dry sieving;625;;323;;53;;
188;10.3390/su10041146;"(Robin et al.; 2018)";Effect of Three Types of Exogenous Organic Carbon on Soil Organic Matter and Physical Properties of a Sandy Technosol;2 (profile);0 (no particular approach);France;C (temperate);1;11;788;;Agricultural;;Constructed soil;;;SS2 : agricultural soil covered with 1 m of marine sediments;Soil;;;Technosol;;;Anthroposol construit;;;;;0.43;Chromic acid titration (Walkley-Black);;;7;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;Dry sieving;678;;273;;46;;
189;10.3390/su10041146;"(Robin et al.; 2018)";Effect of Three Types of Exogenous Organic Carbon on Soil Organic Matter and Physical Properties of a Sandy Technosol;2 (profile);0 (no particular approach);France;C (temperate);1;11;788;;Agricultural;;Constructed soil;;;VF : vermicompost;Organic soil constituant (intentionally incorporated);;;;;;;;;;;36.9;Chromic acid titration (Walkley-Black);;;;;;;3.92;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
190;10.3390/su10041146;"(Robin et al.; 2018)";Effect of Three Types of Exogenous Organic Carbon on Soil Organic Matter and Physical Properties of a Sandy Technosol;2 (profile);0 (no particular approach);France;C (temperate);1;11;788;;Agricultural;;Constructed soil;;;GWC : green waste compost;Organic soil constituant (intentionally incorporated);;;;;;;;;;;31.5;Chromic acid titration (Walkley-Black);;;;;;;1.7;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
191;10.3390/su10041146;"(Robin et al.; 2018)";Effect of Three Types of Exogenous Organic Carbon on Soil Organic Matter and Physical Properties of a Sandy Technosol;2 (profile);0 (no particular approach);France;C (temperate);1;11;788;;Agricultural;;Constructed soil;;;DM : dairy manure;Organic soil constituant (intentionally incorporated);;;;;;;;;;;37;Chromic acid titration (Walkley-Black);;;;;;;1.84;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
192;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;;;Fresh fly ash from from thermal power stations;Organic soil constituant (not intentionally incorporated);;;;;;;;;;;1.2;Dry combustion;;;;;;;0.03;Kjeldahl method;;;11;1:2.5 water;;;256;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;31;;68;;1;;
193;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;;;Fresh bottom ash;Organic soil constituant (not intentionally incorporated);;;;;;;;;;;6.9;Dry combustion;;;;;;;0.03;Kjeldahl method;;;87;1:2.5 water;;;209;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;93;;6;;1;;
194;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);1;;;;Industrial;;Soil affected by land use;Bare;;BE1 : Spolic Technosol (alcalic, Hyperartefactic, Laxic, Loamix, Epiprotosalic);Soil;0;12;Technosol;Spolic;Alcalic, Hyperartefactic, Laxic, Loamic, Epiprotosalic;Anthroposol arificiel;;;;;1.3;Dry combustion;;;;;;;0.02;Kjeldahl method;;;92;1:2.5 water;;;403;Sum of exchangeable cation concentrations;;;0.73;Cylinder method;;;Particle size distribution by aerometric method;50;;45;;5;;
195;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);1;;;;Industrial;;Soil affected by land use;Bare;;BE1 : Spolic Technosol (alcalic, Hyperartefactic, Laxic, Loamix, Epiprotosalic);Soil;12;58;Technosol;Spolic;Alcalic, Hyperartefactic, Laxic, Loamic, Epiprotosalic;Anthroposol arificiel;;;;;1.7;Dry combustion;;;;;;;0.03;Kjeldahl method;;;94;1:2.5 water;;;298;Sum of exchangeable cation concentrations;;;0.72;Cylinder method;;;Particle size distribution by aerometric method;48;;48;;4;;
196;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);1;;;;Industrial;;Soil affected by land use;Bare;;BE1 : Spolic Technosol (alcalic, Hyperartefactic, Laxic, Loamix, Epiprotosalic);Soil;58;80;Technosol;Spolic;Alcalic, Hyperartefactic, Laxic, Loamic, Epiprotosalic;Anthroposol arificiel;;;;;1.7;Dry combustion;;;;;;;0;Kjeldahl method;;;10;1:2.5 water;;;273;Sum of exchangeable cation concentrations;;;0.72;Cylinder method;;;Particle size distribution by aerometric method;49;;48;;3;;
197;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);20;;;;Industrial;;Soil affected by land use;Forests;;BE2 : Spolic Technosol (Arenix, Hypereutic, Hyperartefactic, Epiimmisic, Laxic, Ochric);Soil;0;1;Technosol;Spolic;Arenic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Ochric;Anthroposol arificiel;;;;;38.8;Dry combustion;;;;;;;0.9;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
198;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);20;;;;Industrial;;Soil affected by land use;Forests;;BE2 : Spolic Technosol (Arenix, Hypereutic, Hyperartefactic, Epiimmisic, Laxic, Ochric);Soil;1;5;Technosol;Spolic;Arenic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Ochric;Anthroposol arificiel;;;;;2.2;Dry combustion;;;;;;;0.16;Kjeldahl method;;;85;1:2.5 water;;;132;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;49;;48;;3;;
199;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);20;;;;Industrial;;Soil affected by land use;Forests;;BE2 : Spolic Technosol (Arenix, Hypereutic, Hyperartefactic, Epiimmisic, Laxic, Ochric);Soil;5;15;Technosol;Spolic;Arenic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Ochric;Anthroposol arificiel;;;;;1.9;Dry combustion;;;;;;;0.09;Kjeldahl method;;;87;1:2.5 water;;;148;Sum of exchangeable cation concentrations;;;0.69;Cylinder method;;;Particle size distribution by aerometric method;79;;19;;2;;
200;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);20;;;;Industrial;;Soil affected by land use;Forests;;BE2 : Spolic Technosol (Arenix, Hypereutic, Hyperartefactic, Epiimmisic, Laxic, Ochric);Soil;15;35;Technosol;Spolic;Arenic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Ochric;Anthroposol arificiel;;;;;1.1;Dry combustion;;;;;;;0.01;Kjeldahl method;;;88;1:2.5 water;;;89;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;77;;21;;2;;
201;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);20;;;;Industrial;;Soil affected by land use;Forests;;BE2 : Spolic Technosol (Arenix, Hypereutic, Hyperartefactic, Epiimmisic, Laxic, Ochric);Soil;35;60;Technosol;Spolic;Arenic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Ochric;Anthroposol arificiel;;;;;1.2;Dry combustion;;;;;;;0.01;Kjeldahl method;;;91;1:2.5 water;;;83;Sum of exchangeable cation concentrations;;;0.88;Cylinder method;;;Particle size distribution by aerometric method;86;;12;;2;;
202;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);20;;;;Industrial;;Soil affected by land use;Forests;;BE2 : Spolic Technosol (Arenix, Hypereutic, Hyperartefactic, Epiimmisic, Laxic, Ochric);Soil;60;90;Technosol;Spolic;Arenic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Ochric;Anthroposol arificiel;;;;;1.6;Dry combustion;;;;;;;0.01;Kjeldahl method;;;89;1:2.5 water;;;108;Sum of exchangeable cation concentrations;;;0.93;Cylinder method;;;Particle size distribution by aerometric method;82;;16;;2;;
203;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;Forests;;BE3 : Spolic Technosol (Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic);Soil;0;1;Technosol;Spolic;Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic;Anthroposol arificiel;;;;;37.1;Dry combustion;;;;;;;0.88;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
204;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;Forests;;BE3 : Spolic Technosol (Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic);Soil;1;3;Technosol;Spolic;Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic;Anthroposol arificiel;;;;;2.9;Dry combustion;;;;;;;0.17;Kjeldahl method;;;79;1:2.5 water;;;107;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;54;;45;;1;;
205;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;Forests;;BE3 : Spolic Technosol (Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic);Soil;3;10;Technosol;Spolic;Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic;Anthroposol arificiel;;;;;6.4;Dry combustion;;;;;;;0.41;Kjeldahl method;;;9;1:2.5 water;;;135;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;65;;33;;2;;
206;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;Forests;;BE3 : Spolic Technosol (Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic);Soil;10;25;Technosol;Spolic;Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic;Anthroposol arificiel;;;;;1.3;Dry combustion;;;;;;;0.02;Kjeldahl method;;;89;1:2.5 water;;;146;Sum of exchangeable cation concentrations;;;0.7;Cylinder method;;;Particle size distribution by aerometric method;63;;33;;4;;
207;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;Forests;;BE3 : Spolic Technosol (Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic);Soil;25;60;Technosol;Spolic;Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic;Anthroposol arificiel;;;;;1.4;Dry combustion;;;;;;;0.04;Kjeldahl method;;;8;1:2.5 water;;;78;Sum of exchangeable cation concentrations;;;0.65;Cylinder method;;;Particle size distribution by aerometric method;68;;3;;2;;
208;10.2478/ssa-2018-0006;"(Uzarowicz et al.; 2018)";Indicators of pedogenesis of Technosols developed in an ash settling pond at the Be?chat¢w thermal power station (central Poland);2 (profile);2 (dynamic);Poland;D (continental);30;;;;Industrial;;Soil affected by land use;Forests;;BE3 : Spolic Technosol (Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic);Soil;60;70;Technosol;Spolic;Protocalcic, Hypereutric, Hyperartefactic, Epiimmisic, Laxic, Loamic, Ochric, Endoprotosalic;Anthroposol arificiel;;;;;0.4;Dry combustion;;;;;;;0.01;Kjeldahl method;;;88;1:2.5 water;;;621;Sum of exchangeable cation concentrations;;;;;;;Particle size distribution by aerometric method;91;;5;;1;;
209;10.1016/j.geoderma.2017.10.032;"(Dom¡nguez-Haydar et al.; 2018)";Assessment of soil fauna footprints at a rehabilitated coal mine using micromorphology and near infrared spectroscopy (NIRS);1 (aggregate);0 (no particular approach);Colombia;B (dry);1;27.5;800;220;Mining;;Constructed soil;Bare;;Coal mine soil;Soil;;;;;;Anthroposol reconstitu‚;;;;;;;;;224;Chromic acid titration (Walkley-Black);23;;0.11;Micro-Kjeldahl method;1;;818;1:2 water;4;;;;;;1.32;;11;;;3875;;34;;28;;
210;10.1016/j.geoderma.2017.10.032;"(Dom¡nguez-Haydar et al.; 2018)";Assessment of soil fauna footprints at a rehabilitated coal mine using micromorphology and near infrared spectroscopy (NIRS);1 (aggregate);0 (no particular approach);Colombia;B (dry);6;27.5;800;220;Mining;;Constructed soil;Grasslands;;Coal mine soil;Soil;;;;;;Anthroposol reconstitu‚;;;;;;;;;271;Chromic acid titration (Walkley-Black);22;;0.13;Micro-Kjeldahl method;1;;815;1:2 water;8;;;;;;1.2;;14;;;4125;;31;;28;;
211;10.1016/j.geoderma.2017.10.032;"(Dom¡nguez-Haydar et al.; 2018)";Assessment of soil fauna footprints at a rehabilitated coal mine using micromorphology and near infrared spectroscopy (NIRS);1 (aggregate);0 (no particular approach);Colombia;B (dry);8;27.5;800;220;Mining;;Constructed soil;Forests;;Coal mine soil;Soil;;;;;;Anthroposol reconstitu‚;;;;;;;;;258;Chromic acid titration (Walkley-Black);25;;0.13;Micro-Kjeldahl method;1;;808;1:2 water;6;;;;;;1.31;;12;;;4525;;3;;25;;
212;10.1016/j.geoderma.2017.10.032;"(Dom¡nguez-Haydar et al.; 2018)";Assessment of soil fauna footprints at a rehabilitated coal mine using micromorphology and near infrared spectroscopy (NIRS);1 (aggregate);0 (no particular approach);Colombia;B (dry);9;27.5;800;220;Mining;;Constructed soil;Forests;;Coal mine soil;Soil;;;;;;Anthroposol reconstitu‚;;;;;;;;;277;Chromic acid titration (Walkley-Black);68;;0.14;Micro-Kjeldahl method;3;;817;1:2 water;5;;;;;;1.2;;6;;;4425;;32;;24;;
213;10.1016/j.geoderma.2017.10.032;"(Dom¡nguez-Haydar et al.; 2018)";Assessment of soil fauna footprints at a rehabilitated coal mine using micromorphology and near infrared spectroscopy (NIRS);1 (aggregate);0 (no particular approach);Colombia;B (dry);16;27.5;800;220;Mining;;Constructed soil;Forests;;Coal mine soil;Soil;;;;;;Anthroposol reconstitu‚;;;;;;;;;306;Chromic acid titration (Walkley-Black);3;;0.16;Micro-Kjeldahl method;1;;817;1:2 water;4;;;;;;1.23;;12;;;4275;;33;;24;;
214;10.1016/j.geoderma.2017.10.032;"(Dom¡nguez-Haydar et al.; 2018)";Assessment of soil fauna footprints at a rehabilitated coal mine using micromorphology and near infrared spectroscopy (NIRS);1 (aggregate);0 (no particular approach);Colombia;B (dry);20;27.5;800;220;Mining;;Constructed soil;Bare;;Coal mine soil;Soil;;;;;;Anthroposol reconstitu‚;;;;;;;;;305;Chromic acid titration (Walkley-Black);28;;0.15;Micro-Kjeldahl method;2;;813;1:2 water;6;;;;;;1.21;;5;;;4175;;33;;26;;
215;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Coal Waste 2.2-2.6;Organic soil constituant (intentionally incorporated);;;;;;;4.15;Dry combustion;;;;;;;;;;;0.18;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
216;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Coal waste (low density) CW <2.2;Organic soil constituant (intentionally incorporated);;;;;;;34.2;Dry combustion;;;;;;;;;;;0.2;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
217;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Coal waste (high density) CW >2.6;Organic soil constituant (intentionally incorporated);;;;;;;8;Dry combustion;;;;;;;;;;;0.2;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
218;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Steel slag;Organic soil constituant (intentionally incorporated);;;;;;;1.03;Dry combustion;;;;;;;;;;;0.82;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
219;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;21.5;Dry combustion;;;;;;;;;;;2.7;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
220;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Rice husk ash;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;1.33;Dry combustion;;;;;;;;;;;0.92;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
221;10.1016/j.jclepro.2017.10.341;"(Weiler et al.; 2018)";Coal waste derived soil-like substrate: An opportunity for coal waste in a sustainable mineral scenario;2 (profile);1 (static);Brazil;C (temperate);;;;;Mining;;Constructed soil;;;Soil like substrate (mix with coal waste, steel slag, sewage sludge and rice husk ash);Soil;;;;;;;;;;;;;;;33;Chromic acid titration (Walkley-Black);3;;;;;;5;1:1 water;;;;;;;;;;;;;;;;;;
222;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;R1 : roof edifisol (Isolatic Technosol);Soil;0;2;Technosol;Isolatic;;;;;;;2.41;Dry combustion;;;;;;;0.172;Dry combustion;;;65;water;;;;;;;;;;;;;;;;;;
223;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;R2 : roof edifisol (Isolatic Technosol);Soil;0;5;Technosol;Isolatic;;;;;;;9.58;Dry combustion;;;;;;;0.238;Dry combustion;;;81;water;;;;;;;;;;;;;;;;;;
224;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;R3 : roof edifisol (Isolatic Technosol);Soil;0;7;Technosol;Isolatic;;;;;;;25.8;Dry combustion;;;;;;;2.05;Dry combustion;;;72;water;;;;;;;;;;;;;;;;;;
225;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;W1 : wall edifisol (Isolatic Technosol);Soil;0;4;Technosol;Isolatic;;;;;;;6.21;Dry combustion;;;;;;;0.478;Dry combustion;;;77;water;;;;;;;;;;;;;;;;;;
226;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;W2 : wall edifisol (Isolatic Technosol);Soil;0;5;Technosol;Isolatic;;;;;;;3.15;Dry combustion;;;;;;;0.35;Dry combustion;;;77;water;;;;;;;;;;;;;;;;;;
227;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;W3 : wall edifisol (Isolatic Technosol);Soil;0;3;Technosol;Isolatic;;;;;;;6.99;Dry combustion;;;;;;;0.347;Dry combustion;;;75;water;;;;;;;;;;;;;;;;;;
228;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;G1 : gutter edifisol (Isolatic Technosol);Soil;0;8;Technosol;Isolatic;;;;;;;15.2;Dry combustion;;;;;;;0.558;Dry combustion;;;57;water;;;;;;;;;;;;;;;;;;
229;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;G2 : gutter edifisol (Isolatic Technosol);Soil;0;9;Technosol;Isolatic;;;;;;;5.12;Dry combustion;;;;;;;0.341;Dry combustion;;;67;water;;;;;;;;;;;;;;;;;;
230;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;G3 : gutter edifisol (Isolatic Technosol);Soil;0;6;Technosol;Isolatic;;;;;;;5.14;Dry combustion;;;;;;;0.233;Dry combustion;;;67;water;;;;;;;;;;;;;;;;;;
231;10.1016/j.apsoil.2017.04.022;"(Markiewicz et al.; 2018)";Characteristics of soil organic matter of edifisols ? An example of techno humus system;0 (no particular approach);1 (static);Poland;D (continental);;;;;Urban;;NA;Grasslands;;G4 : gutter edifisol (Isolatic Technosol);Soil;0;5;Technosol;Isolatic;;;;;;;39.5;Dry combustion;;;;;;;1.9;Dry combustion;;;61;water;;;;;;;;;;;;;;;;;;
232;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);0;10;763;;Urban;;Constructed soil;Bare;;S0 : roof soil;Soil;0;10;Technosol;Isolatic;;Anthroposol construit;;;;;5.1*;Dry combustion;;;;;;;0.1*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
233;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Bare;;S4-bare soil : roof soil;Soil;0;2;Technosol;Isolatic;;Anthroposol construit;;;;;1.9*;Dry combustion;;;;;;;0.65*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
234;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Bare;;S4-bare soil : roof soil;Soil;2;5;Technosol;Isolatic;;Anthroposol construit;;;;;2.3*;Dry combustion;;;;;;;0.62*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
235;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Bare;;S4-bare soil : roof soil;Soil;5;10;Technosol;Isolatic;;Anthroposol construit;;;;;1.2*;Dry combustion;;;;;;;0.31*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
236;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Other;Moss;S4-moss : roof soil;Soil;0;2;Technosol;Isolatic;;Anthroposol construit;;;;;2.6*;Dry combustion;;;;;;;0.85*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
237;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Other;Moss;S4-moss : roof soil;Soil;2;5;Technosol;Isolatic;;Anthroposol construit;;;;;1.6*;Dry combustion;;;;;;;0.35*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
238;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Other;Moss;S4-moss : roof soil;Soil;5;10;Technosol;Isolatic;;Anthroposol construit;;;;;1.1*;Dry combustion;;;;;;;0.27*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
239;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Other;Moss;S4-sedums : roof soil;Soil;0;2;Technosol;Isolatic;;Anthroposol construit;;;;;2.9*;Dry combustion;;;;;;;0.7*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
240;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Other;Moss;S4-sedums : roof soil;Soil;2;5;Technosol;Isolatic;;Anthroposol construit;;;;;2.8*;Dry combustion;;;;;;;0.58*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
241;10.1007/s11368-016-1513-3;"(Bouzouidja et al.; 2018)";Green roof ageing or Isolatic Technosol?s pedogenesis?;0 (no particular approach);0 (no particular approach);France;C (temperate);4;10;763;;Urban;;Constructed soil;Other;Moss;S4-sedums : roof soil;Soil;5;10;Technosol;Isolatic;;Anthroposol construit;;;;;1.1*;Dry combustion;;;;;;;0.27*;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
242;10.1007/s11368-016-1524-0;"(Yilmaz et al.; 2018)";Physical properties of structural soils containing waste materials to achieve urban greening;2 (profile);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;Growing material: 58 % of brick manufacturing, 42 % compost made of sewage sludge and green waste;Soil;;;Technosol;;;Anthroposol construit;;;;;;;;;271;Chromic acid titration (Walkley-Black);;;1.7;Dry combustion;;;7;NF ISO 10390;;;429;Other;;;;;;;;;;;;;;
243;10.1007/s11368-016-1524-0;"(Yilmaz et al.; 2018)";Physical properties of structural soils containing waste materials to achieve urban greening;2 (profile);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;Structure material : control;Soil;;;Technosol;;;Anthroposol construit;;;;;;;;;624;Chromic acid titration (Walkley-Black);;;0.2;Dry combustion;;;46;NF ISO 10390;;;143;Other;;;;;;;;;;;;;;
244;10.1007/s11368-016-1524-0;"(Yilmaz et al.; 2018)";Physical properties of structural soils containing waste materials to achieve urban greening;2 (profile);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;Structure material : control;Soil;;;Technosol;;;Anthroposol construit;;;;;;;;;481;Chromic acid titration (Walkley-Black);;;0.34;Dry combustion;;;67;NF ISO 10390;;;111;Other;;;;;;;;;;;;;;
245;10.1007/s11368-016-1524-0;"(Yilmaz et al.; 2018)";Physical properties of structural soils containing waste materials to achieve urban greening;2 (profile);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;Structure material : control;Soil;;;Technosol;;;Anthroposol construit;;;;;;;;;4;Chromic acid titration (Walkley-Black);;;0.15;Dry combustion;;;82;NF ISO 10390;;;151;Other;;;;;;;;;;;;;;
246;10.1007/s11368-016-1524-0;"(Yilmaz et al.; 2018)";Physical properties of structural soils containing waste materials to achieve urban greening;2 (profile);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;Structure material : control;Soil;;;Technosol;;;Anthroposol construit;;;;;;;;;234;Chromic acid titration (Walkley-Black);;;0.09;Dry combustion;;;77;NF ISO 10390;;;41;Other;;;;;;;;;;;;;;
247;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Agricultural;;No major anthropization;;;Control agricultural soil;Soil;;;;;;;1.21;Dry combustion;;;1.2;;;;;;;;0.1;Dry combustion;;;74;10g soil in 0.05 L water;;;78;;;;;;;;;586;;314;;1;;
248;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;excavated acidic earth material (AE);Inorganic soil constituant (intentionally incorporated);;;;;;;0.1;Dry combustion;;;0.1;;;;;;;;0.03;Dry combustion;;;49;10g soil in 0.05 L water;;;37;;;;;;;;;339;;576;;85;;
249;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;bricks BR;Inorganic soil constituant (intentionally incorporated);;;;;;;0.1;Dry combustion;;;0;;;;;;;;0.01;Dry combustion;;;93;10g soil in 0.05 L water;;;16;;;;;;;;;673;;244;;83;;
250;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;compost from sludge and green wastes CO;Organic soil constituant (intentionally incorporated);;;;;;;22.4;Dry combustion;;;22.3;;;;;;;;2.3;Dry combustion;;;78;10g soil in 0.05 L water;;;546;;;;;;;;;354;;383;;263;;
251;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;green wastes GW;Organic soil constituant (intentionally incorporated);;;;;;;30;Dry combustion;;;29.9;;;;;;;;1.29;Dry combustion;;;79;10g soil in 0.05 L water;;;312;;;;;;;;;344;;347;;339;;
252;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;mixtures AE/CO;Soil;;;;;;Anthroposol construit;5.93;Dry combustion;;;5.65;;;;;;;;0.63;Dry combustion;;;46;10g soil in 0.05 L water;;;109;;;;;;;;;;;;;;;
253;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;mixtures AE/GW;Soil;;;;;;Anthroposol construit;8.32;Dry combustion;;;7.55;;;;;;;;0.34;Dry combustion;;;81;10g soil in 0.05 L water;;;;;;;;;;;;;;;;;;
254;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;mixtures BR/CO;Soil;;;;;;Anthroposol construit;11.97;Dry combustion;;;5.57;;;;;;;;1.05;Dry combustion;;;74;10g soil in 0.05 L water;;;242;;;;;;;;;;;;;;;
255;10.1007/s11368-016-1469-3;"(Vidal-Beaudet et al.; 2018)";Aggregation and availability of phosphorus in a Technosol constructed from urban wastes;1 (aggregate);0 (no particular approach);France;C (temperate);;;;;Urban;;Constructed soil;;;mixtures BR/GW;Soil;;;;;;Anthroposol construit;18.32;Dry combustion;;;14.95;;;;;;;;0.51;Dry combustion;;;77;10g soil in 0.05 L water;;;;;;;;;;;;;;;;;;
256;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond of a copper mine;Soil;0;50;;;;Anthroposol arificiel;0.193;;15;;;;;;;;;;;;;;273;;7;;611;;5;;;;;;;;;;;;;
257;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil affected by land use;;;Sand;Inorganic soil constituant (intentionally incorporated);;;;;;;0.276;;6;;;;;;;;;;0.000001;;1;;378;;14;;13;;5;;;;;;;;;;;;;
258;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil affected by land use;;;Technosol (60% plant wastes, 10 aluminium wastes, 5% ash, 10% agri-food industry wastes, ...);Organic soil constituant (intentionally incorporated);;;;;;;25.6;;251;;;;;;;;;;0.001767;;5;;604;;5;;7661;;4;;;;;;;;;;;;;
259;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil affected by land use;;;Compost (horse and rabbit manure);Organic soil constituant (intentionally incorporated);;;;;;;27.6;;249;;;;;;;;;;0.002133;;102;;647;;2;;5354;;107;;;;;;;;;;;;;
260;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;0;15;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;84;;5;;;;;;;;;;;;;
261;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;0;15;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;361;;4;;;;;;;;;;;;;
262;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;0;15;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;1078;;5;;;;;;;;;;;;;
263;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;15;30;;;;Anthroposol arificiel;0.25*;;;;;;;;;;;;;;;;;;;;94;;2;;;;;;;;;;;;;
264;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;15;30;;;;Anthroposol arificiel;0.24*;;;;;;;;;;;;;;;;;;;;306;;49;;;;;;;;;;;;;
265;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;15;30;;;;Anthroposol arificiel;0.24*;;;;;;;;;;;;;;;;;;;;106;;12;;;;;;;;;;;;;
266;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;30;45;;;;Anthroposol arificiel;0.2*;;;;;;;;;;;;;;;;;;;;109;;1;;;;;;;;;;;;;
267;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;30;45;;;;Anthroposol arificiel;0.2*;;;;;;;;;;;;;;;;;;;;323;;16;;;;;;;;;;;;;
268;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Soil affected by land use;;;Settling pond soil S;Soil;30;45;;;;Anthroposol arificiel;0.2*;;;;;;;;;;;;;;;;;;;;156;;47;;;;;;;;;;;;;
269;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;0;15;;;;Anthroposol construit;;;;;;;;;;;;;;;;;;;;;94;;;;;;;;;;;;;;;
270;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;0;15;;;;Anthroposol construit;;;;;;;;;;;;;;;;;;;;;505;;;;;;;;;;;;;;;
271;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;0;15;;;;Anthroposol construit;;;;;;;;;;;;;;;;;;;;;586;;;;;;;;;;;;;;;
272;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;15;30;;;;Anthroposol construit;0.15*;;;;;;;;;;;;;;;;;;;;11;;2;;;;;;;;;;;;;
273;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;15;30;;;;Anthroposol construit;0.16*;;;;;;;;;;;;;;;;;;;;412;;84;;;;;;;;;;;;;
274;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;15;30;;;;Anthroposol construit;0.2*;;;;;;;;;;;;;;;;;;;;11;;13;;;;;;;;;;;;;
275;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;30;45;;;;Anthroposol construit;0.15*;;;;;;;;;;;;;;;;;;;;115;;1;;;;;;;;;;;;;
276;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;30;45;;;;Anthroposol construit;0.15*;;;;;;;;;;;;;;;;;;;;461;;1;;;;;;;;;;;;;
277;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + sand;Soil;30;45;;;;Anthroposol construit;0.25*;;;;;;;;;;;;;;;;;;;;115;;1;;;;;;;;;;;;;
278;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;0;15;;;;Anthroposol construit;20*;;;;;;;;;;;;;;;;;;;;347;;8;;;;;;;;;;;;;
279;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;0;15;;;;Anthroposol construit;10*;;;;;;;;;;;;;;;;;;;;287;;69;;;;;;;;;;;;;
280;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;0;15;;;;Anthroposol construit;16*;;;;;;;;;;;;;;;;;;;;314;;34;;;;;;;;;;;;;
281;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;15;30;;;;Anthroposol construit;0.3*;;;;;;;;;;;;;;;;;;;;461;;235;;;;;;;;;;;;;
282;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;15;30;;;;Anthroposol construit;0.22*;;;;;;;;;;;;;;;;;;;;287;;2;;;;;;;;;;;;;
283;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;15;30;;;;Anthroposol construit;0.75*;;;;;;;;;;;;;;;;;;;;446;;28;;;;;;;;;;;;;
284;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;30;45;;;;Anthroposol construit;0.15*;;;;;;;;;;;;;;;;;;;;503;;61;;;;;;;;;;;;;
285;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;30;45;;;;Anthroposol construit;0.15*;;;;;;;;;;;;;;;;;;;;158;;2;;;;;;;;;;;;;
286;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + technosol + brassica juncea;Soil;30;45;;;;Anthroposol construit;0.55*;;;;;;;;;;;;;;;;;;;;47;;24;;;;;;;;;;;;;
287;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;0;15;;;;Anthroposol construit;15*;;;;;;;;;;;;;;;;;;;;365;;77;;;;;;;;;;;;;
288;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;0;15;;;;Anthroposol construit;16*;;;;;;;;;;;;;;;;;;;;284;;128;;;;;;;;;;;;;
289;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;0;15;;;;Anthroposol construit;20*;;;;;;;;;;;;;;;;;;;;393;;8;;;;;;;;;;;;;
290;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;15;30;;;;Anthroposol construit;0.25*;;;;;;;;;;;;;;;;;;;;291;;15;;;;;;;;;;;;;
291;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;15;30;;;;Anthroposol construit;0.25*;;;;;;;;;;;;;;;;;;;;274;;25;;;;;;;;;;;;;
292;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;15;30;;;;Anthroposol construit;0.8*;;;;;;;;;;;;;;;;;;;;418;;26;;;;;;;;;;;;;
293;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;30;45;;;;Anthroposol construit;0.2*;;;;;;;;;;;;;;;;;;;;203;;1;;;;;;;;;;;;;
294;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);583333333;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;30;45;;;;Anthroposol construit;0.25*;;;;;;;;;;;;;;;;;;;;473;;;;;;;;;;;;;;;
295;10.3232/SJSS.2018.V8.N3.02;"(Forj n et al.; 2018)";Assesment of compost and Technosol as amendments to increase nutrient contents in a mine soil vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);916666667;12.6;1886;;Mining;;Constructed soil;;;Settling pond soil + compost + brassica juncea;Soil;30;45;;;;Anthroposol construit;0.55*;;;;;;;;;;;;;;;;;;;;286;;18;;;;;;;;;;;;;
296;10.3232/SJSSS.2018.V8.N2.02;"(Watteau et al.; 2018)";Micropedology to reveal pedogenetic processes in Technosols;1 (aggregate);0 (no particular approach);France;C (temperate);3;;;;Industrial;;Constructed soil;Grasslands;;Spolic Garbic Hydric Technosol (Calcaric) Constructed Technosol;Soil;;;Technosol;Spolic;Garbic, Hydric, Calcaric;Anthroposol construit;;;;;;;;;7;;;;;;;;8;;;;;;;;;;;;;84;;;;;;
297;10.3232/SJSSS.2018.V8.N2.02;"(Watteau et al.; 2018)";Micropedology to reveal pedogenetic processes in Technosols;1 (aggregate);0 (no particular approach);France;C (temperate);60;;;;Industrial;;Soil affected by land use;Forests;;Spolic Technosol developed on a settling pond filled with blast furnace sludge from the iron and steel industry;Soil;;;Technosol;Spolic;Andic, Calcaric, Thixotropic, Toxic;Anthroposol arificiel;;;;;;;;;55;;;;;;;;81;;;;;;;;;;;;;18;;;;;;
298;10.3232/SJSSS.2018.V8.N2.02;"(Watteau et al.; 2018)";Micropedology to reveal pedogenetic processes in Technosols;1 (aggregate);0 (no particular approach);France;C (temperate);6;;;;Urban;;Constructed soil;Other;Sedum;Isolatic Technosol;Soil;;;Technosol;Isolatic;Drainic, Folic, Transportic;Anthroposol construit;;;;;;;;;88;;;;;;;;68;;;;;;;;;;;;;15;;;;;;
299;10.3232/SJSSS.2018.V8.N2.02;"(Watteau et al.; 2018)";Micropedology to reveal pedogenetic processes in Technosols;1 (aggregate);0 (no particular approach);France;C (temperate);4;;;;Industrial;;Soil with anthropogenic constituants incorporated;Crops;;Biochar-amended Cambic Stagnic Luvisol;Soil;;;Luvisol;Cambic;Stagnic;Anthroposol reconstitu‚;;;;;;;;;188;;;;;;;;81;;;;;;;;;;;;;18;;;;;;
300;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil affected by land use;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;35.16;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
301;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil affected by land use;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;0.93;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
302;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil affected by land use;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;0.43;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
303;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil affected by land use;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;0.52;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
304;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;36.37;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
305;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;1.6;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
306;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.52;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
307;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;0.85;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
308;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;36.72;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
309;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;2.02;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
310;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.17;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
311;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;0.94;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
312;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;41.9;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
313;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;2.88;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
314;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.29;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
315;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;5.19;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
316;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;43.69;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
317;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;1.75;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
318;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.64;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
319;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;1.32;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
320;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;31.41;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
321;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;2.65;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
322;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;3.11;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
323;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;2.2;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
324;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;33.59;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
325;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;1.75;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
326;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;2.2;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
327;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;1.34;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
328;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;31.58;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
329;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;2.05;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
330;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.69;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
331;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;1.42;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
332;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;42.16;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
333;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;1.22;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
334;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.58;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
335;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;1.01;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
336;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon O (litter);Soil;0;4;;;;Anthroposol arificiel;;;;;38.41;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
337;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon A;Soil;4;11;;;;Anthroposol arificiel;;;;;1.89;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
338;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil : horizon Cg1;Soil;11;20;;;;Anthroposol arificiel;;;;;1.43;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
339;10.5277/epe180109;"(Greinert et al.; 2018)";Storage capacity of organic carbon in the reclaimed post-mining Technosols;2 (profile);1 (static);Poland;D (continental);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Reclaimes lignite mining soil hoziron C2;Soil;20;80;;;;Anthroposol arificiel;;;;;1.17;Chromic acid titration (Walkley-Black);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
340;10.17221/76/2017-SWR;"(Pavl? and M�hlhanselov ; 2018)";Differences in humic acids structure of various soil types studied by DRIFT spectroscopy;2 (profile);1 (static);Czech Republic;D (continental);;;;;Industrial;;Soil affected by land use;;;Haplic Technosol (molic) of a reclaimed dumpsite;Soil;0;20;Technosol;Haplic;Molic;Anthroposol arificiel;;;;;1.9;Chromic acid titration (Walkley-Black);38;13;;;;;;;;;668;1:2.5 1 M KCl;3;13;2344;Mehlich method;607;13;;;;;Particle size distribution by aerometric method;32;;457;;223;;13
341;10.17221/76/2017-SWR;"(Pavl? and M�hlhanselov ; 2018)";Differences in humic acids structure of various soil types studied by DRIFT spectroscopy;2 (profile);1 (static);Czech Republic;D (continental);;;;;Industrial;;Soil affected by land use;;;Haplic Technosol (calcic) of a reclaimed dumpsite;Soil;0;20;Technosol;Haplic;Calcic;Anthroposol arificiel;;;;;1.22;Chromic acid titration (Walkley-Black);85;11;;;;;;;;;685;1:2.5 1 M KCl;32;11;2857;Mehlich method;1102;11;;;;;Particle size distribution by aerometric method;341;;407;;255;;11
342;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);;16.8;454;;Mining;;Constructed soil;Grasslands;;Marble sludge;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;0.055;Chromic acid titration (Walkley-Black);5;;;;;;0.006;Kjeldahl method;1;;86;1:2.5 water;2;;;;;;1.23;Cylinder method;5;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;6;;687;;253;;
343;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);;16.8;454;;Mining;;Constructed soil;Grasslands;;Topsoil coming from the soils near the quarries;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;0.35;Chromic acid titration (Walkley-Black);7;;;;;;0.033;Kjeldahl method;4;;85;1:2.5 water;1;;;;;;1.63;Cylinder method;5;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;655;;235;;11;;
344;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;1PT;Soil;0;7;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.48;Chromic acid titration (Walkley-Black);;;;;;;0.039;Kjeldahl method;;;;;;;;;;;1.59;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;653;;237;;11;;
345;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;1PT;Soil;7;17;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.37;Chromic acid titration (Walkley-Black);;;;;;;0.034;Kjeldahl method;;;;;;;;;;;1.68;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;634;;241;;125;;
346;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;1PT;Soil;17;27;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.36;Chromic acid titration (Walkley-Black);;;;;;;0.034;Kjeldahl method;;;;;;;;;;;1.63;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;629;;242;;129;;
347;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;2PT;Soil;0;8;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.45;Chromic acid titration (Walkley-Black);;;;;;;0.038;Kjeldahl method;;;;;;;;;;;1.58;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;661;;224;;115;;
348;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;2PT;Soil;8;18;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.38;Chromic acid titration (Walkley-Black);;;;;;;0.034;Kjeldahl method;;;;;;;;;;;1.7;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;645;;237;;118;;
349;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;2PT;Soil;18;28;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.37;Chromic acid titration (Walkley-Black);;;;;;;0.034;Kjeldahl method;;;;;;;;;;;1.67;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;637;;23;;133;;
350;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;3PT;Soil;0;7;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.51;Chromic acid titration (Walkley-Black);;;;;;;0.043;Kjeldahl method;;;;;;;;;;;1.6;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;70;;233;;67;;
351;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;3PT;Soil;7;17;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.37;Chromic acid titration (Walkley-Black);;;;;;;0.035;Kjeldahl method;;;;;;;;;;;1.67;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;669;;251;;8;;
352;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;3PT;Soil;17;28;Leptosol;Hyperskeletic;;Anthroposol reconstitu‚;;;;;0.36;Chromic acid titration (Walkley-Black);;;;;;;0.035;Kjeldahl method;;;;;;;;;;;1.68;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;638;;248;;114;;
353;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS<25;Soil;0;5;Technosol;Spolic;;Anthroposol construit;;;;;0.8;Chromic acid titration (Walkley-Black);;;;;;;0.071;Kjeldahl method;;;;;;;;;;;1.59;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;689;;258;;53;;
354;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS<25;Soil;5;16;Technosol;Spolic;;Anthroposol construit;;;;;0.54;Chromic acid titration (Walkley-Black);;;;;;;0.05;Kjeldahl method;;;;;;;;;;;1.63;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;671;;23;;99;;
355;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS<25;Soil;16;21;Technosol;Spolic;;Anthroposol construit;;;;;1.63;Chromic acid titration (Walkley-Black);;;;;;;0.161;Kjeldahl method;;;;;;;;;;;1.55;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;648;;262;;9;;
356;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS<25;Soil;21;26;Technosol;Spolic;;Anthroposol construit;;;;;0.31;Chromic acid titration (Walkley-Black);;;;;;;0.028;Kjeldahl method;;;;;;;;;;;1.23;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;78;;682;;24;;
357;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS<25;Soil;26;36;Technosol;Spolic;;Anthroposol construit;;;;;0.17;Chromic acid titration (Walkley-Black);;;;;;;0.016;Kjeldahl method;;;;;;;;;;;1.25;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;73;;701;;226;;
358;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS<25;Soil;0;8;Technosol;Spolic;;Anthroposol construit;;;;;0.86;Chromic acid titration (Walkley-Black);;;;;;;0.088;Kjeldahl method;;;;;;;;;;;1.59;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;662;;241;;97;;
359;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS<25;Soil;8;20;Technosol;Spolic;;Anthroposol construit;;;;;0.56;Chromic acid titration (Walkley-Black);;;;;;;0.054;Kjeldahl method;;;;;;;;;;;1.66;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;662;;238;;1;;
360;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS<25;Soil;20;23;Technosol;Spolic;;Anthroposol construit;;;;;1.81;Chromic acid titration (Walkley-Black);;;;;;;0.169;Kjeldahl method;;;;;;;;;;;1.64;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;659;;227;;114;;
361;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS<25;Soil;23;28;Technosol;Spolic;;Anthroposol construit;;;;;0.38;Chromic acid titration (Walkley-Black);;;;;;;0.036;Kjeldahl method;;;;;;;;;;;1.19;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;81;;725;;194;;
362;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS<25;Soil;28;37;Technosol;Spolic;;Anthroposol construit;;;;;0.17;Chromic acid titration (Walkley-Black);;;;;;;0.016;Kjeldahl method;;;;;;;;;;;1.21;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;69;;705;;226;;
363;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS<25;Soil;0;8;Technosol;Spolic;;Anthroposol construit;;;;;0.97;Chromic acid titration (Walkley-Black);;;;;;;0.089;Kjeldahl method;;;;;;;;;;;1.65;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;701;;218;;81;;
364;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS<25;Soil;8;20;Technosol;Spolic;;Anthroposol construit;;;;;0.58;Chromic acid titration (Walkley-Black);;;;;;;0.055;Kjeldahl method;;;;;;;;;;;1.68;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;655;;254;;91;;
365;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS<25;Soil;20;25;Technosol;Spolic;;Anthroposol construit;;;;;2.02;Chromic acid titration (Walkley-Black);;;;;;;0.184;Kjeldahl method;;;;;;;;;;;1.63;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;594;;292;;114;;
366;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS<25;Soil;25;30;Technosol;Spolic;;Anthroposol construit;;;;;0.44;Chromic acid titration (Walkley-Black);;;;;;;0.042;Kjeldahl method;;;;;;;;;;;1.24;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;69;;718;;213;;
367;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS<25;Soil;30;41;Technosol;Spolic;;Anthroposol construit;;;;;0.13;Chromic acid titration (Walkley-Black);;;;;;;0.012;Kjeldahl method;;;;;;;;;;;1.27;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;61;;742;;197;;
368;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS>30;Soil;0;9;Technosol;Spolic;;Anthroposol construit;;;;;0.83;Chromic acid titration (Walkley-Black);;;;;;;0.083;Kjeldahl method;;;;;;;;;;;1.69;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;674;;237;;89;;
369;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS>30;Soil;9;19;Technosol;Spolic;;Anthroposol construit;;;;;0.44;Chromic acid titration (Walkley-Black);;;;;;;0.044;Kjeldahl method;;;;;;;;;;;1.65;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;681;;242;;77;;
370;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS>30;Soil;19;27;Technosol;Spolic;;Anthroposol construit;;;;;1.06;Chromic acid titration (Walkley-Black);;;;;;;0.098;Kjeldahl method;;;;;;;;;;;1.64;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;713;;229;;58;;
371;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS>30;Soil;27;33;Technosol;Spolic;;Anthroposol construit;;;;;2.31;Chromic acid titration (Walkley-Black);;;;;;;0.261;Kjeldahl method;;;;;;;;;;;1.6;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;664;;258;;78;;
372;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS>30;Soil;33;38;Technosol;Spolic;;Anthroposol construit;;;;;0.51;Chromic acid titration (Walkley-Black);;;;;;;0.048;Kjeldahl method;;;;;;;;;;;1.31;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;196;;649;;155;;
373;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;1PTS>30;Soil;38;49;Technosol;Spolic;;Anthroposol construit;;;;;0.15;Chromic acid titration (Walkley-Black);;;;;;;0.015;Kjeldahl method;;;;;;;;;;;1.24;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;73;;68;;247;;
374;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS>30;Soil;0;8;Technosol;Spolic;;Anthroposol construit;;;;;0.94;Chromic acid titration (Walkley-Black);;;;;;;0.089;Kjeldahl method;;;;;;;;;;;1.63;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;728;;186;;86;;
375;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS>30;Soil;8;18;Technosol;Spolic;;Anthroposol construit;;;;;0.59;Chromic acid titration (Walkley-Black);;;;;;;0.055;Kjeldahl method;;;;;;;;;;;1.69;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;703;;205;;92;;
376;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS>30;Soil;18;27;Technosol;Spolic;;Anthroposol construit;;;;;0.95;Chromic acid titration (Walkley-Black);;;;;;;0.086;Kjeldahl method;;;;;;;;;;;1.67;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;689;;214;;97;;
377;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS>30;Soil;27;33;Technosol;Spolic;;Anthroposol construit;;;;;2.44;Chromic acid titration (Walkley-Black);;;;;;;0.279;Kjeldahl method;;;;;;;;;;;1.62;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;65;;254;;96;;
378;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS>30;Soil;33;38;Technosol;Spolic;;Anthroposol construit;;;;;0.61;Chromic acid titration (Walkley-Black);;;;;;;0.058;Kjeldahl method;;;;;;;;;;;1.42;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;161;;697;;142;;
379;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;2PTS>30;Soil;38;47;Technosol;Spolic;;Anthroposol construit;;;;;0.17;Chromic acid titration (Walkley-Black);;;;;;;0.016;Kjeldahl method;;;;;;;;;;;1.25;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;58;;73;;212;;
380;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS>30;Soil;0;8;Technosol;Spolic;;Anthroposol construit;;;;;1.21;Chromic acid titration (Walkley-Black);;;;;;;0.112;Kjeldahl method;;;;;;;;;;;1.59;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;694;;215;;91;;
381;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS>30;Soil;8;18;Technosol;Spolic;;Anthroposol construit;;;;;0.59;Chromic acid titration (Walkley-Black);;;;;;;0.057;Kjeldahl method;;;;;;;;;;;1.68;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;668;;25;;82;;
382;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS>30;Soil;18;28;Technosol;Spolic;;Anthroposol construit;;;;;1.04;Chromic acid titration (Walkley-Black);;;;;;;0.095;Kjeldahl method;;;;;;;;;;;1.7;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;649;;271;;8;;
383;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS>30;Soil;28;34;Technosol;Spolic;;Anthroposol construit;;;;;2.72;Chromic acid titration (Walkley-Black);;;;;;;0.279;Kjeldahl method;;;;;;;;;;;1.63;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;606;;308;;86;;
384;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS>30;Soil;34;39;Technosol;Spolic;;Anthroposol construit;;;;;0.69;Chromic acid titration (Walkley-Black);;;;;;;0.066;Kjeldahl method;;;;;;;;;;;1.35;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;172;;684;;144;;
385;10.1016/j.catena.2017.08.018;"(Sim¢n et al.; 2018)";Atypical morphology of technosols developed in quarry dumps restored with marble sludge: Implications for carbon sequestration;2 (profile);2 (dynamic);Spain;B (dry);6;16.8;454;;Mining;;Constructed soil;Grasslands;;3PTS>30;Soil;39;48;Technosol;Spolic;;Anthroposol construit;;;;;0.15;Chromic acid titration (Walkley-Black);;;;;;;0.014;Kjeldahl method;;;;;;;;;;;1.22;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;63;;707;;23;;
386;10.1016/j.catena.2017.09.012;"(Chenot et al.; 2018)";Impact of quarry exploitation and disuse on pedogenesis;2 (profile);1 (static);France;C (temperate);39;;541;;Mining;;Soil affected by land use;Grasslands;;Haplic cambisol : reference steppe soil;Soil;0;10;Cambisol;Haplic;Calcaric;Not an anthroposol;;;;;;;;;;;;5;;;;;;1:5 water;;5;;;;;;;;;Pipette method;;;;;;;5
387;10.1016/j.catena.2017.09.012;"(Chenot et al.; 2018)";Impact of quarry exploitation and disuse on pedogenesis;2 (profile);1 (static);France;C (temperate);39;;541;;Mining;;Soil affected by land use;Grasslands;;Reconstitued Technosol without contact with the phreatic zone;Soil;0;10;Technosol;;;Anthroposol reconstitu‚;;;;;;;;;;;;4;;;;;;1:5 water;;4;;;;;;;;;Pipette method;;;;;;;4
388;10.1016/j.catena.2017.09.012;"(Chenot et al.; 2018)";Impact of quarry exploitation and disuse on pedogenesis;2 (profile);1 (static);France;C (temperate);39;;541;;Mining;;Soil affected by land use;Grasslands;;Reconstitued Technosol with contact with the phreatic zone;Soil;0;10;Technosol;;;Anthroposol reconstitu‚;;;;;;;;;;;;5;;;;;;1:5 water;;5;;;;;;;;;Pipette method;;;;;;;5
389;10.1016/j.catena.2017.09.012;"(Chenot et al.; 2018)";Impact of quarry exploitation and disuse on pedogenesis;2 (profile);1 (static);France;C (temperate);39;;541;;Mining;;Soil affected by land use;Grasslands;;Reconstitued Technosol : soil deposit thicker than the reference layer;Soil;0;10;Technosol;;;Anthroposol reconstitu‚;;;;;;;;;;;;5;;;;;;1:5 water;;5;;;;;;;;;Pipette method;;;;;;;5
390;10.1016/j.catena.2017.09.012;"(Chenot et al.; 2018)";Impact of quarry exploitation and disuse on pedogenesis;2 (profile);1 (static);France;C (temperate);39;;541;;Mining;;Soil affected by land use;Grasslands;;Soil with deposit of anthropogenic materials;Soil;0;10;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;5;;;;;;1:5 water;;5;;;;;;;;;Pipette method;;;;;;;5
391;10.1016/j.catena.2017.09.012;"(Chenot et al.; 2018)";Impact of quarry exploitation and disuse on pedogenesis;2 (profile);1 (static);France;C (temperate);39;;541;;Mining;;Soil affected by land use;Grasslands;;Hyperskeletic Leptosol (quarry exploitation);Soil;0;10;Leptosol;Hyperskeletic;;Not an anthroposol;;;;;;;;;;;;5;;;;;;1:5 water;;5;;;;;;;;;Pipette method;;;;;;;5
392;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil affected by land use;;;Cu-Mo-Au tailings CK (control) tailings only without any amendments or plant cover;Soil;;;;;;Anthroposol arificiel;;;;;0.27;;15;;;;;;0.027;;1;;767;;7;;12;;0;;;;;;;;;;;;;
393;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Sugarcane mulch;Organic soil constituant (intentionally incorporated);;;;;;;;;;;41.7;;;;;;;;0.86;;;;65;;;;;;;;;;;;;;;;;;;
394;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Biochar;Organic soil constituant (intentionally incorporated);;;;;;;;;;;79;;;;;;;;0.19;;;;78;;;;;;;;;;;;;;;;;;;
395;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;SMIV: tailings amended with 10% sugarcane mulch + Iseilema vaginiflorum;Soil;;;;;;Anthroposol construit;;;;;3.82;;33;;;;;;0.048;;2;;765;;2;;33;;8;;;;;;;;;;;;;
396;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;BCIV: tailings amended with 10% biochar + Iseilema vaginiflorum;Soil;;;;;;Anthroposol construit;;;;;7.02;;13;;;;;;0.029;;7;;768;;4;;14;;3;;;;;;;;;;;;;
397;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;Shrublands;;SMAC: tailings amended with 10% sugarcane mulch + Acacia chisholmii;Soil;;;;;;Anthroposol construit;;;;;3.82;;13;;;;;;0.049;;5;;76;;3;;37;;9;;;;;;;;;;;;;
398;10.1016/j.geoderma.2017.09.010;"(You et al.; 2018)";Biochar and biomass organic amendments shaped different dominance of lithoautotrophs and organoheterotrophs in microbial communities colonizing neutral copper(Cu)-molybdenum(Mo)-gold(Au) tailings;0 (no particular approach);2 (dynamic);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;Shrublands;;BCAC: tailings amended with 10% biochar + Acacia chisholmii;Soil;;;;;;Anthroposol construit;;;;;6.86;;26;;;;;;0.03;;1;;762;;5;;16;;2;;;;;;;;;;;;;
399;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);;18;275;;Mining;;Soil affected by land use;;;Mine tailings ponds ;Soil;0;20;;;;Anthroposol arificiel;;;;;0.084;Dry combustion;;;;;;;;;;;282;1:2.5 water;;;;;;;;;;;;75;;18;;7;;
400;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);;18;275;;Mining;;Soil with anthropogenic constituants incorporated;;;Marblewaste collected from quarries in the North-west region of Spain;Organic soil constituant (intentionally incorporated);;;;;;;;;;;0;Dry combustion;;;;;;;;;;;8;1:2.5 water;;;;;;;;;;;;;;;;;;
401;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);;18;275;;Mining;;Soil with anthropogenic constituants incorporated;;;Biochar from pig manure converted by pyrolysis;Organic soil constituant (intentionally incorporated);;;;;;;;;;;40.5;Dry combustion;;;;;;;;;;;1052;1:2.5 water;;;;;;;;;;;;;;;;;;
402;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);416666667;18;275;;Mining;;Soil affected by land use;Bare;;CT : unamended mine residue;Soil;;;;;;Anthroposol arificiel;;;;;0.084*;Dry combustion;;;;;;;0.05*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
403;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);833333333;18;275;;Mining;;Soil affected by land use;Bare;;CT : unamended mine residue;Soil;;;;;;Anthroposol arificiel;;;;;0.16*;Dry combustion;;;;;;;0.05*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
404;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);416666667;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;BC1 : Technosol amended with 10 g C/kg;Soil;;;;;;Anthroposol construit;;;;;1*;Dry combustion;;;;;;;0.11*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
405;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);833333333;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;BC1 : Technosol amended with 10 g C/kg;Soil;;;;;;Anthroposol construit;;;;;0.8*;Dry combustion;;;;;;;0.12*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
406;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);416666667;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;BC2 : Technosol amended with 20 g C/kg;Soil;;;;;;Anthroposol construit;;;;;1.7*;Dry combustion;;;;;;;0.18*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
407;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);833333333;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;BC2 : Technosol amended with 20 g C/kg;Soil;;;;;;Anthroposol construit;;;;;2.25*;Dry combustion;;;;;;;0.19*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
408;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);416666667;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;BC1PM;Soil;;;;;;Anthroposol construit;;;;;1.7*;Dry combustion;;;;;;;0.13*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
409;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);833333333;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;BC1PM;Soil;;;;;;Anthroposol construit;;;;;1.05*;Dry combustion;;;;;;;0.11*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
410;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);416666667;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;BC2PM;Soil;;;;;;Anthroposol construit;;;;;2.7*;Dry combustion;;;;;;;0.19*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
411;10.1016/j.geoderma.2017.07.040;"(Moreno-Barriga et al.; 2017)";Use of Piptatherum miliaceum for the phytomanagement of biochar amended Technosols derived from pyritic tailings to enhance soil aggregation and reduce metal(loid) mobility;2 (profile);1 (static);Spain;B (dry);833333333;18;275;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;BC2PM;Soil;;;;;;Anthroposol construit;;;;;1.7*;Dry combustion;;;;;;;0.15*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
412;10.2134/jeq2017.03.0128;"(Guittonny-Larchevˆque and Lortie; 2017)";Above- and Belowground Development of a Fast-Growing Willow Planted in Acid-Generating Mine Technosol;2 (profile);1 (static);Canada;D (continental);;1.5;929;;Mining;;Soil affected by land use;Forests;;W : Gold mine waste rocks;Soil;;;;;;Anthroposol arificiel;;;;;0.3;Thermogravimetric method;5;;;;;;0.01;Dry combustion;0;;6;Saturated paste esxtract;3;;;;;;;;;;;;;;;;;
413;10.2134/jeq2017.03.0128;"(Guittonny-Larchevˆque and Lortie; 2017)";Above- and Belowground Development of a Fast-Growing Willow Planted in Acid-Generating Mine Technosol;2 (profile);1 (static);Canada;D (continental);;1.5;929;;Mining;;Constructed soil;Forests;;S20LS : 20cm layer of soil mixed with 20% peat soil above 20 cm layer of lime sludge;Soil;;;;;;Anthroposol construit;;;;;1.7;Thermogravimetric method;3;;;;;;0.08;Dry combustion;1;;51;Saturated paste esxtract;5;;;;;;;;;;;;;;;;;
414;10.2134/jeq2017.03.0128;"(Guittonny-Larchevˆque and Lortie; 2017)";Above- and Belowground Development of a Fast-Growing Willow Planted in Acid-Generating Mine Technosol;2 (profile);1 (static);Canada;D (continental);;1.5;929;;Mining;;Constructed soil;Forests;;S2020 : 20cm layer of soil mixed with 20% peat soil;Soil;;;;;;Anthroposol construit;;;;;3.2;Thermogravimetric method;7;;;;;;0.13;Dry combustion;3;;53;Saturated paste esxtract;7;;;;;;;;;;;;;;;;;
415;10.2134/jeq2017.03.0128;"(Guittonny-Larchevˆque and Lortie; 2017)";Above- and Belowground Development of a Fast-Growing Willow Planted in Acid-Generating Mine Technosol;2 (profile);1 (static);Canada;D (continental);;1.5;929;;Mining;;Constructed soil;Forests;;S2040 : 20cm layer of soil mixed with 40% peat soil;Soil;;;;;;Anthroposol construit;;;;;0.8;Thermogravimetric method;2;;;;;;0.04;Dry combustion;2;;56;Saturated paste esxtract;4;;;;;;;;;;;;;;;;;
416;10.2134/jeq2017.03.0128;"(Guittonny-Larchevˆque and Lortie; 2017)";Above- and Belowground Development of a Fast-Growing Willow Planted in Acid-Generating Mine Technosol;2 (profile);1 (static);Canada;D (continental);;1.5;929;;Mining;;Constructed soil;Forests;;S4020 : 40cm layer of soil mixed with 20% peat soil;Soil;;;;;;Anthroposol construit;;;;;1.1;Thermogravimetric method;8;;;;;;0.06;Dry combustion;4;;56;Saturated paste esxtract;3;;;;;;;;;;;;;;;;;
417;10.2134/jeq2017.03.0128;"(Guittonny-Larchevˆque and Lortie; 2017)";Above- and Belowground Development of a Fast-Growing Willow Planted in Acid-Generating Mine Technosol;2 (profile);1 (static);Canada;D (continental);;1.5;929;;Mining;;Constructed soil;Forests;;Lime sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;7;Thermogravimetric method;2;;;;;;0.04;Dry combustion;8;;8;Saturated paste esxtract;3;;;;;;;;;;;;;;;;;
418;10.1016/j.geoderma.2017.06.014;"(Deeb et al.; 2017)";"Interactive effects of compost; plants and earthworms on the aggregations of constructed Technosols";1 (aggregate);1 (static);France;C (temperate);;;;;Urban;;Constructed soil;;;Mineral material excavated from deep horizons of soil;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;0.38;Dry combustion;1;;;;;;0.03;Dry combustion;1;;82;;1;;;;;;1.3;;1;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;88;;1;;2;;
419;10.1016/j.geoderma.2017.06.014;"(Deeb et al.; 2017)";"Interactive effects of compost; plants and earthworms on the aggregations of constructed Technosols";1 (aggregate);1 (static);France;C (temperate);;;;;Urban;;Constructed soil;;;Green waste compost;Organic soil constituant (intentionally incorporated);;;;;;;;;;;21.04;Dry combustion;42;;;;;;1.47;Dry combustion;1;;79;;1;;;;;;0.6;;1;;;;;;;;;
420;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);;;;;Industrial;;Soil affected by land use;;;Fresh bituminous coal fly ash;Inorganic soil constituant  (not intentionally incorporated);;;;;;;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;139;1:2.5 1 M KCl;;;;;;;1.17;Cylinder method;;;Lazer diffraction method;37;;55;;8;;
421;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);;;;;Industrial;;Soil affected by land use;;;Fresh bituminous coal bottom ash;Inorganic soil constituant  (not intentionally incorporated);;;;;;;;;;;1.7;Dry combustion;;;;;;;0.01;Kjeldahl method;;;119;1:2.5 1 M KCl;;;;;;;0.84;Cylinder method;;;Lazer diffraction method;99;;1;;0;;
422;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);5;;;279;Industrial;;Soil affected by land use;;;Spolic Technosol : L1 Oi/C;Soil;0;1;Technosol;Spolic;;Anthroposol arificiel;;;;;11.1;Dry combustion;;;;;;;0.27;Kjeldahl method;;;83;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
423;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);5;;;279;Industrial;;Soil affected by land use;;;L1 AC;Soil;1;5;Technosol;Spolic;;Anthroposol arificiel;;;;;11;Dry combustion;;;;;;;0.14;Kjeldahl method;;;88;1:2.5 1 M KCl;;;;;;;;;;;Lazer diffraction method;67;;31;;2;;
424;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);5;;;279;Industrial;;Soil affected by land use;;;L1 C;Soil;5;30;Technosol;Spolic;;Anthroposol arificiel;;;;;10.9;Dry combustion;;;;;;;0.17;Kjeldahl method;;;91;1:2.5 1 M KCl;;;;;;;0.53;Cylinder method;;;Lazer diffraction method;73;;26;;1;;
425;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);5;;;279;Industrial;;Soil affected by land use;;;L1 2C;Soil;30;70;Technosol;Spolic;;Anthroposol arificiel;;;;;8.9;Dry combustion;;;;;;;0.17;Kjeldahl method;;;92;1:2.5 1 M KCl;;;;;;;0.49;Cylinder method;;;Lazer diffraction method;87;;13;;0;;
426;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);5;;;279;Industrial;;Soil affected by land use;;;L1 3C;Soil;70;110;Technosol;Spolic;;Anthroposol arificiel;;;;;11.4;Dry combustion;;;;;;;0.2;Kjeldahl method;;;9;1:2.5 1 M KCl;;;;;;;;;;;Lazer diffraction method;80;;2;;0;;
427;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);5;;;279;Industrial;;Soil affected by land use;;;L1 4C;Soil;110;125;Technosol;Spolic;;Anthroposol arificiel;;;;;10.5;Dry combustion;;;;;;;0.12;Kjeldahl method;;;86;1:2.5 1 M KCl;;;;;;;0.45;Cylinder method;;;Lazer diffraction method;66;;33;;1;;
428;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;Spolic Technosol : L2 Oi/C;Soil;0;1;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;0.3;Kjeldahl method;;;63;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
429;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 AC1;Soil;1;4;Technosol;Spolic;;Anthroposol arificiel;;;;;3.6;Dry combustion;;;;;;;0.08;Kjeldahl method;;;9;1:2.5 1 M KCl;;;;;;;;;;;Lazer diffraction method;93;;7;;0;;
430;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 AC2;Soil;4;6;Technosol;Spolic;;Anthroposol arificiel;;;;;0.8;Dry combustion;;;;;;;0.01;Kjeldahl method;;;52;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
431;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 C;Soil;6;25;Technosol;Spolic;;Anthroposol arificiel;;;;;1.2;Dry combustion;;;;;;;0.02;Kjeldahl method;;;10;1:2.5 1 M KCl;;;;;;;0.86;Cylinder method;;;Lazer diffraction method;96;;4;;0;;
432;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 2C;Soil;25;45;Technosol;Spolic;;Anthroposol arificiel;;;;;1;Dry combustion;;;;;;;0.01;Kjeldahl method;;;10;1:2.5 1 M KCl;;;;;;;0.83;Cylinder method;;;Lazer diffraction method;98;;2;;0;;
433;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 3C;Soil;45;65;Technosol;Spolic;;Anthroposol arificiel;;;;;2.3;Dry combustion;;;;;;;0.02;Kjeldahl method;;;98;1:2.5 1 M KCl;;;;;;;;;;;Lazer diffraction method;98;;2;;0;;
434;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 4C;Soil;65;68;Technosol;Spolic;;Anthroposol arificiel;;;;;1.2;Dry combustion;;;;;;;0.01;Kjeldahl method;;;98;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
435;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 5C;Soil;68;73;Technosol;Spolic;;Anthroposol arificiel;;;;;9.5;Dry combustion;;;;;;;0.07;Kjeldahl method;;;89;1:2.5 1 M KCl;;;;;;;0.53;Cylinder method;;;Lazer diffraction method;93;;7;;0;;
436;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 6C;Soil;73;80;Technosol;Spolic;;Anthroposol arificiel;;;;;19.5;Dry combustion;;;;;;;0.13;Kjeldahl method;;;85;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
437;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 7C;Soil;80;108;Technosol;Spolic;;Anthroposol arificiel;;;;;1.1;Dry combustion;;;;;;;0.02;Kjeldahl method;;;102;1:2.5 1 M KCl;;;;;;;0.86;Cylinder method;;;Lazer diffraction method;98;;2;;0;;
438;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 8C;Soil;108;110;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0.01;Kjeldahl method;;;104;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
439;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 9C;Soil;110;120;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0.05;Kjeldahl method;;;96;1:2.5 1 M KCl;;;;;;;0.78;Cylinder method;;;Lazer diffraction method;46;;5;;4;;
440;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 10C;Soil;120;128;Technosol;Spolic;;Anthroposol arificiel;;;;;2.9;Dry combustion;;;;;;;0.03;Kjeldahl method;;;98;1:2.5 1 M KCl;;;;;;;;;;;Lazer diffraction method;91;;9;;0;;
441;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 11C;Soil;128;153;Technosol;Spolic;;Anthroposol arificiel;;;;;0.4;Dry combustion;;;;;;;0.04;Kjeldahl method;;;97;1:2.5 1 M KCl;;;;;;;0.75;Cylinder method;;;Lazer diffraction method;29;;67;;4;;
442;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 12C;Soil;153;165;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0.09;Kjeldahl method;;;10;1:2.5 1 M KCl;;;;;;;0.77;Cylinder method;;;Lazer diffraction method;71;;27;;2;;
443;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);20;;;281;Industrial;;Soil affected by land use;;;L2 13C;Soil;165;170;Technosol;Spolic;;Anthroposol arificiel;;;;;1.6;Dry combustion;;;;;;;0.01;Kjeldahl method;;;10;1:2.5 1 M KCl;;;;;;;;;;;Lazer diffraction method;18;;76;;6;;
444;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;Spolic Technosol : L3 Oe/C;Soil;0;2;Technosol;Spolic;;Anthroposol arificiel;;;;;4.2;Dry combustion;;;;;;;0.52;Kjeldahl method;;;62;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
445;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 Oa/C;Soil;2;6;Technosol;Spolic;;Anthroposol arificiel;;;;;12.2;Dry combustion;;;;;;;0.46;Kjeldahl method;;;62;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
446;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 AC;Soil;6;15;Technosol;Spolic;;Anthroposol arificiel;;;;;5.4;Dry combustion;;;;;;;0.1;Kjeldahl method;;;67;1:2.5 1 M KCl;;;;;;;0.65;Cylinder method;;;Lazer diffraction method;73;;26;;1;;
447;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 C;Soil;15;37;Technosol;Spolic;;Anthroposol arificiel;;;;;5.2;Dry combustion;;;;;;;0.04;Kjeldahl method;;;81;1:2.5 1 M KCl;;;;;;;1.03;Cylinder method;;;Lazer diffraction method;66;;32;;2;;
448;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 2C;Soil;37;57;Technosol;Spolic;;Anthroposol arificiel;;;;;6.8;Dry combustion;;;;;;;0.05;Kjeldahl method;;;84;1:2.5 1 M KCl;;;;;;;0.84;Cylinder method;;;Lazer diffraction method;73;;25;;2;;
449;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 3C;Soil;57;67;Technosol;Spolic;;Anthroposol arificiel;;;;;5.1;Dry combustion;;;;;;;0.05;Kjeldahl method;;;85;1:2.5 1 M KCl;;;;;;;0.62;Cylinder method;;;Lazer diffraction method;91;;9;;0;;
450;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 4C;Soil;67;78;Technosol;Spolic;;Anthroposol arificiel;;;;;4.9;Dry combustion;;;;;;;0.03;Kjeldahl method;;;86;1:2.5 1 M KCl;;;;;;;0.83;Cylinder method;;;Lazer diffraction method;62;;36;;2;;
451;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 5C;Soil;78;90;Technosol;Spolic;;Anthroposol arificiel;;;;;4.7;Dry combustion;;;;;;;0.03;Kjeldahl method;;;86;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
452;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 6C;Soil;90;100;Technosol;Spolic;;Anthroposol arificiel;;;;;5.5;Dry combustion;;;;;;;0.03;Kjeldahl method;;;85;1:2.5 1 M KCl;;;;;;;0.73;Cylinder method;;;Lazer diffraction method;80;;19;;1;;
453;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 7C;Soil;100;107;Technosol;Spolic;;Anthroposol arificiel;;;;;5.7;Dry combustion;;;;;;;0.04;Kjeldahl method;;;85;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
454;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 8C;Soil;107;122;Technosol;Spolic;;Anthroposol arificiel;;;;;2.8;Dry combustion;;;;;;;0.01;Kjeldahl method;;;89;1:2.5 1 M KCl;;;;;;;0.87;Cylinder method;;;Lazer diffraction method;21;;73;;6;;
455;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);35;;;268;Industrial;;Soil affected by land use;;;L3 9C;Soil;122;130;Technosol;Spolic;;Anthroposol arificiel;;;;;4.9;Dry combustion;;;;;;;0.03;Kjeldahl method;;;94;1:2.5 1 M KCl;;;;;;;0.7;Cylinder method;;;Lazer diffraction method;96;;4;;0;;
456;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;Spolic Technosol : L4 Oe;Soil;0;3;Technosol;Spolic;;Anthroposol arificiel;;;;;19.9;Dry combustion;;;;;;;0.74;Kjeldahl method;;;69;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
457;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;L4 A1;Soil;3;10;Technosol;Spolic;;Anthroposol arificiel;;;;;9.9;Dry combustion;;;;;;;0.29;Kjeldahl method;;;71;1:2.5 1 M KCl;;;;;;;0.57;Cylinder method;;;Lazer diffraction method;62;;37;;1;;
458;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;L4 A2;Soil;10;18;Technosol;Spolic;;Anthroposol arificiel;;;;;4.4;Dry combustion;;;;;;;0.35;Kjeldahl method;;;83;1:2.5 1 M KCl;;;;;;;0.68;Cylinder method;;;Lazer diffraction method;56;;43;;1;;
459;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;L4 AC;Soil;18;30;Technosol;Spolic;;Anthroposol arificiel;;;;;3.5;Dry combustion;;;;;;;0.17;Kjeldahl method;;;86;1:2.5 1 M KCl;;;;;;;0.78;Cylinder method;;;Lazer diffraction method;49;;49;;2;;
460;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;L4 C;Soil;30;70;Technosol;Spolic;;Anthroposol arificiel;;;;;3.1;Dry combustion;;;;;;;0.06;Kjeldahl method;;;87;1:2.5 1 M KCl;;;;;;;0.8;Cylinder method;;;Lazer diffraction method;57;;42;;1;;
461;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;L4 2C;Soil;70;115;Technosol;Spolic;;Anthroposol arificiel;;;;;4.6;Dry combustion;;;;;;;0.15;Kjeldahl method;;;87;1:2.5 1 M KCl;;;;;;;0.68;Cylinder method;;;Lazer diffraction method;38;;6;;2;;
462;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);60;;;317;Industrial;;Soil affected by land use;;;L4 3C;Soil;115;135;Technosol;Spolic;;Anthroposol arificiel;;;;;2.4;Dry combustion;;;;;;;0.04;Kjeldahl method;;;93;1:2.5 1 M KCl;;;;;;;0.82;Cylinder method;;;Lazer diffraction method;59;;41;;0;;
463;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);;;;;Industrial;;Soil affected by land use;;;Fresh lignite fly ash;Inorganic soil constituant  (not intentionally incorporated);;;;;;;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;14;1:2.5 1 M KCl;;;;;;;1.43;Cylinder method;;;Lazer diffraction method;59;;38;;3;;
464;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);;;;;Industrial;;Soil affected by land use;;;Fresh lignite bottom ash;Inorganic soil constituant  (not intentionally incorporated);;;;;;;;;;;0.3;Dry combustion;;;;;;;0;Kjeldahl method;;;113;1:2.5 1 M KCl;;;;;;;1.34;Cylinder method;;;Lazer diffraction method;98;;2;;0;;
465;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;Spolic Technosol : K2 C;Soil;0;16;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;0.06;Kjeldahl method;;;103;1:2.5 1 M KCl;;;;;;;0.89;Cylinder method;;;;;;;;;;
466;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K2 2C;Soil;16;32;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0.02;Kjeldahl method;;;98;1:2.5 1 M KCl;;;;;;;0.83;Cylinder method;;;Lazer diffraction method;93;;7;;0;;
467;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K2 3C;Soil;32;50;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;107;1:2.5 1 M KCl;;;;;;;1.24;Cylinder method;;;Lazer diffraction method;99;;1;;0;;
468;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K2 4C;Soil;50;110;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;105;1:2.5 1 M KCl;;;;;;;0.59;Cylinder method;;;Lazer diffraction method;51;;47;;2;;
469;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K2 5C;Soil;110;115;Technosol;Spolic;;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;117;1:2.5 1 M KCl;;;;;;;1.09;Cylinder method;;;;;;;;;;
470;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;Endoleptic Spolic Technosol : K3 Oi/C;Soil;0;1;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;2.4;Dry combustion;;;;;;;0.13;Kjeldahl method;;;9;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
471;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K3 AC;Soil;1;3;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;1.7;Dry combustion;;;;;;;0.08;Kjeldahl method;;;92;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
472;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K3 C;Soil;3;7;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;0.7;Dry combustion;;;;;;;0.01;Kjeldahl method;;;96;1:2.5 1 M KCl;;;;;;;0.65;Cylinder method;;;;;;;;;;
473;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K3 2C;Soil;7;12;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;0.3;Dry combustion;;;;;;;0;Kjeldahl method;;;109;1:2.5 1 M KCl;;;;;;;1.27;Cylinder method;;;Lazer diffraction method;95;;5;;0;;
474;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K3 3C;Soil;12;25;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;117;1:2.5 1 M KCl;;;;;;;1.4;Cylinder method;;;Lazer diffraction method;95;;5;;0;;
475;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K3 4C;Soil;25;50;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;0;Dry combustion;;;;;;;0;Kjeldahl method;;;116;1:2.5 1 M KCl;;;;;;;1.36;Cylinder method;;;Lazer diffraction method;96;;4;;0;;
476;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K3 5C;Soil;50;55;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;4.3;Dry combustion;;;;;;;0.01;Kjeldahl method;;;116;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
477;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;Endoleptic Spolic Technosol : K5 Oe;Soil;0;2;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;13.7;Dry combustion;;;;;;;0.56;Kjeldahl method;;;89;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
478;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K5 A;Soil;2;7;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;4.4;Dry combustion;;;;;;;0.19;Kjeldahl method;;;89;1:2.5 1 M KCl;;;;;;;0.48;Cylinder method;;;Lazer diffraction method;62;;36;;2;;
479;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K5 AC1;Soil;7;25;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;2.9;Dry combustion;;;;;;;0.05;Kjeldahl method;;;91;1:2.5 1 M KCl;;;;;;;0.49;Cylinder method;;;Lazer diffraction method;51;;47;;2;;
480;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K5 AC2;Soil;25;60;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;5.3;Dry combustion;;;;;;;0.05;Kjeldahl method;;;93;1:2.5 1 M KCl;;;;;;;0.56;Cylinder method;;;Lazer diffraction method;49;;48;;3;;
481;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K5 2C;Soil;60;70;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;0.5;Dry combustion;;;;;;;0;Kjeldahl method;;;121;1:2.5 1 M KCl;;;;;;;0.56;Cylinder method;;;;;;;;;;
482;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K5 3C;Soil;70;76;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;1.6;Dry combustion;;;;;;;0;Kjeldahl method;;;12;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
483;10.1016/j.catena.2017.05.010;"(Uzarowicz et al.; 2017)";"Technogenic soils (Technosols) developed from fly ash and bottom ash from thermal power stations combusting bituminous coal and lignite. Part I. Properties; classification; and indicators of early pedogenesis";2 (profile);0 (no particular approach);Poland;D (continental);40;;;88;Industrial;;Soil affected by land use;;;K5 4C;Soil;76;80;Technosol;Spolic;Endoleptic;Anthroposol arificiel;;;;;0.4;Dry combustion;;;;;;;0;Kjeldahl method;;;12;1:2.5 1 M KCl;;;;;;;;;;;;;;;;;;
484;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;Mining;;Soil affected by land use;;;Pyritic tailings pond at the Mining Distric of Cartagena-La Uni¢n;Soil;;;;;;Anthroposol arificiel;;;;;0.084;Dry combustion;;;;;;;0.041;Dry combustion;;;282;1:2.5 water;;;;;;;;;;;;;;;;;;
485;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Marble waste;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;8;1:2.5 water;;;;;;;;;;;;;;;;;;
486;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Pig manure-derived biochar;Organic soil constituant (intentionally incorporated);;;;;;;;;;;40.5;Dry combustion;;;;;;;2.7;Dry combustion;;;1052;1:2.5 water;;;;;;;;;;;;;;;;;;
487;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Cotton crop residue-derived biochar;Organic soil constituant (intentionally incorporated);;;;;;;;;;;48;Dry combustion;;;;;;;2.3;Dry combustion;;;1077;1:2.5 water;;;;;;;;;;;;;;;;;;
488;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Municipal solid waste-derived biochar;Organic soil constituant (intentionally incorporated);;;;;;;;;;;28.8;Dry combustion;;;;;;;1.3;Dry combustion;;;978;1:2.5 water;;;;;;;;;;;;;;;;;;
489;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Soil affected by land use;;;CT : control (unamended mine residue);Soil;0;20;;;;Anthroposol arificiel;;;;;0.2*;Dry combustion;;;;;;;0.045*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
490;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;PM : pig manure derived biochar + CT;Soil;;;;;;Anthroposol construit;;;;;1.6*;Dry combustion;;;;;;;0.115*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
491;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;CR : crop residue-derived biochar + CT;Soil;;;;;;Anthroposol construit;;;;;1.9*;Dry combustion;;;;;;;0.095*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
492;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;MSW : municipal solid waste-derived biochar + CT;Soil;;;;;;Anthroposol construit;;;;;1.7*;Dry combustion;;;;;;;0.11*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
493;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;MaW : Marble waste + CT;Soil;;;;;;Anthroposol construit;;;;;0.1*;Dry combustion;;;;;;;0.04*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
494;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Constructed soil;;;PM + MaW + CT;Soil;;;;;;Anthroposol construit;;;;;1.6*;Dry combustion;;;;;;;0.1*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
495;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Constructed soil;;;CR + MaW + CT;Soil;;;;;;Anthroposol construit;;;;;1.8*;Dry combustion;;;;;;;0.092*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
496;10.1016/j.geoderma.2017.04.017;"(Moreno-Barriga et al.; 2017)";"Organic matter dynamics; soil aggregation and microbial biomass and activity in Technosols created with metalliferous mine residues; biochar and marble waste";0 (no particular approach);2 (dynamic);Spain;B (dry);25;;;;Mining;;Constructed soil;;;MSW + MaW + CT;Soil;;;;;;Anthroposol construit;;;;;1.7*;Dry combustion;;;;;;;0.095*;Dry combustion;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
497;10.1016/j.geoderma.2017.04.011;"(Dagois et al.; 2017)";From atmospheric- to pedo-climate modeling in Technosols: A global scale approach;3 (plot);2 (dynamic);France;C (temperate);40;;;;Industrial;;Soil affected by land use;;;Ck1: former coking plant site soil (Neuves Maison);Soil;;;;;;Anthroposol arificiel;;;;;;;;;112;;;;;;;;;;;;;;;;1.2;;;;Pipette method;73;;14;;13;;
498;10.1016/j.geoderma.2017.04.011;"(Dagois et al.; 2017)";From atmospheric- to pedo-climate modeling in Technosols: A global scale approach;3 (plot);2 (dynamic);France;C (temperate);40;;;;Industrial;;Soil affected by land use;;;Ck2: former coking plant site soil (Hom‚court);Soil;;;;;;Anthroposol arificiel;;;;;;;;;201;;;;;;;;;;;;;;;;1;;;;Pipette method;72;;15;;13;;
499;10.1016/j.scitotenv.2017.03.154;"(Zornoza et al.; 2017)";Bioaugmentaton in Technosols created in abandoned pyritic tailings can contribute to enhance soil C sequestration and plant colonization;2 (profile);0 (no particular approach);Spain;B (dry);;18;275;;Mining;;Soil affected by land use;;;Acidic tailings from tailings ponds;Soil;;;;;;Anthroposol arificiel;;;;;0.025;Dry combustion;16;;;;;;0.021;Dry combustion;7;;355;1:2.5 water;6;;;;;;;;;;Bouyoucos method;52;;5;;4;;
500;10.1016/j.scitotenv.2017.03.154;"(Zornoza et al.; 2017)";Bioaugmentaton in Technosols created in abandoned pyritic tailings can contribute to enhance soil C sequestration and plant colonization;2 (profile);0 (no particular approach);Spain;B (dry);;18;275;;Mining;;Soil affected by land use;;;Neutral tailings from tailings ponds;Soil;;;;;;Anthroposol arificiel;;;;;0.667;Dry combustion;157;;;;;;0.026;Dry combustion;5;;744;1:2.5 water;3;;;;;;;;;;Bouyoucos method;50;;4;;0;;
501;10.1016/j.scitotenv.2017.03.154;"(Zornoza et al.; 2017)";Bioaugmentaton in Technosols created in abandoned pyritic tailings can contribute to enhance soil C sequestration and plant colonization;2 (profile);0 (no particular approach);Spain;B (dry);;18;275;;Mining;;Soil with anthropogenic constituants incorporated;;;Marble waste;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;781;1:2.5 water;2;;;;;;;;;;;;;;;;;
502;10.1016/j.scitotenv.2017.03.154;"(Zornoza et al.; 2017)";Bioaugmentaton in Technosols created in abandoned pyritic tailings can contribute to enhance soil C sequestration and plant colonization;2 (profile);0 (no particular approach);Spain;B (dry);;18;275;;Mining;;Soil with anthropogenic constituants incorporated;;;Pig manure;Organic soil constituant (intentionally incorporated);;;;;;;;;;;30.5;Dry combustion;22;;;;;;1.7;Dry combustion;8;;848;1:2.5 water;23;;;;;;;;;;;;;;;;;
503;10.1016/j.scitotenv.2017.03.154;"(Zornoza et al.; 2017)";Bioaugmentaton in Technosols created in abandoned pyritic tailings can contribute to enhance soil C sequestration and plant colonization;2 (profile);0 (no particular approach);Spain;B (dry);;18;275;;Mining;;Soil with anthropogenic constituants incorporated;;;Sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;34;Dry combustion;27;;;;;;1.36;Dry combustion;4;;754;1:2.5 water;14;;;;;;;;;;;;;;;;;
504;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Other;Not specified;No major anthropization;;;Un?mined Cambisols;Soil;0;20;Cambisol;;;;;;;;1;Conversion from OM (x 0.58);9;;18;Loss on ignition;15;;0.1;Kjeldahl method;1;;54;1:2.5 water;5;;;;;;;;;;Bouyoucos method;612;;125;;263;;
505;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil affected by land use;;;Mined Technosols;Soil;0;20;Technosol;;;Anthroposol arificiel;;;;;1.3;Conversion from OM (x 0.58);1;;23;Loss on ignition;16;;0.2;Kjeldahl method;4;;56;1:2.5 water;8;;;;;;;;;;Bouyoucos method;605;;136;;259;;
506;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM_TR: farm yard manure under traditional storage;Organic soil constituant (intentionally incorporated);;;;;;;;;;;36.5;Conversion from OM (x 0.58);;;;;;;1.78;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
507;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM_TR: farm yard manure under traditional storage;Organic soil constituant (intentionally incorporated);;;;;;;;;;;15.7;Conversion from OM (x 0.58);;;;;;;0.32;Kjeldahl method;;;666;1:2.5 water;;;;;;;;;;;;;;;;;;
508;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM_IR: farm yard manure under improved composting;Organic soil constituant (intentionally incorporated);;;;;;;;;;;36.6;Conversion from OM (x 0.58);;;;;;;1.85;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
509;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM_IR: farm yard manure under improved composting;Organic soil constituant (intentionally incorporated);;;;;;;;;;;12.2;Conversion from OM (x 0.58);;;;;;;1.34;Kjeldahl method;;;86;1:2.5 water;;;;;;;;;;;;;;;;;;
510;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+MPR_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;35.4;Conversion from OM (x 0.58);;;;;;;2.09;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
511;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+MPR_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;11.7;Conversion from OM (x 0.58);;;;;;;1.52;Kjeldahl method;;;901;1:2.5 water;;;;;;;;;;;;;;;;;;
512;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;SW_TR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;41.1;Conversion from OM (x 0.58);;;;;;;1.64;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
513;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;SW_TR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;15.5;Conversion from OM (x 0.58);;;;;;;0.27;Kjeldahl method;;;618;1:2.5 water;;;;;;;;;;;;;;;;;;
514;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;SW_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;38.7;Conversion from OM (x 0.58);;;;;;;1.54;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
515;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;SW_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;12.3;Conversion from OM (x 0.58);;;;;;;1.02;Kjeldahl method;;;791;1:2.5 water;;;;;;;;;;;;;;;;;;
516;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;SW+MPR_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;37.8;Conversion from OM (x 0.58);;;;;;;1.99;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
517;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;SW+MPR_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;11.7;Conversion from OM (x 0.58);;;;;;;1.52;Kjeldahl method;;;825;1:2.5 water;;;;;;;;;;;;;;;;;;
518;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+SW_TR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;35;Conversion from OM (x 0.58);;;;;;;1.7;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
519;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+SW_TR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;13.7;Conversion from OM (x 0.58);;;;;;;0.27;Kjeldahl method;;;673;1:2.5 water;;;;;;;;;;;;;;;;;;
520;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+SW_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;56.8;Conversion from OM (x 0.58);;;;;;;1.88;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
521;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+SW_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;14.5;Conversion from OM (x 0.58);;;;;;;1.51;Kjeldahl method;;;755;1:2.5 water;;;;;;;;;;;;;;;;;;
522;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+SW+MPR_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;52.6;Conversion from OM (x 0.58);;;;;;;1.9;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
523;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;;;FYM+SW+MPR_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;12.8;Conversion from OM (x 0.58);;;;;;;1.49;Kjeldahl method;;;855;1:2.5 water;;;;;;;;;;;;;;;;;;
524;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);;;1600;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Tith+FYM+SW_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;34;Conversion from OM (x 0.58);;;;;;;2.08;Kjeldahl method;;;;;;;;;;;;;;;;;;;;;;
525;10.1002/jpln.201600485;"(Diogo et al.; 2017)";Effects of compost type and storage conditions on climbing bean on Technosols of Tantalum mining sites in Western Rwanda;2 (profile);0 (no particular approach);Rwanda;A (tropical);5;;1600;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;Tith+FYM+SW_IR;Organic soil constituant (intentionally incorporated);;;;;;;;;;;12.3;Conversion from OM (x 0.58);;;;;;;0.165;Kjeldahl method;;;842;1:2.5 water;;;;;;;;;;;;;;;;;;
526;10.2136/sssaj2016.04.0110;"(Yuan et al.; 2017)";Interaction of Humic Acid with Cu/Pb-Zn Tailings of Different Degrees of Weathering;1 (aggregate);1 (static);Australia;B (dry);40;;4658;;Mining;;Soil affected by land use;;;Highly weathered Cu/Pb-Zn mine tailings;Soil;0;100;;;;Anthroposol arificiel;;;;;0.14;Dry combustion;1;;;;;;0.009;Dry combustion;4;;69;1:5 water;;;69;AgTU extraction method;1;;;;;;;;;;;;;
527;10.2136/sssaj2016.04.0110;"(Yuan et al.; 2017)";Interaction of Humic Acid with Cu/Pb-Zn Tailings of Different Degrees of Weathering;1 (aggregate);1 (static);Australia;B (dry);15;;4658;;Mining;;Soil affected by land use;;;Freshly deposited Cu/Pb-Zn mine tailings;Soil;0;100;;;;Anthroposol arificiel;;;;;0.219;Dry combustion;1;;;;;;0.015;Dry combustion;13;;617;1:5 water;;;136;AgTU extraction method;2;;;;;;;;;;;;;
528;10.2136/sssaj2016.04.0110;"(Yuan et al.; 2017)";Interaction of Humic Acid with Cu/Pb-Zn Tailings of Different Degrees of Weathering;1 (aggregate);1 (static);Australia;B (dry);;;4658;;Mining;;Soil affected by land use;;;Humic acid;Other;;;;;;;;;;;36.17;Dry combustion;47;;;;;;0.86;Dry combustion;4;;913;1:5 water;;;392;AgTU extraction method;89;;;;;;;;;;;;;
529;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil affected by land use;;;Depleted copper mine soil;Soil;;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;296;1:2.5 water;7;;;;;;;;;;;;;;;;;
530;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Holm oak wood biochar;Organic soil constituant (intentionally incorporated);;;;;;;66.7;Dry combustion;5722;;57.7;Total carbon - inorganic carbon;;;;;;;0.58;Dry combustion;87;;993;1:2.5 water;22;;;;;;;;;;;;;;;;;
531;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Technosol made of waste;Organic soil constituant (intentionally incorporated);;;Technosol;;;;21.8;Dry combustion;1585;;19.3;Total carbon - inorganic carbon;;;;;;;2.29;Dry combustion;316;;555;1:2.5 water;7;;;;;;;;;;;;;;;;;
532;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;;;A0;Soil;;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;283;1:2.5 water;8;;;;;;;;;;;;;;;;;
533;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;Crops;;A0P;Soil;;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;27;1:2.5 water;17;;;;;;;;;;;;;;;;;
534;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;A20;Soil;;;;;;Anthroposol construit;2.623;Dry combustion;99;;2.183;Difference TC - IC;;;;;;;0.26;Dry combustion;5;;456;1:2.5 water;11;;;;;;;;;;;;;;;;;
535;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;A40;Soil;;;;;;Anthroposol construit;5.653;Dry combustion;248;;4.68;Difference TC - IC;;;;;;;0.55;Dry combustion;176;;516;1:2.5 water;13;;;;;;;;;;;;;;;;;
536;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;A80;Soil;;;;;;Anthroposol construit;13.1;Dry combustion;485;;10.5;Difference TC - IC;;;;;;;1.14;Dry combustion;369;;597;1:2.5 water;28;;;;;;;;;;;;;;;;;
537;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;A100;Soil;;;;;;Anthroposol construit;23.8;Dry combustion;254;;19;Difference TC - IC;;;;;;;0.223;Dry combustion;281;;602;1:2.5 water;1;;;;;;;;;;;;;;;;;
538;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;A20P;Soil;;;;;;Anthroposol construit;2.1;Dry combustion;245;;1.72;Difference TC - IC;;;;;;;0.197;Dry combustion;35;;458;1:2.5 water;5;;;;;;;;;;;;;;;;;
539;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;A40P;Soil;;;;;;Anthroposol construit;5.91;Dry combustion;334;;4.937;Difference TC - IC;;;;;;;0.503;Dry combustion;7;;556;1:2.5 water;26;;;;;;;;;;;;;;;;;
540;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;A80P;Soil;;;;;;Anthroposol construit;11;Dry combustion;212;;9.013;Difference TC - IC;;;;;;;0.95;Dry combustion;123;;618;1:2.5 water;24;;;;;;;;;;;;;;;;;
541;10.1007/s11368-016-1643-7;"(Rodr¡guez-Vila et al.; 2017)";Nutrient phytoavailability in a mine soil amended with technosol and biochar and vegetated with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;A100P;Soil;;;;;;Anthroposol construit;23.6;Dry combustion;124;;19.5;Difference TC - IC;;;;;;;2.05;Dry combustion;88;;607;1:2.5 water;1;;;;;;;;;;;;;;;;;
542;10.1007/s11270-017-3348-y;"(Menares et al.; 2017)";Phytostabilization Ability of Baccharis linearis and Its Relation to Properties of a Tailings-Derived Technosol;3 (plot);1 (static);Chile;B (dry);45;;107;205;Mining;;Soil affected by land use;Shrublands;;Mine tailings (Cu, Au, Mn, Hg), low vegetation density area, surface layer (sandy substrate applied on the dam surface);Soil;0;13;Technosol;;;Anthroposol arificiel;;;;;;;;;15;Chromic acid titration (Walkley-Black);11;;;;;;761;1:2.5 water;1;;41;;103;;1.51;Cylinder method;22;;Bouyoucos method;6188;2.738;3316;2.489;496;0.415;
543;10.1007/s11270-017-3348-y;"(Menares et al.; 2017)";Phytostabilization Ability of Baccharis linearis and Its Relation to Properties of a Tailings-Derived Technosol;3 (plot);1 (static);Chile;B (dry);45;;107;205;Mining;;Soil affected by land use;Shrublands;;Mine tailings (Cu, Au, Mn, Hg), medium vegetation density area, surface layer (sandy substrate applied on the dam surface);Soil;0;13;Technosol;;;Anthroposol arificiel;;;;;;;;;31;Chromic acid titration (Walkley-Black);1;;;;;;74;1:2.5 water;42;;642;;228;;1.54;Cylinder method;27;;Bouyoucos method;688;2.165;2852;2.106;268;0.073;
544;10.1007/s11270-017-3348-y;"(Menares et al.; 2017)";Phytostabilization Ability of Baccharis linearis and Its Relation to Properties of a Tailings-Derived Technosol;3 (plot);1 (static);Chile;B (dry);45;;107;205;Mining;;Soil affected by land use;Shrublands;;Mine tailings (Cu, Au, Mn, Hg), high vegetation density area, surface layer (sandy substrate applied on the dam surface);Soil;0;13;Technosol;;;Anthroposol arificiel;;;;;;;;;45;Chromic acid titration (Walkley-Black);11;;;;;;763;1:2.5 water;33;;417;;15;;1.44;Cylinder method;19;;Bouyoucos method;434;3.553;4877;3.419;783;0.553;
545;10.1007/s11270-017-3348-y;"(Menares et al.; 2017)";Phytostabilization Ability of Baccharis linearis and Its Relation to Properties of a Tailings-Derived Technosol;3 (plot);1 (static);Chile;B (dry);45;;107;205;Mining;;Soil affected by land use;Shrublands;;Mine tailings (Cu, Au, Mn, Hg), low vegetation density area, subsurface layer (last flotation tailings deposit);Soil;0;13;Technosol;;;Anthroposol arificiel;;;;;;;;;13;Chromic acid titration (Walkley-Black);12;;;;;;704;1:2.5 water;134;;44;;161;;1.44;Cylinder method;2;;Bouyoucos method;5822;1.879;3765;1.842;42;0.126;
546;10.1007/s11270-017-3348-y;"(Menares et al.; 2017)";Phytostabilization Ability of Baccharis linearis and Its Relation to Properties of a Tailings-Derived Technosol;3 (plot);1 (static);Chile;B (dry);45;;107;205;Mining;;Soil affected by land use;Shrublands;;Mine tailings (Cu, Au, Mn, Hg), medium vegetation density area, subsurface layer (last flotation tailings deposit);Soil;0;13;Technosol;;;Anthroposol arificiel;;;;;;;;;32;Chromic acid titration (Walkley-Black);24;;;;;;728;1:2.5 water;74;;693;;1;;1.33;Cylinder method;13;;Bouyoucos method;2044;1.824;5074;1.044;2886;2.092;
547;10.1007/s11270-017-3348-y;"(Menares et al.; 2017)";Phytostabilization Ability of Baccharis linearis and Its Relation to Properties of a Tailings-Derived Technosol;3 (plot);1 (static);Chile;B (dry);45;;107;205;Mining;;Soil affected by land use;Shrublands;;Mine tailings (Cu, Au, Mn, Hg), high vegetation density area, subsurface layer (last flotation tailings deposit);Soil;0;13;Technosol;;;Anthroposol arificiel;;;;;;;;;6;Chromic acid titration (Walkley-Black);59;;;;;;76;1:2.5 water;1;;523;;205;;1.18;Cylinder method;1;;Bouyoucos method;99;0.878;4457;0.731;4563;1.6;
548;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;149;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Moeche : Quarry tailings. PA1;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;0.773;Dry combustion;4;;381;Chromic acid titration (Walkley-Black);22;;;Kjeldahl method;;;798;1:2 water;6;;522;;16;;1.84;;1;;Pipette method;8939;0.075;656;0.054;405;0.028;
549;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;149;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Moeche : Quarry tailings. PA2;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;1.151;Dry combustion;23;;577;Chromic acid titration (Walkley-Black);7;;0.042;Kjeldahl method;0;;781;1:2 water;6;;1959;;88;;1.35;;1;;Pipette method;5983;0.095;2606;0.076;1444;0.024;
550;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;140;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Moeche : Quarry tailings. PA3;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;0.339;Dry combustion;32;;27;Chromic acid titration (Walkley-Black);5;;;Kjeldahl method;;;805;1:2 water;3;;614;;41;;1.87;;8;;Pipette method;747;0.08;1335;0.028;1195;0.073;
551;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;148;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Moeche : Quarry tailings. PA4;Soil;0;20;Leptosol;;;Anthroposol arificiel;;;;;0.321;Dry combustion;78;;243;Chromic acid titration (Walkley-Black);18;;;Kjeldahl method;;;787;1:2 water;8;;566;;25;;1.86;;11;;Pipette method;8216;0.071;1076;0.05;705;0.024;
552;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;132;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Moeche : Quarry tailings. PAC;Soil;0;20;Leptosol;;;Anthroposol arificiel;;;;;2.684;Dry combustion;13;;892;Chromic acid titration (Walkley-Black);663;;0.275;Kjeldahl method;5;;599;1:2 water;16;;1676;;46;;1.62;;1;;Pipette method;2673;0.056;4656;0.105;2671;0.051;
553;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;307;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Campomarzo : Quarry tailings. CP1;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;0.562;Dry combustion;19;;977;Chromic acid titration (Walkley-Black);2;;0.052;Kjeldahl method;2;;585;1:2 water;2;;155;;11;;1.66;;1;;Pipette method;4297;0.235;3369;0.174;2591;0.038;
554;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;324;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Campomarzo : Quarry tailings. CP2;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;1.062;Dry combustion;12;;862;Chromic acid titration (Walkley-Black);11;;0.089;Kjeldahl method;0;;637;1:2 water;1;;1493;;159;;1.73;;8;;Pipette method;5917;0.062;1824;0.001;2174;0.13;
555;10.1007/s11368-015-1284-2;"(Rodr¡guez-Seijo and Andrade; 2017)";Characterization of soil physico-chemical parameters and limitations for revegetation in serpentine quarry soils (NW Spain);3 (plot);1 (static);Spain;C (temperate);16;;;314;Mining;;Soil affected by land use;Other;Spontaneous vegetation;Serpentinite quarry site in Campomarzo : Quarry tailings. CPC;Soil;0;20;Leptosol;;;Anthroposol arificiel;;;;;2.946;Dry combustion;24;;115;Chromic acid titration (Walkley-Black);45;;0.366;Kjeldahl method;34;;528;1:2 water;5;;444;;29;;0.96;;3;;Pipette method;6538;0.101;1728;0.016;1738;0.019;
556;10.1134/S106422931704007X;"(Pikovskiy et al.; 2017)";Hydrocarbon status of soils in the asphalt deposit area (Samara Bend);3 (plot);1 (static);Russia;D (continental);;;;325;Other;;Soil affected by land use;;;Bakhilovo asphalt deposit;Soil;;;Technosol;;;;;;;;3;;25;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
557;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);15;9.3;615;670;Mining;;Soil affected by land use;Forests;;PR32S;Soil;2;2;;;;Anthroposol arificiel;;;;;5*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
558;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);15;9.3;615;670;Mining;;Soil affected by land use;Forests;;PR32S;Soil;5;5;;;;Anthroposol arificiel;;;;;0.2*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
559;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);15;9.3;615;670;Mining;;Soil affected by land use;Forests;;PR32S;Soil;10;10;;;;Anthroposol arificiel;;;;;0.2*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
560;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);15;9.3;615;670;Mining;;Soil affected by land use;Forests;;PR32S;Soil;15;15;;;;Anthroposol arificiel;;;;;0.2*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
561;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);15;9.3;615;670;Mining;;Soil affected by land use;Forests;;PR32S;Soil;20;20;;;;Anthroposol arificiel;;;;;0.2*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
562;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);25;9.3;615;670;Mining;;Soil affected by land use;Forests;;Z38as;Soil;2;2;;;;Anthroposol arificiel;;;;;21*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
563;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);25;9.3;615;670;Mining;;Soil affected by land use;Forests;;Z38as;Soil;5;5;;;;Anthroposol arificiel;;;;;6*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
564;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);25;9.3;615;670;Mining;;Soil affected by land use;Forests;;Z38as;Soil;10;10;;;;Anthroposol arificiel;;;;;8*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
565;10.1007/s10661-017-5834-5;"(Jordanova et al.; 2017)";Application of magnetic methods for assessment of soil restoration in the vicinity of metallurgical copper-processing plant in Bulgaria;2 (profile);2 (dynamic);Bulgaria;D (continental);25;9.3;615;670;Mining;;Soil affected by land use;Forests;;Z38as;Soil;15;15;;;;Anthroposol arificiel;;;;;4*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
566;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;A1;Soil;0;10;Technosol;;;Anthroposol arificiel;;;;;25;Dry combustion after carbonates removal;;;;;;;;;;;75;1:5 water;;;228;Cobaltihexamine chlorid method;;;;;;;Pipette method;42;;5;;8;;
567;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;A2;Soil;0;10;Technosol;;;Anthroposol arificiel;;;;;26.3;Dry combustion after carbonates removal;;;;;;;;;;;76;1:5 water;;;213;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
568;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;A3;Soil;0;10;Technosol;;;Anthroposol arificiel;;;;;24.9;Dry combustion after carbonates removal;;;;;;;;;;;77;1:5 water;;;201;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
569;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;C1;Soil;30;40;Technosol;;;Anthroposol arificiel;;;;;35.3;Dry combustion after carbonates removal;;;;;;;;;;;78;1:5 water;;;156;Cobaltihexamine chlorid method;;;;;;;Pipette method;61;;31;;8;;
570;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;C2;Soil;30;40;Technosol;;;Anthroposol arificiel;;;;;38;Dry combustion after carbonates removal;;;;;;;;;;;82;1:5 water;;;148;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
571;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;C3;Soil;30;40;Technosol;;;Anthroposol arificiel;;;;;28.8;Dry combustion after carbonates removal;;;;;;;;;;;82;1:5 water;;;143;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
572;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;E1;Soil;110;130;Technosol;;;Anthroposol arificiel;;;;;38.9;Dry combustion after carbonates removal;;;;;;;;;;;83;1:5 water;;;101;Cobaltihexamine chlorid method;;;;;;;Pipette method;53;;39;;8;;
573;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;E2;Soil;110;130;Technosol;;;Anthroposol arificiel;;;;;27.4;Dry combustion after carbonates removal;;;;;;;;;;;83;1:5 water;;;107;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
574;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;E3;Soil;110;130;Technosol;;;Anthroposol arificiel;;;;;25.3;Dry combustion after carbonates removal;;;;;;;;;;;84;1:5 water;;;109;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
575;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;F1;Soil;175;185;Technosol;;;Anthroposol arificiel;;;;;31.8;Dry combustion after carbonates removal;;;;;;;;;;;84;1:5 water;;;98;Cobaltihexamine chlorid method;;;;;;;Pipette method;65;;3;;5;;
576;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;F2;Soil;175;185;Technosol;;;Anthroposol arificiel;;;;;48.7;Dry combustion after carbonates removal;;;;;;;;;;;85;1:5 water;;;81;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
577;10.1016/j.geoderma.2016.12.009;"(Coussy et al.; 2017)";Evolution of iron minerals in a 100 years-old Technosol. Consequences on Zn mobility;2 (profile);2 (dynamic);France;C (temperate);100;;;;Industrial;Rail yard;Soil affected by land use;;;F3;Soil;175;185;Technosol;;;Anthroposol arificiel;;;;;46.8;Dry combustion after carbonates removal;;;;;;;;;;;85;1:5 water;;;92;Cobaltihexamine chlorid method;;;;;;;Pipette method;;;;;;;
578;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Abbaretz, old tin mine;Soil;0;3;;;;Anthroposol arificiel;;;;;29.28;Dry combustion;;;;;;;1.5;Dry combustion;;;49;1:5 water;;;;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
579;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Abbaretz, old tin mine;Soil;3;6;;;;Anthroposol arificiel;;;;;16.4;Dry combustion;;;;;;;0.87;Dry combustion;;;49;1:5 water;;;16;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
580;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Abbaretz, old tin mine;Soil;6;13;;;;Anthroposol arificiel;;;;;0.67;Dry combustion;;;;;;;0.08;Dry combustion;;;41;1:5 water;;;18;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
581;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Abbaretz, old tin mine;Soil;13;21;;;;Anthroposol arificiel;;;;;0.05;Dry combustion;;;;;;;0.01;Dry combustion;;;45;1:5 water;;;1;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
582;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Mioche, old lead and zinc mine;Soil;0;2;;;;Anthroposol arificiel;;;;;6.58;Dry combustion;;;;;;;0.46;Dry combustion;;;44;1:5 water;;;98;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
583;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Mioche, old lead and zinc mine;Soil;2;5;;;;Anthroposol arificiel;;;;;0.23;Dry combustion;;;;;;;0.02;Dry combustion;;;41;1:5 water;;;46;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
584;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;Mioche, old lead and zinc mine;Soil;5;30;;;;Anthroposol arificiel;;;;;0.12;Dry combustion;;;;;;;0.01;Dry combustion;;;42;1:5 water;;;2;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
585;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;La Petite Faye, former gold mine;Soil;0;2;;;;Anthroposol arificiel;;;;;18.1;Dry combustion;;;;;;;1.87;Dry combustion;;;44;1:5 water;;;;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
586;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;La Petite Faye, former gold mine;Soil;2;5;;;;Anthroposol arificiel;;;;;9.66;Dry combustion;;;;;;;1.37;Dry combustion;;;38;1:5 water;;;88;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
587;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;La Petite Faye, former gold mine;Soil;5;11;;;;Anthroposol arificiel;;;;;0.82;Dry combustion;;;;;;;0.14;Dry combustion;;;43;1:5 water;;;21;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
588;10.1007/s11368-016-1523-1;"(Pascaud et al.; 2017)";Molecular fingerprint of soil organic matter as an indicator of pedogenesis processes in Technosols;3 (plot);2 (dynamic);France;C (temperate);;12.5;;;Mining;;Soil affected by land use;Other;Miscellaneous;La Petite Faye, former gold mine;Soil;11;15;;;;Anthroposol arificiel;;;;;0.49;Dry combustion;;;;;;;0.14;Dry combustion;;;34;1:5 water;;;27;Cobaltihexamine chlorid method;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;;;;;;;
589;10.1007/s11368-016-1546-7;"(Prokof?eva et al.; 2017)";The importance of dust material in urban soil formation: the experience on study of two young Technosols on dust depositions;1 (aggregate);1 (static);Russia;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;1/Aku;Soil;;;Technosol;Urbic;Leptic;Anthroposol arificiel;;;;;8.8;Chromic acid titration (Walkley-Black);;;;;;;;;;;78;;;;;;;;;;;;;;;;;;;
590;10.1007/s11368-016-1546-7;"(Prokof?eva et al.; 2017)";The importance of dust material in urban soil formation: the experience on study of two young Technosols on dust depositions;1 (aggregate);1 (static);Russia;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;1/AC1ku;Soil;;;Technosol;Urbic;Leptic;Anthroposol arificiel;;;;;4.8;Chromic acid titration (Walkley-Black);;;;;;;;;;;82;;;;;;;;;;;;;;;;;;;
591;10.1007/s11368-016-1546-7;"(Prokof?eva et al.; 2017)";The importance of dust material in urban soil formation: the experience on study of two young Technosols on dust depositions;1 (aggregate);1 (static);Russia;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;1/AC2ku;Soil;;;Technosol;Urbic;Leptic;Anthroposol arificiel;;;;;3.8;Chromic acid titration (Walkley-Black);;;;;;;;;;;85;;;;;;;;;;;;;;;;;;;
592;10.1007/s11368-016-1546-7;"(Prokof?eva et al.; 2017)";The importance of dust material in urban soil formation: the experience on study of two young Technosols on dust depositions;1 (aggregate);1 (static);Russia;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;2/Aku;Soil;;;Technosol;Urbic;Leptic;Anthroposol arificiel;;;;;1.8;Chromic acid titration (Walkley-Black);;;;;;;;;;;75;;;;;;;;;;;;;;;;;;;
593;10.1007/s11368-016-1546-7;"(Prokof?eva et al.; 2017)";The importance of dust material in urban soil formation: the experience on study of two young Technosols on dust depositions;1 (aggregate);1 (static);Russia;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;2/C2ku;Soil;;;Technosol;Urbic;Leptic;Anthroposol arificiel;;;;;1.3;Chromic acid titration (Walkley-Black);;;;;;;;;;;8;;;;;;;;;;;;;;;;;;;
594;978-3-319-54330-7 (ISBN);"(Howard; 2017)";Anthropogenic soils;0 (no particular approach);0 (no particular approach);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
595;10.1002/ldr.2515;"(Neina et al.; 2017)";"Effects of Land Use on Microbial Indices in Tantalite Mine Soils; Western Rwanda: Microbial Indices of Tantalite Mine Soils";3 (plot);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;Soil affected by land use;Forests;;Native forest: natural forest reserve;Soil;0;20;;;;;;Dry combustion;;;6.22;Dry combustion;;;;;;;0.5;Dry combustion;;;37;1:2.5 water;;;;;;;0.9;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;29;;25;;46;;
596;10.1002/ldr.2515;"(Neina et al.; 2017)";"Effects of Land Use on Microbial Indices in Tantalite Mine Soils; Western Rwanda: Microbial Indices of Tantalite Mine Soils";3 (plot);2 (dynamic);Rwanda;A (tropical);35;19.5;;;Mining;;Soil affected by land use;Forests;;Pine Technosol: afforested tantalite mine xasteland established in 1982;Soil;0;20;Technosol;;;Anthroposol arificiel;;Dry combustion;;;2.47;Dry combustion;;;;;;;0.14;Dry combustion;;;44;1:2.5 water;;;;;;;1.1;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;63;;9;;28;;
597;10.1002/ldr.2515;"(Neina et al.; 2017)";"Effects of Land Use on Microbial Indices in Tantalite Mine Soils; Western Rwanda: Microbial Indices of Tantalite Mine Soils";3 (plot);2 (dynamic);Rwanda;A (tropical);30;19.5;;;Mining;;Soil affected by land use;Forests;;Eucalyptus Technosol: afforrested tantalite mine wasteland;Soil;0;20;Technosol;;;Anthroposol arificiel;;Dry combustion;;;2.14;Dry combustion;;;;;;;0.15;Dry combustion;;;45;1:2.5 water;;;;;;;1;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;36;;22;;42;;
598;10.1002/ldr.2515;"(Neina et al.; 2017)";"Effects of Land Use on Microbial Indices in Tantalite Mine Soils; Western Rwanda: Microbial Indices of Tantalite Mine Soils";3 (plot);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;Soil affected by land use;Crops;;Arable land: farm in kavumu village;Soil;0;20;;;;;;Dry combustion;;;1.09;Dry combustion;;;;;;;0.1;Dry combustion;;;49;1:2.5 water;;;;;;;1.3;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;39;;11;;5;;
599;10.1002/ldr.2515;"(Neina et al.; 2017)";"Effects of Land Use on Microbial Indices in Tantalite Mine Soils; Western Rwanda: Microbial Indices of Tantalite Mine Soils";3 (plot);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;Soil affected by land use;Crops;;Kavumu Technosol: tantalite mine site in coltan quarry;Soil;0;20;Technosol;;;Anthroposol arificiel;;Dry combustion;;;1.02;Dry combustion;;;;;;;0.09;Dry combustion;;;56;1:2.5 water;;;;;;;1.2;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;51;;16;;33;;
600;10.1002/ldr.2515;"(Neina et al.; 2017)";"Effects of Land Use on Microbial Indices in Tantalite Mine Soils; Western Rwanda: Microbial Indices of Tantalite Mine Soils";3 (plot);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;Soil affected by land use;Crops;;Kirengo Technosol: a tantalite mine site cultivated for several years;Soil;0;20;Technosol;;;Anthroposol arificiel;;Dry combustion;;;0.87;Dry combustion;;;;;;;0.06;Dry combustion;;;52;1:2.5 water;;;;;;;1.3;Cylinder method;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;67;;9;;24;;
601;10.1016/j.catena.2016.02.027;"(Jord n et al.; 2017)";Technosols designed for rehabilitation of mining activities using mine spoils and biosolids. Ion mobility and correlations using percolation columns;3 (plot);1 (static);;;;;;;Mining;;Soil affected by land use;;;Z: Limestone spoils;Soil;;;;;;;;;;;;;;;53;Chromic acid titration (Walkley-Black);;;;;;;825;1:2.5 water;;;;;;;;;;;Pipette method;69;;16;;15;;
602;10.1016/j.catena.2016.02.027;"(Jord n et al.; 2017)";Technosols designed for rehabilitation of mining activities using mine spoils and biosolids. Ion mobility and correlations using percolation columns;3 (plot);1 (static);;;;;;;Mining;;Soil affected by land use;;;D: Stripped soil;Soil;;;;;;;;;;;;;;;27;Chromic acid titration (Walkley-Black);;;;;;;892;1:2.5 water;;;;;;;;;;;Pipette method;53;;26;;21;;
603;10.1016/j.catena.2016.02.027;"(Jord n et al.; 2017)";Technosols designed for rehabilitation of mining activities using mine spoils and biosolids. Ion mobility and correlations using percolation columns;3 (plot);1 (static);;;;;;;Mining;;Soil affected by land use;;;Sewage sludge from the Aspe wastewater treatment plant;Organic soil constituant (intentionally incorporated);;;;;;;;;;;43.04;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
604;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;No major anthropization;Forests;;Native forest;Soil;;;;;;Not an anthroposol;;;;;;;;;;;;;;;;;37;1:10 water;;;;;;;0.9;;;;Pipette method;;;;;46;;
605;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;Soil affected by land use;Forests;;Pine Technosol;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;44;1:10 water;;;;;;;1.1;;;;Pipette method;;;;;28;;
606;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Mining;;Soil affected by land use;Forests;;Eucalypt. Technosol;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;45;1:10 water;;;;;;;1;;;;Pipette method;;;;;42;;
607;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Agricultural;;Soil affected by land use;Crops;;Arable land;Soil;;;;;;Anthroposol transform‚;;;;;;;;;;;;;;;;;49;1:10 water;;;;;;;1.3;;;;Pipette method;;;;;5;;
608;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Agricultural;;Soil affected by land use;Crops;;Kavumu Technosol;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;56;1:10 water;;;;;;;1.2;;;;Pipette method;;;;;33;;
609;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Agricultural;;Soil affected by land use;Crops;;Kirengo Technosol;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;52;1:10 water;;;;;;;1.3;;;;Pipette method;;;;;24;;
610;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Agricultural;;Soil affected by land use;Crops;;Canavalia;Organic soil constituant (intentionally incorporated);0;20;;;;;43.8;Dry combustion;;;;;;;;;;;2.9;Dry combustion;;;62;1:10 water;;;;;;;;;;;Pipette method;;;;;38;;
611;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Agricultural;;Soil affected by land use;Crops;;Tithonia;Organic soil constituant (intentionally incorporated);0;20;;;;;45.2;Dry combustion ;;;;;;;;;;;2.4;Dry combustion;;;64;1:10 water;;;;;;;;;;;;;;;;;;
612;10.1016/j.apsoil.2016.08.017;"(Neina et al.; 2016)";Potential mineralizable N and P mineralization of local organic materials in tantalite mine soils;2 (profile);2 (dynamic);Rwanda;A (tropical);;19.5;;;Agricultural;;Soil affected by land use;Crops;;Goat manure;Organic soil constituant (intentionally incorporated);0;20;;;;;44.8;Dry combustion;;;;;;;;;;;1.7;Dry combustion;;;78;1:10 water;;;;;;;;;;;;;;;;;;
613;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);25;;;;Urban;;Soil affected by land use;Bare;;P1 ;Soil;6;6;Technosol;Ekranic;;;;Dry combustion;;;1*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
614;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;P2;Soil;6;6;Technosol;Ekranic;;;;Dry combustion;;;0*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
615;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);16;;;;Urban;;Soil affected by land use;Bare;;P3;Soil;6;6;Technosol;Ekranic;;;;Dry combustion;;;0*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
616;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;C1;Soil;6;6;Technosol;Ekranic;;;;Dry combustion;;;0,2*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
617;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);11;;;;Urban;;Soil affected by land use;Bare;;C2;Soil;6;6;Technosol;Ekranic;;;;Dry combustion;;;0,3*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
618;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);81;;;;Urban;;Soil affected by land use;Bare;;C3;Soil;6;6;Technosol;Ekranic;;;;Dry combustion;;;4,1*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
619;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);25;;;;Urban;;Soil affected by land use;Bare;;P1;Soil;4;4;Technosol;Ekranic;;;;Dry combustion;;;2,1*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
620;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;P2;Soil;4;4;Technosol;Ekranic;;;;Dry combustion;;;2,1*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
621;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);16;;;;Urban;;Soil affected by land use;Bare;;P3;Soil;4;4;Technosol;Ekranic;;;;Dry combustion;;;1,9*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
622;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;C1;Soil;4;4;Technosol;Ekranic;;;;Dry combustion;;;0,1*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
623;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);11;;;;Urban;;Soil affected by land use;Bare;;C2;Soil;4;4;Technosol;Ekranic;;;;Dry combustion;;;0,9*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
624;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);81;;;;Urban;;Soil affected by land use;Bare;;C3;Soil;4;4;Technosol;Ekranic;;;;Dry combustion;;;6*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
625;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);25;;;;Urban;;Soil affected by land use;Bare;;P1;Soil;2;2;Technosol;Ekranic;;;;Dry combustion;;;3,2*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
626;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;P2;Soil;2;2;Technosol;Ekranic;;;;Dry combustion;;;2*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
627;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);16;;;;Urban;;Soil affected by land use;Bare;;P3;Soil;2;2;Technosol;Ekranic;;;;Dry combustion;;;3*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
628;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;C1;Soil;2;2;Technosol;Ekranic;;;;Dry combustion;;;0,5*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
629;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);11;;;;Urban;;Soil affected by land use;Bare;;C2;Soil;2;2;Technosol;Ekranic;;;;Dry combustion;;;1,2*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
630;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);81;;;;Urban;;Soil affected by land use;Bare;;C3 ;Soil;2;2;Technosol;Ekranic;;;;Dry combustion;;;8*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
631;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);25;;;;Urban;;Soil affected by land use;Bare;;P1;Soil;0;0;Technosol;Ekranic;;;;Dry combustion;;;3,1*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
632;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;P2;Soil;0;0;Technosol;Ekranic;;;;Dry combustion;;;7,8*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
633;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);16;;;;Urban;;Soil affected by land use;Bare;;P3 ;Soil;0;0;Technosol;Ekranic;;;;Dry combustion;;;3,2*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
634;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);;;;;Urban;;Soil affected by land use;Bare;;C1 ;Soil;0;0;Technosol;Ekranic;;;;Dry combustion;;;6,8*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
635;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);11;;;;Urban;;Soil affected by land use;Bare;;C2 ;Soil;0;0;Technosol;Ekranic;;;;Dry combustion;;;10,5*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
636;10.1007/s11368-016-1526-y;"(Burghardt and von Bertrab; 2016)";"Dialeimmasol; urban soil of pavements";2 (profile);1 (static);Germany;C (temperate);81;;;;Urban;;Soil affected by land use;Bare;;C3;Soil;0;0;Technosol;Ekranic;;;;Dry combustion;;;6,8*;Total carbon - inorganic carbon;;;;;;;;;;;;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
637;10.1016/j.scitotenv.2016.05.140;"(Mattei et al.; 2016)";Reclamation of river dredged sediments polluted by PAHs by co-composting with green waste;0 (no particular approach);2 (dynamic);Italy;C (temperate);;;;;;;Constructed soil;;;Sediments (S);Inorganic soil constituant (intentionally incorporated);;;;;;;2*;Dry combustion;;;;;;;;;;;0,19*;Dry combustion;;;69;;;;;;;;1.04;Cylinder method;;;;;;;;;;
638;10.1016/j.scitotenv.2016.05.140;"(Mattei et al.; 2016)";Reclamation of river dredged sediments polluted by PAHs by co-composting with green waste;0 (no particular approach);2 (dynamic);Italy;C (temperate);;;;;;;Constructed soil;;;Green Waste (GW);Organic soil constituant (intentionally incorporated);;;;;;;42*;Dry combustion;;;;;;;;;;;0,98*;Dry combustion;;;67;;;;;;;;0.65;Cylinder method;;;;;;;;;;
639;10.1016/j.scitotenv.2016.05.140;"(Mattei et al.; 2016)";Reclamation of river dredged sediments polluted by PAHs by co-composting with green waste;0 (no particular approach);2 (dynamic);Italy;C (temperate);;;;;;;Constructed soil;;;SGW1:1;Soil (intentionally incorporated);;;Technosol;;;Anthroposol construit;16*;Dry combustion;;;;;;;;;;;0,58*;Dry combustion;;;64;;;;;;;;0.47;Cylinder method;;;;;;;;;;
640;10.1016/j.scitotenv.2016.05.140;"(Mattei et al.; 2016)";Reclamation of river dredged sediments polluted by PAHs by co-composting with green waste;0 (no particular approach);2 (dynamic);Italy;C (temperate);;;;;;;Constructed soil;;;SGW3:1;Soil (intentionally incorporated);;;Technosol;;;Anthroposol construit;7,5*;Dry combustion;;;;;;;;;;;0,3*;Dry combustion;;;553;;;;;;;;0.65;Cylinder method;;;;;;;;;;
641;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 AYur;Soil;0;10;Technosol;Urbic;;Anthroposol arificiel;;;;;8.16;Tyurin Method;;;;;;;;;;;67;1:2.5 water;;;;;;;;;;;;;;;;;;
642;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 AYurTCH;Soil;10;21;Technosol;Urbic;;Anthroposol arificiel;;;;;3.3;;;;;;;;;;;;65;1:2.5 water;;;;;;;;;;;;;;;;;;
643;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 TCH1;Soil;21;32;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;66;1:2.5 water;;;;;;;;;;;;;;;;;;
644;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 TCH2;Soil;32;43;Technosol;Urbic;;Anthroposol arificiel;;;;;0.71;;;;;;;;;;;;67;1:2.5 water;;;;;;;;;;;;;;;;;;
645;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 UR;Soil;43;55;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
646;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 TCHg;Soil;55;95;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;73;1:2.5 water;;;;;;;;;;;;;;;;;;
647;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 1 TCHg2;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;67;1:2.5 water;;;;;;;;;;;;;;;;;;
648;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 2 AY;Soil;0;11;Retisol;;;Anthroposol arificiel;;;;;4.21;;;;;;;;;;;;61;1:2.5 water;;;;;;;;;;;;;;;;;;
649;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 2 AYur;Soil;11;26;Retisol;;;Anthroposol arificiel;;;;;1.16;;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
650;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 2 TCH;Soil;26;34;Retisol;;;Anthroposol arificiel;;;;;0.34;;;;;;;;;;;;71;1:2.5 water;;;;;;;;;;;;;;;;;;
651;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 2 BTtur;Soil;34;50;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
652;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 2 BT2;Soil;50;69;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;61;1:2.5 water;;;;;;;;;;;;;;;;;;
653;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 2 BT3;Soil;69;100;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;58;1:2.5 water;;;;;;;;;;;;;;;;;;
654;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 3 AY;Soil;4;18;Retisol;;;Anthroposol arificiel;;;;;4.95;Tyurin Method;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
655;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 3 TCH;Soil;18;35;Retisol;;;Anthroposol arificiel;;;;;0.83;Tyurin Method;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;;;;;;;
656;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 3 BT1;Soil;35;52;Retisol;;;Anthroposol arificiel;;;;;0.46;Tyurin Method;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;;;;;;;
657;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 3 BT2;Soil;52;76;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;6;1:2.5 water;;;;;;;;;;;;;;;;;;
658;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 3 BT3;Soil;76;95;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;51;1:2.5 water;;;;;;;;;;;;;;;;;;
659;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 3 BCg;Soil;95;105;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;5;1:2.5 water;;;;;;;;;;;;;;;;;;
660;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 4 AYur;Soil;5;17;Technosol;Urbic;;Anthroposol arificiel;;;;;5.94;Tyurin Method;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
661;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 4 TCH;Soil;17;45;Technosol;Urbic;;Anthroposol arificiel;;;;;0.7;Tyurin Method;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
662;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 4 RY;Soil;45;67;Technosol;Urbic;;Anthroposol arificiel;;;;;0.53;Tyurin Method;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;;;;;;;
663;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 4 R;Soil;67;79;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;64;1:2.5 water;;;;;;;;;;;;;;;;;;
664;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 4 BT;Soil;79;100;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;64;1:2.5 water;;;;;;;;;;;;;;;;;;
665;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 5 AYur;Soil;5;12;Technosol;Urbic;;Anthroposol arificiel;;;;;4.97;Tyurin Method;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
666;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 5 TCH/P;Soil;12;60;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;;;;;;;
667;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 5 ELBT;Soil;60;70;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
668;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 5 BT;Soil;70;100;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;;;;;;;
669;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 6 AYur;Soil;5;10;Retisol;;;Anthroposol arificiel;;;;;4.65;Tyurin Method;;;;;;;;;;;68;1:2.5 water;;;;;;;;;;;;;;;;;;
670;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 6 TCH;Soil;10;26;Retisol;;;Anthroposol arificiel;;;;;0.83;Tyurin Method;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
671;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 6 P1;Soil;26;48;Retisol;;;Anthroposol arificiel;;;;;2.27;Tyurin Method;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
672;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 6 P2;Soil;48;65;Retisol;;;Anthroposol arificiel;;;;;2.55;Tyurin Method;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
673;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 6 BT;Soil;65;105;Retisol;;;Anthroposol arificiel;;;;;0.29;Tyurin Method;;;;;;;;;;;73;1:2.5 water;;;;;;;;;;;;;;;;;;
674;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 7 AY;Soil;1;17;Retisol;;;Anthroposol arificiel;;;;;4.53;Tyurin Method;;;;;;;;;;;62;1:2.5 water;;;;;;;;;;;;;;;;;;
675;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 7 P;Soil;17;33;Retisol;;;Anthroposol arificiel;;;;;1.19;Tyurin Method;;;;;;;;;;;59;1:2.5 water;;;;;;;;;;;;;;;;;;
676;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 7 ELBT;Soil;33;48;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;6;1:2.5 water;;;;;;;;;;;;;;;;;;
677;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 7BT1;Soil;48;79;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;5;1:2.5 water;;;;;;;;;;;;;;;;;;
678;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 7 BT2;Soil;79;95;Retisol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;52;1:2.5 water;;;;;;;;;;;;;;;;;;
679;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 8 AYur;Soil;5;10;Technosol;Urbic;;Anthroposol arificiel;;;;;3.75;Tyurin Method;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
680;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 8 AY/TCH;Soil;10;27;Technosol;Urbic;;Anthroposol arificiel;;;;;1.45;Tyurin Method;;;;;;;;;;;71;1:2.5 water;;;;;;;;;;;;;;;;;;
681;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 8 TCH;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;0.6;Tyurin Method;;;;;;;;;;;73;1:2.5 water;;;;;;;;;;;;;;;;;;
682;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 8 UR;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;74;1:2.5 water;;;;;;;;;;;;;;;;;;
683;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Forests;;Profil 8 P/EB;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
684;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 9 RAT1;Soil;0;12;Technosol;Urbic;;Anthroposol arificiel;;;;;4.89;Tyurin Method;;;;;;;;;;;71;1:2.5 water;;;;;;;;;;;;;;;;;;
685;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 9 RAT2;Soil;12;23;Technosol;Urbic;;Anthroposol arificiel;;;;;1.63;Tyurin Method;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;;;;;;;
686;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 9 Ayur;Soil;23;37;Technosol;Urbic;;Anthroposol arificiel;;;;;1.12;Tyurin Method;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;;;;;;;;
687;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 9 TCH;Soil;37;72;Technosol;Urbic;;Anthroposol arificiel;;;;;0.56;Tyurin Method;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
688;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 9 Pur,g;Soil;72;90;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
689;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 9 BTg;Soil;90;115;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;64;1:2.5 water;;;;;;;;;;;;;;;;;;
690;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 10 RAT/TCH;Soil;0;10;Technosol;Urbic;;Anthroposol arificiel;;;;;5.63;Tyurin Method;;;;;;;;;;;76;1:2.5 water;;;;;;;;;;;;;;;;;;
691;10.1134/S106422931609012X;"(Rozanova et al.; 2016)";Soil Organic Matter in the Moscow State University Botanical Garden on the Vorob'evy Hills;2 (profile);1 (static);Russia;D (continental);55;;;192;Urban;;Constructed soil;Garden;;Profil 10 UR;Soil;10;30;Technosol;Urbic;;Anthroposol arificiel;;;;;2.04;Tyurin Method;;;;;;;;;;;81;1:2.5 water;;;;;;;;;;;;;;;;;;
692;10.1016/S1002-0160(15)60059-5;"(Deeb et al.; 2016)";Influence of Organic Matter Content on Hydro-Structural Properties of Constructed Technosols;4 (territory);1 (static);France;C (temperate);;;;;Urban;;Constructed soil;;;EDH;Soil;;;Technosol;;;Anthroposol arificiel;;;;;0.38;Dry combustion;;;;;;;0.003;Dry combustion;;;81;1:2.5 KCl 1M;;;;;;;1.33;;;;Lazer diffraction method;88;;10;;2;;
693;10.1016/S1002-0160(15)60059-5;"(Deeb et al.; 2016)";Influence of Organic Matter Content on Hydro-Structural Properties of Constructed Technosols;4 (territory);1 (static);France;C (temperate);;;;;Urban;;Constructed soil;;;GWC;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;210.4;Dry combustion;;;;;;;0.147;Dry combustion;;;75;1:2.5 KCl 1M;;;;;;;0.61;;;;;;;;;;;
694;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);;13;1500;;Mining;;Constructed soil;;;CSP 1992;Soil;0;15;Technosol;;;Anthroposol arificiel;2.99;Dry combustion;1;40;;;;;;;;;0.22;Dry combustion;9;40;41;1:2.5 KCl 1M;;40;5;Sum of exchangeable cation concentrations;2;40;;;;;;;;;;;;
695;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);;13;1500;;Mining;;Constructed soil;;;CSP 1992;Soil;15;30;Technosol;;;Anthroposol arificiel;4.26;Dry combustion;31;40;;;;;;;;;0.18;Dry combustion;9;40;37;1:2.5 KCl 1M;;40;98;Sum of exchangeable cation concentrations;51;40;;;;;;;;;;;;
696;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);;13;1500;;Mining;;Constructed soil;;;CSA 1992;Soil;0;15;Technosol;;;Anthroposol arificiel;3.28;Dry combustion;5;40;;;;;;;;;0.2;Dry combustion;7;40;37;1:2.5 KCl 1M;;40;74;Sum of exchangeable cation concentrations;26;40;;;;;;;;;;;;
697;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);;13;1500;;Mining;;Constructed soil;;;CSA 1992;Soil;15;30;Technosol;;;Anthroposol arificiel;2.79;Dry combustion;7;40;;;;;;;;;0.15;Dry combustion;7;40;36;1:2.5 KCl 1M;;40;73;Sum of exchangeable cation concentrations;28;40;;;;;;;;;;;;
698;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);;13;1500;;Mining;;Constructed soil;;;P206 1992;Soil;0;15;Technosol;;;Anthroposol arificiel;3.48;Dry combustion;5;40;;;;;;;;;0.34;Dry combustion;6;40;32;1:2.5 KCl 1M;;40;52;Sum of exchangeable cation concentrations;18;40;;;;;;;;;;;;
699;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);;13;1500;;Mining;;Constructed soil;;;P206 1992;Soil;15;30;Technosol;;;Anthroposol arificiel;2.8;Dry combustion;16;40;;;;;;;;;0.2;Dry combustion;1;40;28;1:2.5 KCl 1M;;40;62;Sum of exchangeable cation concentrations;29;40;;;;;;;;;;;;
700;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);20;13;1500;;Mining;;Constructed soil;;;CSP 2012;Soil;0;15;Technosol;;;Anthroposol arificiel;3.74;Dry combustion;15;40;;;;;;;;;0.27;Dry combustion;8;40;33;1:2.5 KCl 1M;;40;33;Sum of exchangeable cation concentrations;6;40;;;;;;;;;;;;
701;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);20;13;1500;;Mining;;Constructed soil;;;CSP 2012;Soil;15;30;Technosol;;;Anthroposol arificiel;2.68;Dry combustion;14;40;;;;;;;;;0.19;Dry combustion;8;40;36;1:2.5 KCl 1M;;40;34;Sum of exchangeable cation concentrations;6;40;;;;;;;;;;;;
702;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);20;13;1500;;Mining;;Constructed soil;;;CSA 2012;Soil;0;15;Technosol;;;Anthroposol arificiel;2.8;Dry combustion;6;40;;;;;;;;;0.33;Dry combustion;5;40;42;1:2.5 KCl 1M;;40;34;Sum of exchangeable cation concentrations;8;40;;;;;;;;;;;;
703;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);20;13;1500;;Mining;;Constructed soil;;;CSA 2012;Soil;15;30;Technosol;;;Anthroposol arificiel;3;Dry combustion;5;40;;;;;;;;;0.33;Dry combustion;6;40;42;1:2.5 KCl 1M;;40;51;Sum of exchangeable cation concentrations;17;40;;;;;;;;;;;;
704;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);20;13;1500;;Mining;;Constructed soil;;;P206 2012;Soil;0;15;Technosol;;;Anthroposol arificiel;3.91;Dry combustion;4;40;;;;;;;;;0.35;Dry combustion;2;40;42;1:2.5 KCl 1M;;40;5;Sum of exchangeable cation concentrations;9;40;;;;;;;;;;;;
705;10.1016/j.geoderma.2016.03.013;"(Rivas-P‚rez et al.; 2016)";Aluminum fractionation and speciation in a coal mine dump: Twenty years of time-course evolution;3 (plot);2 (dynamic);Spain;C (temperate);20;13;1500;;Mining;;Constructed soil;;;P206 2012;Soil;15;30;Technosol;;;Anthroposol arificiel;2.87;Dry combustion;5;40;;;;;;;;;0.29;Dry combustion;4;40;42;1:2.5 KCl 1M;;40;42;Sum of exchangeable cation concentrations;5;40;;;;;;;;;;;;
706;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil affected by land use;;;Mine soil (S);Soil;;;;;;;;;;;;;;;;;;;;;;;273;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
707;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Biochar (B);Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;66.7;Dry combustion;;;59.9;;;;;;;;0.58;Dry combustion;;;964;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
708;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Technosol (T);Organic soil constituant (intentionally incorporated);;;Technosol;;;;21.8;Dry combustion;;;19.3;;;;;;;;2.29;Dry combustion;;;548;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
709;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;;;A0;Soil;;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;272;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
710;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil affected by land use;Crops;;A0P;Soil;;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;26;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
711;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;TB20;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;2.623;Dry combustion;99;9;2.183;;;6;;;;;0.26;Dry combustion;;;449;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
712;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;TB40;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;5.653;Dry combustion;248;9;4.68;;;6;;;;;0.55;Dry combustion;;;512;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
713;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;TB80;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;13.1;Dry combustion;485;9;10.5;;;6;;;;;1.14;Dry combustion;;;594;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
714;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;TB100;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;23.8;Dry combustion;254;9;19;;;6;;;;;2.023;Dry combustion;;;598;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
715;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;TB20P;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;2.1;Dry combustion;245;9;1.72;;;6;;;;;0.197;Dry combustion;;;454;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
716;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;TB40P;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;5.91;Dry combustion;334;9;4.937;;;6;;;;;0.503;Dry combustion;;;552;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
717;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;TB80P;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;11;Dry combustion;212;9;9.013;;;6;;;;;0.95;Dry combustion;;;617;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
718;10.1007/s11368-016-1358-9;"(Rodr¡guez-Vila et al.; 2016)";Build-up of carbon fractions in technosol-biochar amended partially reclaimed mine soil grown with Brassica juncea;2 (profile);1 (static);Spain;C (temperate);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;TB100P;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol construit;23.6;Dry combustion;124;9;19.5;;;6;;;;;2.05;Dry combustion;;;606;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
719;10.3390/rs8040341;"(Gholizadeh et al.; 2016)";A Memory-Based Learning Approach as Compared to Other Data Mining Algorithms for the Prediction of Soil Texture Using Diffuse Reflectance Spectra;3 (plot);1 (static);Czech Republic;D (continental);;;;;Mining;;Soil affected by land use;;;Pokrok;Organic soil constituant (intentionally incorporated);0;30;Technosol;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;293;0.92;339;0.44;367;0.87;103
720;10.3390/rs8040341;"(Gholizadeh et al.; 2016)";A Memory-Based Learning Approach as Compared to Other Data Mining Algorithms for the Prediction of Soil Texture Using Diffuse Reflectance Spectra;3 (plot);1 (static);Czech Republic;D (continental);;;;;Mining;;Soil affected by land use;;;Radovescice;Organic soil constituant (intentionally incorporated);0;30;Technosol;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;198;1.03;382;0.57;419;0.78;40
721;10.3390/rs8040341;"(Gholizadeh et al.; 2016)";A Memory-Based Learning Approach as Compared to Other Data Mining Algorithms for the Prediction of Soil Texture Using Diffuse Reflectance Spectra;3 (plot);1 (static);Czech Republic;D (continental);;;;;Mining;;Soil affected by land use;;;Brezno;Organic soil constituant (intentionally incorporated);0;30;Technosol;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;221;0.61;329;0.47;399;0.59;25
722;10.3390/rs8040341;"(Gholizadeh et al.; 2016)";A Memory-Based Learning Approach as Compared to Other Data Mining Algorithms for the Prediction of Soil Texture Using Diffuse Reflectance Spectra;3 (plot);1 (static);Czech Republic;D (continental);;;;;Mining;;Soil affected by land use;;;Merkur;Organic soil constituant (intentionally incorporated);0;30;Technosol;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;224;0.53;302;0.38;476;0.65;38
723;10.3390/rs8040341;"(Gholizadeh et al.; 2016)";A Memory-Based Learning Approach as Compared to Other Data Mining Algorithms for the Prediction of Soil Texture Using Diffuse Reflectance Spectra;3 (plot);1 (static);Czech Republic;D (continental);;;;;Mining;;Soil affected by land use;;;Prunerov;Organic soil constituant (intentionally incorporated);0;30;Technosol;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;283;1.27;312;0.76;405;1.26;48
724;10.3390/rs8040341;"(Gholizadeh et al.; 2016)";A Memory-Based Learning Approach as Compared to Other Data Mining Algorithms for the Prediction of Soil Texture Using Diffuse Reflectance Spectra;3 (plot);1 (static);Czech Republic;D (continental);;;;;Mining;;Soil affected by land use;;;Tumerity;Organic soil constituant (intentionally incorporated);0;30;Technosol;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;213;1.1;229;0.26;507;1.15;10
725;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Ck1;Soil;;;Technosol;;;Anthroposol arificiel;;;;;7.54;Dry combustion;;;;;;;;;;;74;1:5 water;;;;;;;;;;;;73;;14;;13;;
726;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Ck2;Soil;;;Technosol;;;Anthroposol arificiel;;;;;10.01;Dry combustion;;;;;;;;;;;96;1:5 water;;;;;;;;;;;;72;;15;;13;;
727;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Ck3;Soil;;;Technosol;;;Anthroposol arificiel;;;;;6.79;Dry combustion;;;;;;;;;;;89;1:5 water;;;;;;;;;;;;75;;19;;6;;
728;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Ck4;Soil;;;Technosol;;;Anthroposol arificiel;;;;;6.23;Dry combustion;;;;;;;;;;;81;1:5 water;;;;;;;;;;;;51;;38;;11;;
729;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;CkTD1;Soil;;;Technosol;;;Anthroposol arificiel;;;;;8.56;Dry combustion;;;;;;;;;;;88;1:5 water;;;;;;;;;;;;73;;2;;7;;
730;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;CkTD2;Soil;;;Technosol;;;Anthroposol arificiel;;;;;6.17;Dry combustion;;;;;;;;;;;8;1:5 water;;;;;;;;;;;;68;;2;;12;;
731;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Ckb;Soil;;;Technosol;;;Anthroposol arificiel;;;;;9.52;Dry combustion;;;;;;;;;;;88;1:5 water;;;;;;;;;;;;78;;15;;7;;
732;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;GP1;Soil;;;Technosol;;;Anthroposol arificiel;;;;;4.38;Dry combustion;;;;;;;;;;;82;1:5 water;;;;;;;;;;;;55;;24;;21;;
733;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;GP2;Soil;;;Technosol;;;Anthroposol arificiel;;;;;5.14;Dry combustion;;;;;;;;;;;104;1:5 water;;;;;;;;;;;;68;;21;;11;;
734;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Bs;Soil;;;Technosol;;;Anthroposol arificiel;;;;;15;Dry combustion;;;;;;;;;;;76;1:5 water;;;;;;;;;;;;53;;39;;8;;
735;10.1007/s11368-015-1108-4;"(Dagois et al.; 2016)";Climatic influence on mobility of organic pollutants in Technosols from contrasted industrial activities;2 (profile);1 (static);;;;;;;Industrial;;Soil affected by land use;;;Bd;Soil;;;Technosol;;;Anthroposol arificiel;;;;;20;Dry combustion;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;89;;9;;2;;
736;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Urban;;Soil affected by land use;Forests;;P1;Soil;;;;;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
737;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;P2;Soil;;;;;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
738;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Agricultural;;Soil affected by land use;Other;Segetal vegetation;P3;Soil;;;;;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
739;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Traffic;;Soil affected by land use;Other;Segetal vegetation;P4;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
740;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Traffic;;Soil affected by land use;Other;Segetal vegetation;P5;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
741;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Traffic;;Soil affected by land use;Grasslands;;P6;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
742;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Traffic;;Soil affected by land use;Grasslands;;P7;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
743;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Urban;;Soil affected by land use;Other;Segetal vegetation;P8;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
744;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Traffic;;Soil affected by land use;Grasslands;;P9;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
745;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Traffic;;Soil affected by land use;Grasslands;;P10;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
746;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Urban;;Soil affected by land use;Other;Segetal vegetation;P11;Soil;;;;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
747;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Urban;;Soil affected by land use;Other;Segetal vegetation;P12;Soil;;;;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
748;10.30638/eemj.2016.074;"(Secu et al.; 2016)";POTENTIALLY TOXIC ELEMENTS IN URBAN SOILS OF IASI (ROMANIA);2 (profile);1 (static);Romania;D (continental);;;;;Urban;;Soil affected by land use;Other;Segetal vegetation;P13;Soil;;;;Urbic;;Anthroposol arificiel;;;;;;Total carbon - inorganic carbon;;;;;;;;;;;;1:5 water;;;;;;;;;;;;;;;;;;
749;10.1007/s11368-015-1270-8;"(Qasim et al.; 2016)";"Rhizosphere effects of Populus euramericana Dorskamp on the mobility of Zn; Pb and Cd in contaminated technosols";2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Constructed soil;Grasslands;;MDN1;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;3.35;Dry combustion;;;;;;;;;;;;;;;692;1:2.5 water;;;721;Cobaltihexamine chlorid method;;;;;;;;7545;;2234;;22;;
750;10.1007/s11368-015-1270-8;"(Qasim et al.; 2016)";"Rhizosphere effects of Populus euramericana Dorskamp on the mobility of Zn; Pb and Cd in contaminated technosols";2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Constructed soil;Grasslands;;MDN2;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;4.39;Dry combustion;;;;;;;;;;;;;;;635;1:2.5 water;;;853;Cobaltihexamine chlorid method;;;;;;;;7684;;2216;;1;;
751;10.1007/s11368-015-1270-8;"(Qasim et al.; 2016)";"Rhizosphere effects of Populus euramericana Dorskamp on the mobility of Zn; Pb and Cd in contaminated technosols";2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Constructed soil;Grasslands;;MDN3;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;6.45;Dry combustion;;;;;;;;;;;;;;;614;1:2.5 water;;;674;Cobaltihexamine chlorid method;;;;;;;;7666;;2213;;12;;
752;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Dunino (modern soil);Soil;0;0;Podzol;;;Anthroposol arificiel;;;;;0,12*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
753;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;0;5;Retisol;;;Anthroposol arificiel;;;;;0.5*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
754;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Dunino (modern soil);Soil;10;10;Podzol;;;Anthroposol arificiel;;;;;0,14*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
755;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Dunino (modern soil);Soil;20;20;Podzol;;;Anthroposol arificiel;;;;;0,13*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
756;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Dunino (modern soil);Soil;30;30;Podzol;;;Anthroposol arificiel;;;;;0,11*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
757;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Dunino (modern soil);Soil;40;40;Podzol;;;Anthroposol arificiel;;;;;0,115*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
758;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Dunino (modern soil);Soil;50;50;Podzol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
759;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (common cultural layer);Organic soil constituant (intentionally incorporated);0;0;Podzol;;;Anthroposol arificiel;;;;;0,14*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
760;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (common cultural layer);Organic soil constituant (intentionally incorporated);10;10;Podzol;;;Anthroposol arificiel;;;;;0,14*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
761;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (common cultural layer);Organic soil constituant (intentionally incorporated);20;20;Podzol;;;Anthroposol arificiel;;;;;0,12*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
762;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (common cultural layer);Organic soil constituant (intentionally incorporated);30;30;Podzol;;;Anthroposol arificiel;;;;;0,10*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
763;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (common cultural layer);Organic soil constituant (intentionally incorporated);40;40;Podzol;;;Anthroposol arificiel;;;;;0,09*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
764;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (common cultural layer);Organic soil constituant (intentionally incorporated);50;50;Podzol;;;Anthroposol arificiel;;;;;0,08*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
765;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);0;0;Podzol;;;Anthroposol arificiel;;;;;0,13*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
766;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);10;10;Podzol;;;Anthroposol arificiel;;;;;0,12*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
767;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);20;20;Podzol;;;Anthroposol arificiel;;;;;0,14*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
768;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);30;30;Podzol;;;Anthroposol arificiel;;;;;0,12*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
769;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);40;40;Podzol;;;Anthroposol arificiel;;;;;0,11*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
770;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);50;50;Podzol;;;Anthroposol arificiel;;;;;0,13*;Tyurin method;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
771;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Durino (layers of household pit);Organic soil constituant (intentionally incorporated);60;60;Podzol;;;Anthroposol arificiel;;;;;0,19*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
772;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;10;15;Retisol;;;Anthroposol arificiel;;;;;4*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
773;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;20;25;Retisol;;;Anthroposol arificiel;;;;;4,1*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
774;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;30;35;Retisol;;;Anthroposol arificiel;;;;;2,9*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
775;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;35;40;Retisol;;;Anthroposol arificiel;;;;;3*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
776;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;40;45;Retisol;;;Anthroposol arificiel;;;;;3,5*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
777;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;45;50;Retisol;;;Anthroposol arificiel;;;;;3,7*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
778;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;50;55;Retisol;;;Anthroposol arificiel;;;;;1,9*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
779;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;55;61;Retisol;;;Anthroposol arificiel;;;;;1,8*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
780;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (modern soil);Soil;61;70;Retisol;;;Anthroposol arificiel;;;;;0,4*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
781;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (cultural layer);Organic soil constituant (intentionally incorporated);0;5;Retisol;;;Anthroposol arificiel;;;;;1,8*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
782;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (cultural layer);Organic soil constituant (intentionally incorporated);10;15;Retisol;;;Anthroposol arificiel;;;;;1,6*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
783;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (cultural layer);Organic soil constituant (intentionally incorporated);20;25;Retisol;;;Anthroposol arificiel;;;;;0,9*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
784;10.1016/j.catena.2014.12.030;"(Golyeva et al.; 2016)";Properties of ancient deeply transformed man-made soils (cultural layers) and their advances to classification by the example of Early Iron Age sites in Moscow Region;2 (profile);1 (static);Russia;D (continental);;3;575;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Rostislavl (cultural layer);Organic soil constituant (intentionally incorporated);30;35;Retisol;;;Anthroposol arificiel;;;;;0,1*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
785;10.1016/j.geoderma.2015.08.008;"(Legu‚dois et al.; 2016)";Modelling pedogenesis of Technosols;2 (profile);2 (dynamic);;;;;;;;;Soil with anthropogenic constituants incorporated;;;;;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
786;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;CDW15;Soil;;;Technosol;;;Anthroposol construit;;;;;1.9;;;;327;;;;202.1;;;;78;;;;;;;;;;;;;3581;;4635;;1784;;
787;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;CDW30;Soil;;;Technosol;;;Anthroposol construit;;;;;3.27;;;;563;;;;362.8;;;;77;;;;;;;;;;;;;5328;;3473;;1199;;
788;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;TS15;Soil;;;Technosol;;;Anthroposol construit;;;;;1.53;;;;264;;;;158.73;;;;769;;;;;;;;;;;;;6058;;2719;;1223;;
789;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;TS30;Soil;;;Technosol;;;Anthroposol construit;;;;;2;;;;344;;;;320.46;;;;772;;;;;;;;;;;;;6638;;2464;;898;;
790;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;RB15;Soil;;;Technosol;;;Anthroposol construit;;;;;1.79;;;;308;;;;238;;;;763;;;;;;;;;;;;;5903;;2977;;112;;
791;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;RB30;Soil;;;Technosol;;;Anthroposol construit;;;;;3.48;;;;598;;;;416.2;;;;77;;;;;;;;;;;;;5758;;3231;;1011;;
792;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;Construction and demolition dirt;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;41;;;;51.078;;;;865;;;;;;;;;;;;;;;;;;;
793;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;Bio-stabilized material;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;792;;;;1654.92;;;;826;;;;;;;;;;;;;;;;;;;
794;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;Pruning;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;100;;;;;;;;711;;;;;;;;;;;;;;;;;;;
795;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;Recycled bentonite;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;87;;;;215.406;;;;955;;;;;;;;;;;;;;;;;;;
796;10.3232/SJSS.2016.V6.N1.06;"(Herr n Fern ndez et al.; 2016)";First results of Technosols constructed from municipal waste in Victoria-Gasteiz (Spain);2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Constructed soil;;;Vitoria's lands;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;83;;;;110.779;;;;851;;;;;;;;;;;;;;;;;;;
797;10.2136/sssaj2015.03.0091;"(Yuan et al.; 2016)";Organic Amendment and Plant Growth Improved Aggregation in Cu/Pb-Zn Tailings;1 (aggregate);1 (static);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;SR;Soil;;;Technosol;;;Anthroposol arificiel;;;;;34.2;Dry combustion after carbonates removal;;;;;;;0.635;Dry combustion;;;653;1:5 water;;;182;AgTU extraction method;;;;;;;;;;;;;;
798;10.2136/sssaj2015.03.0091;"(Yuan et al.; 2016)";Organic Amendment and Plant Growth Improved Aggregation in Cu/Pb-Zn Tailings;1 (aggregate);1 (static);Australia;B (dry);;;;;Mining;;Soil affected by land use;;;SC;Soil;;;Technosol;;;Anthroposol arificiel;;;;;28.8;Dry combustion after carbonates removal;;;;;;;1.86;Dry combustion;;;67;1:5 water;;;336;AgTU extraction method;;;;;;;;;;;;;;
799;10.2136/sssaj2015.03.0091;"(Yuan et al.; 2016)";Organic Amendment and Plant Growth Improved Aggregation in Cu/Pb-Zn Tailings;1 (aggregate);1 (static);Australia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Tailings;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;0.219;Dry combustion after carbonates removal;;;;;;;0.0146;Dry combustion;;;617;1:5 water;;;136;AgTU extraction method;;;;;;;;;;;;;;
800;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Potential of Ranunculus acris L. for biomonitoring trace element contamination of riverbank soils: photosystem II activity and phenotypic responses for two soil series;0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Mining;;Soil affected by land use;;;A;Soil;;;;;;Anthroposol arificiel;1.13;;;;;;;;195;;;;0.093;;;;75;;;;52;;;;;;;;;7793;;42;;81;;
801;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Potential of Ranunculus acris L. for biomonitoring trace element contamination of riverbank soils: photosystem II activity and phenotypic responses for two soil series;0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Mining;;Soil affected by land use;;;B;Soil;;;;;;Anthroposol arificiel;2.63;;;;;;;;455;;;;0.24;;;;79;;;;;;;;;;;;;583;;451;;383;;
802;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Potential of Ranunculus acris L. for biomonitoring trace element contamination of riverbank soils: photosystem II activity and phenotypic responses for two soil series;0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Mining;;Constructed soil;;;F;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;15.2;;;;;;;;306;;;;0.49;;;;72;;;;;;;;;;;;;151;;661;;134;;
803;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;;;A;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;84;1:5 water;;;;;;;;;;;;;;;;;;
804;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;;;B;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;86;1:5 water;;;;;;;;;;;;;;;;;;
805;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;C;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;81;1:5 water;;;;;;;;;;;;;;;;;;
806;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;D;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;82;1:5 water;;;;;;;;;;;;;;;;;;
807;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;E;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;82;1:5 water;;;;;;;;;;;;;;;;;;
808;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;F;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;84;1:5 water;;;;;;;;;;;;;;;;;;
809;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;G;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;85;1:5 water;;;;;;;;;;;;;;;;;;
810;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;H;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;84;1:5 water;;;;;;;;;;;;;;;;;;
811;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;I;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;84;1:5 water;;;;;;;;;;;;;;;;;;
812;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;;;J;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;82;1:5 water;;;;;;;;;;;;;;;;;;
813;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;;;K;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;;;;;;;
814;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;L;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;;;;;;;
815;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;M;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;;;;;;;
816;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;N;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;84;1:5 water;;;;;;;;;;;;;;;;;;
817;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;O;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;;;;;;;
818;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;P;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;;;;;;;
819;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;Q;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;78;1:5 water;;;;;;;;;;;;;;;;;;
820;10.1007/s11356-015-4646-9;"(Marchand et al.; 2016)";Plant responses to a phytomanaged urban technosol contamined by trace elements and polycyclic aromatic hydrocarbons;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Bare;;R;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;83;1:5 water;;;;;;;;;;;;;;;;;;
821;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;G;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;736;;;;;;;;;;;;;;;;;;;
822;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Constructed soil;;;T;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;691;;;;;;;;;;;;;;;;;;;
823;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;Garden;;L;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;56;;;;;;;;;;;;;;;;;;;
824;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;GT12.5;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;759;;;;;;;;;;;;;;;;;;;
825;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;GT25;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;757;;;;;;;;;;;;;;;;;;;
826;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;GT50;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;75;;;;;;;;;;;;;;;;;;;
827;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;LT12.5;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;544;;;;;;;;;;;;;;;;;;;
828;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;LT25;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;603;;;;;;;;;;;;;;;;;;;
829;10.1016/j.catena.2015.07.008;"(Sylvain et al.; 2016)";"Phytostabilization of As; Sb and Pb by two willow species (S. viminalis and S. purpurea) on former mine technosols";2 (profile);2 (dynamic);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;LT50;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;659;;;;;;;;;;;;;;;;;;;
830;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;AU;Organic soil constituant (intentionally incorporated);0;0;Technosol;;;Anthroposol arificiel;11*;Dry combustion;;;;;;;;;;;0.79*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
831;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASU;Organic soil constituant (intentionally incorporated);0;0;Technosol;;;Anthroposol arificiel;7*;Dry combustion;;;;;;;;;;;0.59*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
832;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASM;Organic soil constituant (intentionally incorporated);0;0;Technosol;;;Anthroposol arificiel;5*;Dry combustion;;;;;;;;;;;0.32*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
833;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASD;Organic soil constituant (intentionally incorporated);0;0;Technosol;;;Anthroposol arificiel;6.5*;Dry combustion;;;;;;;;;;;0.5*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
834;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;RS;Organic soil constituant (intentionally incorporated);0;0;Technosol;;;Anthroposol arificiel;5.1*;Dry combustion;;;;;;;;;;;0.41*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
835;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;AU;Organic soil constituant (intentionally incorporated);45;45;Technosol;;;Anthroposol arificiel;2.5*;Dry combustion;;;;;;;;;;;0.09*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
836;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASU;Organic soil constituant (intentionally incorporated);45;45;Technosol;;;Anthroposol arificiel;1*;Dry combustion;;;;;;;;;;;0.02*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
837;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASM;Organic soil constituant (intentionally incorporated);45;45;Technosol;;;Anthroposol arificiel;1*;Dry combustion;;;;;;;;;;;0.02*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
838;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASD;Organic soil constituant (intentionally incorporated);45;45;Technosol;;;Anthroposol arificiel;1*;Dry combustion;;;;;;;;;;;0.02*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
839;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;RS;Organic soil constituant (intentionally incorporated);45;45;Technosol;;;Anthroposol arificiel;0.5*;Dry combustion;;;;;;;;;;;0.02*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
840;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;AU;Organic soil constituant (intentionally incorporated);95;95;Technosol;;;Anthroposol arificiel;2*;Dry combustion;;;;;;;;;;;0.05*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
841;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASU;Organic soil constituant (intentionally incorporated);95;95;Technosol;;;Anthroposol arificiel;2.5*;Dry combustion;;;;;;;;;;;0.04*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
842;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASM;Organic soil constituant (intentionally incorporated);95;95;Technosol;;;Anthroposol arificiel;2.4*;Dry combustion;;;;;;;;;;;0.04*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
843;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASD;Organic soil constituant (intentionally incorporated);95;95;Technosol;;;Anthroposol arificiel;2.1*;Dry combustion;;;;;;;;;;;0.04*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
844;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;RS;Organic soil constituant (intentionally incorporated);95;95;Technosol;;;Anthroposol arificiel;2.1*;Dry combustion;;;;;;;;;;;0.04*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
845;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;AU;Organic soil constituant (intentionally incorporated);145;145;Technosol;;;Anthroposol arificiel;1.8*;Dry combustion;;;;;;;;;;;0.05*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
846;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASU;Organic soil constituant (intentionally incorporated);145;145;Technosol;;;Anthroposol arificiel;2.4*;Dry combustion;;;;;;;;;;;0.05*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
847;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASM;Organic soil constituant (intentionally incorporated);145;145;Technosol;;;Anthroposol arificiel;2.4*;Dry combustion;;;;;;;;;;;0.05*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
848;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASD;Organic soil constituant (intentionally incorporated);145;145;Technosol;;;Anthroposol arificiel;2.5*;Dry combustion;;;;;;;;;;;0.05*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
849;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;RS;Organic soil constituant (intentionally incorporated);145;145;Technosol;;;Anthroposol arificiel;1.9*;Dry combustion;;;;;;;;;;;0.05*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
850;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;AU;Organic soil constituant (intentionally incorporated);185;185;Technosol;;;Anthroposol arificiel;1.9*;Dry combustion;;;;;;;;;;;0.03*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
851;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASU;Organic soil constituant (intentionally incorporated);185;185;Technosol;;;Anthroposol arificiel;2.5*;Dry combustion;;;;;;;;;;;0.03*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
852;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASM;Organic soil constituant (intentionally incorporated);185;185;Technosol;;;Anthroposol arificiel;2.6*;Dry combustion;;;;;;;;;;;0.03*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
853;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;ASD;Organic soil constituant (intentionally incorporated);185;185;Technosol;;;Anthroposol arificiel;2.5*;Dry combustion;;;;;;;;;;;0.03*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
854;10.1016/j.catena.2015.08.006;"(Santini and Fey; 2016)";Assessment of Technosol formation and in situ remediation in capped alkaline tailings;0 (no particular approach);2 (dynamic);United States;C (temperate);;;;;Mining;;Soil affected by land use;Grasslands;;RS;Organic soil constituant (intentionally incorporated);185;185;Technosol;;;Anthroposol arificiel;1.9*;Dry combustion;;;;;;;;;;;0.03*;Dry combustion;;;;1:5 water;;;;AgTU extraction method;;;;;;;;;;;;;;
855;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);;;;;Mining;;Soil affected by land use;;;EM;Soil;;;Technosol;;;Anthroposol arificiel;;;;;0.36;;;;;;;;0.035;;;;78;;;;;;;;;;;;;;;;;;;
856;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;LRC;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;46.04;;;;;;;;;;;;1.38;;;;;;;;;;;;;;;;;;;;;;;
857;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM 3;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;116;;;;;;;;;;;;;;;
858;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P ;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;119;;;;;;;;;;;;;;;
859;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB ;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;119;;;;;;;;;;;;;;;
860;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;178;;;;;;;;;;;;;;;
861;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;167;;;;;;;;;;;;;;;
862;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;118;;;;;;;;;;;;;;;
863;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+CSB+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;194;;;;;;;;;;;;;;;
864;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+CSB+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;126;;;;;;;;;;;;;;;
865;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;199;;;;;;;;;;;;;;;
866;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);25;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;122;;;;;;;;;;;;;;;
867;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM 5;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;116;;;;;;;;;;;;;;;
868;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P ;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;119;;;;;;;;;;;;;;;
869;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB ;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;116;;;;;;;;;;;;;;;
870;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;167;;;;;;;;;;;;;;;
871;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;146;;;;;;;;;;;;;;;
872;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;119;;;;;;;;;;;;;;;
873;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+CSB+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;169;;;;;;;;;;;;;;;
874;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+CSB+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;114;;;;;;;;;;;;;;;
875;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;153;;;;;;;;;;;;;;;
876;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);416666667;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;12;;;;;;;;;;;;;;;
877;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM 12;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;115;;;;;;;;;;;;;;;
878;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P ;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;121;;;;;;;;;;;;;;;
879;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB ;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;122;;;;;;;;;;;;;;;
880;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;193;;;;;;;;;;;;;;;
881;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;189;;;;;;;;;;;;;;;
882;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;132;;;;;;;;;;;;;;;
883;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+CSB+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;171;;;;;;;;;;;;;;;
884;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;;;EM+CSB+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;124;;;;;;;;;;;;;;;
885;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB+LRC 1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;201;;;;;;;;;;;;;;;
886;10.1186/s40538-016-0068-2;"(Valero et al.; 2016)";Effect of low-rank coal inoculated with coal solubilizing bacteria on edaphic materials used in post-coal-mining land reclamation: a greenhouse trial;1 (aggregate);2 (dynamic);Colombia;B (dry);1;;;;Mining;;Soil with anthropogenic constituants incorporated;Crops;;EM+P+CSB+LRC 0,1%;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;142;;;;;;;;;;;;;;;
887;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);30;7.2;700;400;Mining;;Soil affected by land use;Crops;;Boleslaw;Soil;0;10;;;;;;Dry combustion;;;1.789;Total carbon - inorganic carbon;;;;;;;0.042;Dry combustion;;;69;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
888;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);30;7.2;700;400;Mining;;Soil affected by land use;Crops;;Boleslaw;Soil;10;30;;;;;;Dry combustion;;;1.242;Total carbon - inorganic carbon;;;;;;;0.028;Dry combustion;;;69;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
889;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);70;7.2;700;400;Mining;;Soil affected by land use;Crops;;Tarnowskie Gory;Soil;0;10;;;;;;Dry combustion;;;6.456;Total carbon - inorganic carbon;;;;;;;0.44;Dry combustion;;;54;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
890;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);70;7.2;700;400;Mining;;Soil affected by land use;Crops;;Tarnowskie Gory;Soil;10;30;;;;;;Dry combustion;;;0.753;Total carbon - inorganic carbon;;;;;;;0.085;Dry combustion;;;65;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
891;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);70;7.2;700;400;Mining;;Soil affected by land use;Crops;;Zabie Doly;Soil;0;10;;;;;;Dry combustion;;;7.083;Total carbon - inorganic carbon;;;;;;;0.116;Dry combustion;;;73;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
892;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);70;7.2;700;400;Mining;;Soil affected by land use;Crops;;Zabie Doly;Soil;10;30;;;;;;Dry combustion;;;4.715;Total carbon - inorganic carbon;;;;;;;0.11;Dry combustion;;;73;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
893;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);100;7.2;700;400;Mining;;Soil affected by land use;Crops;;Ujkow Stary;Soil;0;10;;;;;;Dry combustion;;;9.747;Total carbon - inorganic carbon;;;;;;;0.582;Dry combustion;;;68;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
894;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);100;7.2;700;400;Mining;;Soil affected by land use;Crops;;Ujkow Stary;Soil;10;30;;;;;;Dry combustion;;;1.977;Total carbon - inorganic carbon;;;;;;;0.046;Dry combustion;;;71;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
895;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);400;7.2;700;400;Mining;;Soil affected by land use;Forests;;Bukowno;Soil;0;10;;;;;;Dry combustion;;;8.632;Total carbon - inorganic carbon;;;;;;;0.676;Dry combustion;;;68;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
896;10.1016/j.geoderma.2015.07.018;"(Ciarkowska et al.; 2016)";Natural restoration of soils on mine heaps with similar technogenic parent material: A case study of long-term soil evolution in Silesian-Krakow Upland Poland;2 (profile);1 (static);Poland;D (continental);400;7.2;700;400;Mining;;Soil affected by land use;Forests;;Bukowno;Soil;10;30;;;;;;Dry combustion;;;5.141;Total carbon - inorganic carbon;;;;;;;0.406;Dry combustion;;;67;1:2.5 KCl 1M;;;;;;;;;;;;;;;;;;
897;10.1007/s11356-015-5071-9;"(Qasim et al.; 2016)";"Effect of nitrate and ammonium fertilization on Zn; Pb; and Cd phytostabilization by Populus euramericana Dorskamp in contaminated technosol";2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Grasslands;;MDN1;Soil;0;20;;;;Anthroposol arificiel;;;;;3.35;;;;;;;;;;;;692;;;;721;;;;;;;;;7545;;2234;;22;;
898;10.1007/s11356-015-5071-9;"(Qasim et al.; 2016)";"Effect of nitrate and ammonium fertilization on Zn; Pb; and Cd phytostabilization by Populus euramericana Dorskamp in contaminated technosol";2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Grasslands;;MDN2;Soil;0;20;;;;Anthroposol arificiel;;;;;4.39;;;;;;;;;;;;635;;;;853;;;;;;;;;7684;;2216;;1;;
899;10.1007/s11356-015-5071-9;"(Qasim et al.; 2016)";"Effect of nitrate and ammonium fertilization on Zn; Pb; and Cd phytostabilization by Populus euramericana Dorskamp in contaminated technosol";2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Grasslands;;MDN3;Soil;0;20;;;;Anthroposol arificiel;;;;;6.45;;;;;;;;;;;;614;;;;674;;;;;;;;;7666;;2213;;12;;
900;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;C (temperate);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Phanagoria;Soil;0;100;Technosol;;;Anthroposol arificiel;;;;;2*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
901;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;C (temperate);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Phanagoria;Soil;100;300;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
902;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;C (temperate);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Phanagoria;Soil;300;500;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
903;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;C (temperate);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Phanagoria;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
904;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Hermonassa;Soil;0;60;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
905;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Hermonassa;Soil;60;500;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
906;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Hermonassa;Soil;500;1000;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
907;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Hermonassa;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;86;;;;;;;;;;;;Pipette method;;;;;;;
908;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Tanais;Soil;0;60;Technosol;;;Anthroposol arificiel;;;;;3.35*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
909;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Tanais;Soil;;;Technosol;;;Anthroposol arificiel;;;;;1.25*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
910;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;10;400;;Urban;;Soil with anthropogenic constituants incorporated;;;Tanais;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
911;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;4.6;550;;Urban;;Soil with anthropogenic constituants incorporated;Forests;;Lgov;Soil;0;140;Technosol;Urbic;;Anthroposol arificiel;;;;;2.7*;Tyurin method;;;;;;;;;;;;;;;;;;;;;;;Pipette method;;;;;;;
912;10.1134/S1064229315110022;"(Aleksandrovskii et al.; 2015)";Soils and Cultural Layers of Ancient Cities in the South of European Russia;2 (profile);1 (static);Russia;D (continental);;4.6;550;;Urban;;Soil with anthropogenic constituants incorporated;Forests;;Lgov;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
913;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;;;Soil affected by land use;;;B1;Soil;;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;0.14;Total carbon - inorganic carbon;;;;;;;;;;;38;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;95;;
914;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;;;Soil affected by land use;Forests;;B2v;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;1.04;Total carbon - inorganic carbon;;;;;;;;;;;48;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;111;;
915;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;;;Constructed soil;;;B4v;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;11.2;Total carbon - inorganic carbon;;;;;;;;;;;69;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;261;;
916;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;Mining;;Soil affected by land use;;;M1;Soil;;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;0.32;Total carbon - inorganic carbon;;;;;;;;;;;36;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;109;;
917;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;Mining;;Soil affected by land use;Forests;;M2v;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;3.51;Total carbon - inorganic carbon;;;;;;;;;;;66;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;167;;
918;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;Mining;;Constructed soil;;;M3w;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;5.63;Total carbon - inorganic carbon;;;;;;;;;;;58;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;103;;
919;10.1007/s11356-015-4587-3;"(Asensio and Covelo; 2015)";"Physical distribution of Ni; Pb and Zn in reclaimed mine soils observed by FE-SEM with an EDS detector";0 (no particular approach);1 (static);Spain;C (temperate);;;;;Mining;;Constructed soil;Forests;;M4vw;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;Dry combustion;;;5.48;Total carbon - inorganic carbon;;;;;;;;;;;82;1:2.5 water;;;;;;;;;;;Lazer diffraction method;;;;;131;;
920;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;CSS;Organic soil constituant (intentionally incorporated);0;20;;;;Anthroposol arificiel;21.07;Dry combustion;;;;;;;309;;;;2.96;Dry combustion;;;88;1:2.5 water;;;;;;;;;;;;;;;;;;
921;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;RCW;Organic soil constituant (intentionally incorporated);0;20;;;;Anthroposol arificiel;58.8;Dry combustion;;;;;;;78;;;;1.15;Dry combustion;;;52;1:2.5 water;;;;;;;;;;;;;;;;;;
922;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;RCW+NE;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;2.207;;;;;;;;0.047;Dry combustion;;;1063;1:2.5 water;;;563;;;;;;;;;;;;;;;
923;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;CSS+NE;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;4.23;;;;;;;;0.233;Dry combustion;;;1063;1:2.5 water;;;677;;;;;;;;;;;;;;;
924;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;NE;Organic soil constituant (intentionally incorporated);0;20;;;;Anthroposol arificiel;;;;;1.992;;;;;;;;0.033;Dry combustion;;;112;1:2.5 water;;;577;;;;;;;;;;;;;;;
925;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);1;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;RCW;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;1.97;Dry combustion;;;;;;;;;;;;;;;908;1:2.5 water;;;;;;;;;;;;;;;;;;
926;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);1;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;CSS;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;3.14;Dry combustion;;;;;;;;;;;;;;;907;1:2.5 water;;;;;;;;;;;;;;;;;;
927;10.1016/j.jenvman.2015.05.012;"(Hattab et al.; 2015)";Effect of fresh and mature organic amendments on the phytoremediation of technosols contaminated with high concentrations of trace elements;3 (plot);2 (dynamic);France;D (continental);1;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;NE;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;0.89;Dry combustion;;;;;;;;;;;;;;;934;1:2.5 water;;;;;;;;;;;;;;;;;;
928;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Poland;D (continental);;;;;Urban;;Soil affected by land use;Forests;;Pl-Ch1;Soil;0;3;;;;Anthroposol arificiel;;;;;1.89;;;;;;;;0.11;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;;;;;;;
929;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Poland;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;Pl-Ch2;Soil;0;3;;;;Anthroposol arificiel;;;;;1.72;;;;;;;;0.13;Kjeldahl method;;;8;1:2.5 water;;;;;;;;;;;;;;;;;;
930;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Romania;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;R-Ri1;Soil;0;5;;;;Anthroposol arificiel;;;;;2.85;;;;;;;;0.19;Kjeldahl method;;;8;1:2.5 water;;;;;;;;;;;;;;;;;;
931;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Romania;D (continental);;;;;Urban;;Soil affected by land use;Forests;;R-Ri2;Soil;0;4;;;;Anthroposol arificiel;;;;;0.47;;;;;;;;0.04;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;;;;;;;
932;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Italy;C (temperate);;;;;Urban;;Soil affected by land use;Grasslands;;I-Mi1;Soil;0;5;;;;Anthroposol arificiel;;;;;2.18;;;;;;;;0.79;Kjeldahl method;;;76;1:2.5 water;;;;;;;;;;;;;;;;;;
933;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Italy;C (temperate);;;;;Urban;;Soil affected by land use;Grasslands;;I-Mi2;Soil;0;3;;;;Anthroposol arificiel;;;;;5.46;;;;;;;;0.49;Kjeldahl method;;;66;1:2.5 water;;;;;;;;;;;;;;;;;;
934;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Italy;C (temperate);;;;;Urban;;Soil affected by land use;Forests;;I-Be1;Soil;0;3;;;;Anthroposol arificiel;;;;;5.98;;;;;;;;0.54;Kjeldahl method;;;76;1:2.5 water;;;;;;;;;;;;;;;;;;
935;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Italy;C (temperate);;;;;Urban;;Soil affected by land use;Grasslands;;I-Be2;Soil;0;3;;;;Anthroposol arificiel;;;;;2.74;;;;;;;;0.76;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;;;;;;;
936;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;S-Sa1;Soil;0;6;;;;Anthroposol arificiel;;;;;1.93;;;;;;;;0.15;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;;;;;;;
937;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;S-Sa2;Soil;0;4;;;;Anthroposol arificiel;;;;;4.65;;;;;;;;1.35;Kjeldahl method;;;64;1:2.5 water;;;;;;;;;;;;;;;;;;
938;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Forests;;S-Sa3;Soil;0;6;;;;Anthroposol arificiel;;;;;2.95;;;;;;;;0.63;Kjeldahl method;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
939;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;S-Se1;Soil;0;4;;;;Anthroposol arificiel;;;;;1.21;;;;;;;;0.11;Kjeldahl method;;;76;1:2.5 water;;;;;;;;;;;;;;;;;;
940;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;D (continental);;;;;Urban;;Soil affected by land use;Forests;;S-Av1;Soil;0;5;;;;Anthroposol arificiel;;;;;1.33;;;;;;;;0.11;Kjeldahl method;;;85;1:2.5 water;;;;;;;;;;;;;;;;;;
941;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;D (continental);;;;;Urban;;Soil affected by land use;Grasslands;;S-Av2;Soil;0;6;;;;Anthroposol arificiel;;;;;1.08;;;;;;;;0.08;Kjeldahl method;;;83;1:2.5 water;;;;;;;;;;;;;;;;;;
942;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;C (temperate);;;;;Urban;;Soil affected by land use;Grasslands;;S-Gi1;Soil;0;3;;;;Anthroposol arificiel;;;;;1.51;;;;;;;;0.12;Kjeldahl method;;;8;1:2.5 water;;;;;;;;;;;;;;;;;;
943;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;S-LM1;Soil;0;4;;;;Anthroposol arificiel;;;;;3.04;;;;;;;;0.28;Kjeldahl method;;;76;1:2.5 water;;;;;;;;;;;;;;;;;;
944;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;S-TM1;Soil;0;9;;;;Anthroposol arificiel;;;;;7.75;;;;;;;;2.11;Kjeldahl method;;;71;1:2.5 water;;;;;;;;;;;;;;;;;;
945;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;S-Ba1;Soil;0;3;;;;Anthroposol arificiel;;;;;5.74;;;;;;;;0.4;Kjeldahl method;;;74;1:2.5 water;;;;;;;;;;;;;;;;;;
946;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Spain;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;S-Ba2;Soil;0;5;;;;Anthroposol arificiel;;;;;4.12;;;;;;;;0.31;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;;;;;;;
947;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Portugal;C (temperate);;;;;Urban;;Soil affected by land use;Grasslands;;P-Po1;Soil;0;6;;;;Anthroposol arificiel;;;;;2.53;;;;;;;;0.22;Kjeldahl method;;;75;1:2.5 water;;;;;;;;;;;;;;;;;;
948;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Portugal;C (temperate);;;;;Urban;;Soil affected by land use;Grasslands;;P-Li1;Soil;0;10;;;;Anthroposol arificiel;;;;;3.9;;;;;;;;0.9;Kjeldahl method;;;75;1:2.5 water;;;;;;;;;;;;;;;;;;
949;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Morocco;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;M-Ma1;Soil;0;5;;;;Anthroposol arificiel;;;;;5.78;;;;;;;;0.49;Kjeldahl method;;;74;1:2.5 water;;;;;;;;;;;;;;;;;;
950;10.1007/s11368-014-0983-4;"(Charzy?ski et al.; 2015)";Edifisols-a new soil unit of technogenic soils;4 (territory);2 (dynamic);Senegal;B (dry);;;;;Urban;;Soil affected by land use;Grasslands;;Se-Da1;Soil;0;5;;;;Anthroposol arificiel;;;;;0.41;;;;;;;;0.04;Kjeldahl method;;;85;1:2.5 water;;;;;;;;;;;;;;;;;;
951;10.1007/s11368-014-1008-z;"(Jangorzo et al.; 2015)";Nondestructive monitoring of the effect of biological activity on the pedogenesis of a Technosol;2 (profile);2 (dynamic);;;;;;;Urban;;Soil affected by land use;;;GWC;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;376;;;;;;;;86;1:1 water;;;423;;;;;;;;;;;;;254;;
952;10.1007/s11368-014-1008-z;"(Jangorzo et al.; 2015)";Nondestructive monitoring of the effect of biological activity on the pedogenesis of a Technosol;2 (profile);2 (dynamic);;;;;;;Industrial;;Soil affected by land use;;;TIS;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;94;;;;;;;;9;1:1 water;;;67;;;;;;;;;;;;;49;;
953;10.1007/s11368-014-1008-z;"(Jangorzo et al.; 2015)";Nondestructive monitoring of the effect of biological activity on the pedogenesis of a Technosol;2 (profile);2 (dynamic);;;;;;;Industrial;;No major anthropization;;;PS;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;251;;;;;;;;79;1:1 water;;;46;;;;;;;;;;;;;244;;
954;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Soil affected by land use;;;GSF;Soil;;;;;;Anthroposol arificiel;;;;;5;;;;;;;;;;;;6;;;;;;;;;;;;;;;;;61;;
955;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Constructed soil;;;GT;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;0.7;;;;;;;;;;;;7;;;;;;;;;;;;;;;;;123;;
956;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Constructed soil;;;UT AT ;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;0.3;;;;;;;;;;;;61;;;;;;;;;;;;;;;;;64;;
957;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Constructed soil;;;UT HT Cu;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;0.4;;;;;;;;;;;;62;;;;;;;;;;;;;;;;;73;;
958;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);;;;;Urban;;Constructed soil;;;UT HT Cuh;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;0.8;;;;;;;;;;;;63;;;;;;;;;;;;;;;;;73;;
959;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);0;;;;Urban;;Constructed soil;;;UFT Hu;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;3.6;;;;;;;;;;;;49;;;;;;;;;;;;;;;;;177;;
960;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);0;;;;Urban;;Constructed soil;;;UFT Cu;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;0.3;;;;;;;;;;;;55;;;;;;;;;;;;;;;;;53;;
961;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);10;;;;Urban;;Constructed soil;;;UFT Hu;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;2.3;;;;;;;;;;;;65;;;;;;;;;;;;;;;;;48;;
962;10.1007/s11368-014-0940-2;"(Kulachkova and Mozharova; 2015)";"Generation; sink; and emission of greenhouse gases by urban soils of reclaimed filtration fields";2 (profile);2 (dynamic);Russia;D (continental);10;;;;Urban;;Constructed soil;;;UFT Cu;Soil;;;Technosol;Urbic;;Anthroposol arificiel;;;;;1;;;;;;;;;;;;66;;;;;;;;;;;;;;;;;74;;
963;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;0;20;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;867;;;;;;;;775;;;;;;;;;;;;;5184;;3;;1816;;
964;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;20;38;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;859;;;;;;;;777;;;;;;;;;;;;;6584;;22;;1216;;
965;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;38;47;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;817;;;;;;;;787;;;;;;;;;;;;;5384;;28;;1816;;
966;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;47;60;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;602;;;;;;;;76;;;;;;;;;;;;;5128;;34;;1472;;
967;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;60;90;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;388;;;;;;;;729;;;;;;;;;;;;;4128;;46;;1272;;
968;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;90;115;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;363;;;;;;;;758;;;;;;;;;;;;;5928;;3;;1072;;
969;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 1;Soil;115;150;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;26;;;;;;;;809;;;;;;;;;;;;;3584;;28;;3616;;
970;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;0;18;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;132;;;;;;;;816;;;;;;;;;;;;;3984;;28;;3216;;
971;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;18;27;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;124;;;;;;;;815;;;;;;;;;;;;;2528;;34;;4072;;
972;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;27;40;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;6;;;;;;;;818;;;;;;;;;;;;;1984;;38;;4216;;
973;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;40;65;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;17;;;;;;;;784;;;;;;;;;;;;;2384;;68;;816;;
974;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;65;100;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;17;;;;;;;;782;;;;;;;;;;;;;7584;;14;;1016;;
975;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;100;150;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;41;;;;;;;;775;;;;;;;;;;;;;7328;;16;;1072;;
976;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 2;Soil;150;200;Gypsisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;5;;;;;;;;758;;;;;;;;;;;;;20;;2128;;5872;;
977;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 3;Soil;0;18;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;1065;;;;;;;;697;;;;;;;;;;;;;6984;;18;;1216;;
978;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 3;Soil;18;30;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;617;;;;;;;;771;;;;;;;;;;;;;6384;;26;;1016;;
979;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 3;Soil;30;70;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;542;;;;;;;;781;;;;;;;;;;;;;5984;;28;;1216;;
980;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 3;Soil;70;120;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;276;;;;;;;;805;;;;;;;;;;;;;5128;;38;;1072;;
981;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 4;Soil;0;10;Fluvisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;96;;;;;;;;755;;;;;;;;;;;;;8384;;4;;1216;;
982;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 4;Soil;10;28;Fluvisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;745;;;;;;;;788;;;;;;;;;;;;;36;;5328;;1072;;
983;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 4;Soil;28;43;Fluvisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;8;;;;;;;;78;;;;;;;;;;;;;2728;;4;;3272;;
984;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 4;Soil;43;70;Fluvisol;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;882;;;;;;;;772;;;;;;;;;;;;;3928;;42;;1827;;
985;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 5;Soil;0;20;;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;5;;;;;;;;796;;;;;;;;;;;;;3128;;36;;3272;;
986;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 5;Soil;20;40;;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;17;;;;;;;;81;;;;;;;;;;;;;2528;;66;;872;;
987;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 5;Soil;40;67;;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;8;;;;;;;;857;;;;;;;;;;;;;1928;;52;;2872;;
988;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 5;Soil;67;120;;;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;8;;;;;;;;851;;;;;;;;;;;;;1984;;38;;4216;;
989;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 6;Soil;0;5;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;1205;;;;;;;;671;;;;;;;;;;;;;8984;;2;;816;;
990;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 6;Soil;5;25;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;866;;;;;;;;747;;;;;;;;;;;;;7128;;18;;1072;;
991;;"(Heidari and Asadi; 2015)";Micromorphological Characteristics of Polluted Soils in Tehran Petroleum Refinery;2 (profile);1 (static);Iran;B (dry);;;;;Industrial;;Soil affected by land use;;;Pedon 6;Soil;25;70;Technosol;Linic;;Anthroposol arificiel;;;;;;Chromic acid titration (Walkley-Black);;;845;;;;;;;;761;;;;;;;;;;;;;4984;;4;;1016;;
992;10.1016/j.geoderma.2015.01.007;"(Zornoza et al.; 2015)";Main factors controlling microbial community structure and function after reclamation of tailing pond with aided phytostabilization;3 (plot);2 (dynamic);Spain;B (dry);;18;275;;;;Soil with anthropogenic constituants incorporated;Bare;;Pig slurry;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;1.78;Dry combustion;;;;;;;0.51;Dry combustion;;;78;1:5 water;;;;;;;;;;;;;;;;;;
993;10.1016/j.geoderma.2015.01.007;"(Zornoza et al.; 2015)";Main factors controlling microbial community structure and function after reclamation of tailing pond with aided phytostabilization;3 (plot);2 (dynamic);Spain;B (dry);;18;275;;;;Soil with anthropogenic constituants incorporated;Bare;;Pig slurry;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;17.1;Dry combustion;;;;;;;1.36;Dry combustion;;;91;1:5 water;;;;;;;;;;;;;;;;;;
994;10.1016/j.geoderma.2015.01.007;"(Zornoza et al.; 2015)";Main factors controlling microbial community structure and function after reclamation of tailing pond with aided phytostabilization;3 (plot);2 (dynamic);Spain;B (dry);;18;275;;;;Soil with anthropogenic constituants incorporated;Bare;;Marble waste;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;Dry combustion;;;;;;;;;;;8;1:5 water;;;;;;;;;;;;;;;;;;
995;10.1016/j.geoderma.2015.01.007;"(Zornoza et al.; 2015)";Main factors controlling microbial community structure and function after reclamation of tailing pond with aided phytostabilization;3 (plot);2 (dynamic);Spain;B (dry);;18;275;;;;Soil with anthropogenic constituants incorporated;;;UTS;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;;;;0.05;Dry combustion;;;;;;;0.019;Dry combustion;;;335;1:5 water;;;;;;;;;;;;;;;;;;
996;10.1016/j.geoderma.2015.01.007;"(Zornoza et al.; 2015)";Main factors controlling microbial community structure and function after reclamation of tailing pond with aided phytostabilization;3 (plot);2 (dynamic);Spain;B (dry);;18;275;;;;Soil with anthropogenic constituants incorporated;;;ATS;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;;;;0.34;Dry combustion;;;;;;;0.035;Dry combustion;;;726;1:5 water;;;;;;;;;;;;;;;;;;
997;10.1016/j.geoderma.2015.01.007;"(Zornoza et al.; 2015)";Main factors controlling microbial community structure and function after reclamation of tailing pond with aided phytostabilization;3 (plot);2 (dynamic);Spain;B (dry);;18;275;;;;Soil with anthropogenic constituants incorporated;;;NS;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;;;;;2.66;Dry combustion;;;;;;;0.24;Dry combustion;;;845;1:5 water;;;;;;;;;;;;;;;;;;
998;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);United States;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;Grasslands;;;Soil;;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
999;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);Germany;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1000;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);Germany;;;;;;Mining;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1001;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);Russia;D (continental);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1002;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);France;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;Grasslands;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1003;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);United States;B (dry);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1004;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);Germany;;;;;;Mining;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1005;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);Brazil;A (tropical);;;;;Mining;;Soil with anthropogenic constituants incorporated;Shrublands;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1006;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);France;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1007;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);France;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;Shrublands;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1008;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);Belgium;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1009;10.1097/SS.0000000000000135;"(Huot et al.; 2015)";Pedogenetic Trends in Soils Formed in Technogenic Parent Materials;4 (territory);1 (static);France;C (temperate);;;;;Industrial;;Soil with anthropogenic constituants incorporated;Shrublands;;;Soil;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1010;10.1007/s11368-014-1014-1;"(Abel et al.; 2015)";Pools of sulfur in urban rubble soils;2 (profile);1 (static);Germany;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;Garden;;Ah;Soil;;;;;;Anthroposol arificiel;2.32;;;7;;;;;;;;;;;;;73;;;4;;;;;;;;;Lazer diffraction method;;;;;;;
1011;10.1007/s11368-014-1014-1;"(Abel et al.; 2015)";Pools of sulfur in urban rubble soils;2 (profile);1 (static);Germany;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;yC1;Soil;;;;;;Anthroposol arificiel;1.56;;;4;;;;;;;;;;;;;76;;;7;;;;;;;;;Lazer diffraction method;;;;;;;
1012;10.1007/s11368-014-1014-1;"(Abel et al.; 2015)";Pools of sulfur in urban rubble soils;2 (profile);1 (static);Germany;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;yC2;Soil;;;;;;Anthroposol arificiel;2.29;;;6;;;;;;;;;;;;;81;;;8;;;;;;;;;Lazer diffraction method;;;;;;;
1013;10.1007/s11368-014-1014-1;"(Abel et al.; 2015)";Pools of sulfur in urban rubble soils;2 (profile);1 (static);Germany;D (continental);;;;;Urban;;Soil with anthropogenic constituants incorporated;;;yC3;Soil;;;;;;Anthroposol arificiel;1.79;;;8;;;;;;;;;;;;;81;;;15;;;;;;;;;Lazer diffraction method;;;;;;;
1014;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Grasslands;;Meadow;Soil;85;85;Technosol;;;Anthroposol arch‚ologique;;;;;4.1*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1015;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Grasslands;;Meadow;Soil;31;31;Technosol;;;Anthroposol arch‚ologique;;;;;0.6*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1016;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Grasslands;;Meadow;Soil;575;575;Technosol;;;Anthroposol arch‚ologique;;;;;0.4*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1017;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Grasslands;;Meadow;Soil;85;85;Technosol;;;Anthroposol arch‚ologique;;;;;#VALEUR!;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1018;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Grasslands;;Meadow;Soil;235;235;Technosol;;;Anthroposol arch‚ologique;;;;;#VALEUR!;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1019;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Forest;Soil;55;55;Technosol;;;Anthroposol arch‚ologique;;;;;4.6*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1020;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Forest;Soil;23;23;Technosol;;;Anthroposol arch‚ologique;;;;;#VALEUR!;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1021;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Forest;Soil;525;525;Technosol;;;Anthroposol arch‚ologique;;;;;#VALEUR!;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1022;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Forest;Soil;85;85;Technosol;;;Anthroposol arch‚ologique;;;;;#VALEUR!;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1023;10.1007/s11368-014-1020-3;"(Scholtus et al.; 2015)";Expected evolution of a Technosol derived from excavated Callovo-Oxfordian clay material;2 (profile);2 (dynamic);France;C (temperate);;;;;Archeological;;Soil with anthropogenic constituants incorporated;Forests;;Forest;Soil;235;235;Technosol;;;Anthroposol arch‚ologique;;;;;0.5*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1024;;"(Dinuca and Tarziu; 2015)";FOREST RE-CULTIVATION OF STERILE DUMPS AS A RESULT OF LIGNITE EXPLOITATION ON DAY;0 (no particular approach);2 (dynamic);Romania;D (continental);;10.2;753;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol reconstitu‚;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1025;;"(Dinuca and Tarziu; 2015)";FOREST RE-CULTIVATION OF STERILE DUMPS AS A RESULT OF LIGNITE EXPLOITATION ON DAY;0 (no particular approach);2 (dynamic);Romania;D (continental);;10.2;753;;Industrial;;Soil with anthropogenic constituants incorporated;Crops;;;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol reconstitu‚;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1026;10.1016/j.ecoleng.2014.05.003;"(Ondo¤o et al.; 2014)";Microbiological and biochemical properties of artificial substrates: A preliminary study of its application as Technosols or as a basis in Green Roof Systems;2 (profile);2 (dynamic);Spain;B (dry);;;;;;;Soil with anthropogenic constituants incorporated;;;Soil;Soil;;;Calcisol;;;Anthroposol arificiel;6.45;Dry combustion;;;0.96;Dry combustion;;;;;;;0.08;Dry combustion;;;785;1:10 water;;;;;;;0.97;Cylinder method;;;;;;;;;;
1027;10.1016/j.ecoleng.2014.05.003;"(Ondo¤o et al.; 2014)";Microbiological and biochemical properties of artificial substrates: A preliminary study of its application as Technosols or as a basis in Green Roof Systems;2 (profile);2 (dynamic);Spain;B (dry);;;;;;;Soil with anthropogenic constituants incorporated;;;Compost;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;24.57;Dry combustion;;;23.08;Dry combustion;;;;;;;2.05;Dry combustion;;;774;1:10 water;;;;;;;0.55;Cylinder method;;;;;;;;;;
1028;10.1016/j.ecoleng.2014.05.003;"(Ondo¤o et al.; 2014)";Microbiological and biochemical properties of artificial substrates: A preliminary study of its application as Technosols or as a basis in Green Roof Systems;2 (profile);2 (dynamic);Spain;B (dry);;;;;;;Soil with anthropogenic constituants incorporated;;;C+Bricks 20:80;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;4.88;Dry combustion;;;4.62;Dry combustion;;;;;;;0.38;Dry combustion;;;808;1:10 water;;;;;;;0.98;Cylinder method;;;;;;;;;;
1029;10.1016/j.ecoleng.2014.05.003;"(Ondo¤o et al.; 2014)";Microbiological and biochemical properties of artificial substrates: A preliminary study of its application as Technosols or as a basis in Green Roof Systems;2 (profile);2 (dynamic);Spain;B (dry);;;;;;;Soil with anthropogenic constituants incorporated;;;C+Bricks 50:50;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;12.23;Dry combustion;;;11.6;Dry combustion;;;;;;;0.99;Dry combustion;;;809;1:10 water;;;;;;;0.84;Cylinder method;;;;;;;;;;
1030;10.1016/j.ecoleng.2014.05.003;"(Ondo¤o et al.; 2014)";Microbiological and biochemical properties of artificial substrates: A preliminary study of its application as Technosols or as a basis in Green Roof Systems;2 (profile);2 (dynamic);Spain;B (dry);;;;;;;Soil with anthropogenic constituants incorporated;;;C+Soil 20:80;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;10.02;Dry combustion;;;5.4;Dry combustion;;;;;;;0.5;Dry combustion;;;795;1:10 water;;;;;;;0.98;Cylinder method;;;;;;;;;;
1031;10.1016/j.ecoleng.2014.05.003;"(Ondo¤o et al.; 2014)";Microbiological and biochemical properties of artificial substrates: A preliminary study of its application as Technosols or as a basis in Green Roof Systems;2 (profile);2 (dynamic);Spain;B (dry);;;;;;;Soil with anthropogenic constituants incorporated;;;C+Soil 50:50;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;15.48;Dry combustion;;;12.01;Dry combustion;;;;;;;1.11;Dry combustion;;;793;1:10 water;;;;;;;0.81;Cylinder method;;;;;;;;;;
1032;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Crops;;Maritsa-Iztok Apk;Soil;0;30;Technosol;;;Anthroposol arificiel;;;;;2.04;Dry combustion;;;;;;;;;;;725;;;;;BaCl2 0.1M extraction;;;;;;;;176;;369;;455;;
1033;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Crops;;Maritsa-Iztok Ccc1;Soil;30;50;Technosol;;;Anthroposol arificiel;;;;;0.75;Dry combustion;;;;;;;;;;;775;;;;;BaCl2 0.1M extraction;;;;;;;;365;;263;;372;;
1034;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Crops;;Maritsa-Iztok Ccc2;Soil;50;70;Technosol;;;Anthroposol arificiel;;;;;0.34;Dry combustion;;;;;;;;;;;725;;;;;BaCl2 0.1M extraction;;;;;;;;318;;285;;398;;
1035;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Crops;;Maritsa-Iztok Ccc3;Soil;70;100;Technosol;;;Anthroposol arificiel;;;;;0.23;Dry combustion;;;;;;;;;;;73;;;;;BaCl2 0.1M extraction;;;;;;;;298;;307;;395;;
1036;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Maritsa-Iztok Ack;Soil;0;25;Technosol;;;Anthroposol arificiel;;;;;2.54;Dry combustion;;;;;;;;;;;61;;;;;BaCl2 0.1M extraction;;;;;;;;784;;215;;707;;
1037;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Maritsa-Iztok Cccg1;Soil;25;70;Technosol;;;Anthroposol arificiel;;;;;1.46;Dry combustion;;;;;;;;;;;595;;;;;BaCl2 0.1M extraction;;;;;;;;809;;113;;806;;
1038;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Maritsa-Iztok Cccg2;Soil;70;100;Technosol;;;Anthroposol arificiel;;;;;1.28;Dry combustion;;;;;;;;;;;58;;;;;BaCl2 0.1M extraction;;;;;;;;168;;175;;657;;
1039;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Maritsa-Iztok Cccg3;Soil;;;Technosol;;;Anthroposol arificiel;;;;;0.97;Dry combustion;;;;;;;;;;;6;;;;;BaCl2 0.1M extraction;;;;;;;;605;;266;;674;;
1040;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Zapad AC;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;1.69;Dry combustion;;;;;;;;;;;625;;;;;BaCl2 0.1M extraction;;;;;;;;493;;414;;94;;
1041;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Zapad C;Soil;5;22;Technosol;;;Anthroposol arificiel;;;;;0.62;Dry combustion;;;;;;;;;;;645;;;;;BaCl2 0.1M extraction;;;;;;;;508;;37;;124;;
1042;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Zapad Cgk1;Soil;22;52;Technosol;;;Anthroposol arificiel;;;;;0.69;Dry combustion;;;;;;;;;;;755;;;;;BaCl2 0.1M extraction;;;;;;;;302;;479;;22;;
1043;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Zapad Cgk2;Soil;52;74;Technosol;;;Anthroposol arificiel;;;;;0.64;Dry combustion;;;;;;;;;;;77;;;;;BaCl2 0.1M extraction;;;;;;;;427;;426;;148;;
1044;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Zapad Cg1;Soil;74;100;Technosol;;;Anthroposol arificiel;;;;;0.49;Dry combustion;;;;;;;;;;;75;;;;;BaCl2 0.1M extraction;;;;;;;;448;;436;;118;;
1045;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Zapad Cg2;Soil;;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;755;;;;;BaCl2 0.1M extraction;;;;;;;;574;;354;;735;;
1046;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Mlada gvardia C1;Soil;0;35;Technosol;;;Anthroposol arificiel;;;;;2.28;Dry combustion;;;;;;;;;;;45;;;;;BaCl2 0.1M extraction;;;;;;;;347;;554;;1;;
1047;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Mlada gvardia C2;Soil;35;60;Technosol;;;Anthroposol arificiel;;;;;4.57;Dry combustion;;;;;;;;;;;44;;;;;BaCl2 0.1M extraction;;;;;;;;16;;641;;2;;
1048;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;E (polar);;;;;Mining;;Soil affected by land use;Forests;;Mlada gvardia Cg;Soil;60;90;Technosol;;;Anthroposol arificiel;;;;;5.21;Dry combustion;;;;;;;;;;;44;;;;;BaCl2 0.1M extraction;;;;;;;;206;;603;;19;;
1049;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;D (continental);;;;;Mining;;Soil affected by land use;Forests;;Assarel Medet AC;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;0.88;Dry combustion;;;;;;;;;;;63;;;;;BaCl2 0.1M extraction;;;;;;;;899;;84;;173;;
1050;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;D (continental);;;;;Mining;;Soil affected by land use;Forests;;Assarel Medet 1C;Soil;5;25;Technosol;;;Anthroposol arificiel;;;;;0.24;Dry combustion;;;;;;;;;;;6;;;;;BaCl2 0.1M extraction;;;;;;;;82;;15;;3;;
1051;10.1016/j.gexplo.2014.02.019;"(Tsolova et al.; 2014)";"Pb; Cu and Zn geochemistry in reclaimed soils (Technosols) of Bulgaria";2 (profile);1 (static);Bulgaria;D (continental);;;;;Mining;;Soil affected by land use;Forests;;Assarel Medet 2C;Soil;25;70;Technosol;;;Anthroposol arificiel;;;;;0.42;Dry combustion;;;;;;;;;;;34;;;;;BaCl2 0.1M extraction;;;;;;;;837;;133;;3;;
1052;10.1021/es5002874;"(Houben et al.; 2014)";Impact of Root-Induced Mobilization of Zinc on Stable Zn Isotope Variation in the Soil-Plant System;2 (profile);2 (dynamic);Belgium;C (temperate);;;;;Industrial;;Soil with anthropogenic constituants incorporated;Bare;;Sclaigneaux;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1053;10.1021/es5002874;"(Houben et al.; 2014)";Impact of Root-Induced Mobilization of Zinc on Stable Zn Isotope Variation in the Soil-Plant System;2 (profile);2 (dynamic);Belgium;C (temperate);;;;;Industrial;;Soil with anthropogenic constituants incorporated;Bare;;Angleur;Inorganic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1054;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 1;Soil;0;18;Technosol;;;Anthroposol arificiel;;Dry combustion;;;10.8;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1055;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 2;Soil;18;26;Technosol;;;Anthroposol arificiel;;Dry combustion;;;3.45;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1056;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 3;Soil;42;55;Technosol;;;Anthroposol arificiel;;Dry combustion;;;1.41;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1057;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 4;Soil;65;68;Technosol;;;Anthroposol arificiel;;Dry combustion;;;5.33;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1058;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 5;Soil;68;82;Technosol;;;Anthroposol arificiel;;Dry combustion;;;0.44;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1059;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 6;Soil;82;91;Technosol;;;Anthroposol arificiel;;Dry combustion;;;0.47;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1060;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 7;Soil;93;112;Technosol;;;Anthroposol arificiel;;Dry combustion;;;0.47;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1061;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 8;Soil;112;134;Technosol;;;Anthroposol arificiel;;Dry combustion;;;0.49;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1062;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 9;Soil;135;150;Technosol;;;Anthroposol arificiel;;Dry combustion;;;1.35;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1063;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 10;Soil;150;165;Technosol;;;Anthroposol arificiel;;Dry combustion;;;1.66;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1064;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 11;Soil;165;180;Technosol;;;Anthroposol arificiel;;Dry combustion;;;5.88;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1065;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";A Technosol as archives of organic matter related to past industrial activities;2 (profile);2 (dynamic);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 12;Soil;;;Technosol;;;Anthroposol arificiel;;Dry combustion;;;3.23;Total carbon - inorganic carbon;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1066;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 1;Soil;0;18;Technosol;;;Anthroposol arificiel;14;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1067;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 2;Soil;18;26;Technosol;;;Anthroposol arificiel;4;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1068;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 3;Soil;42;55;Technosol;;;Anthroposol arificiel;3.5;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1069;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 4;Soil;65;68;Technosol;;;Anthroposol arificiel;9.5;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1070;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 5;Soil;68;62;Technosol;;;Anthroposol arificiel;1.9;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1071;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 6;Soil;82;91;Technosol;;;Anthroposol arificiel;2.8;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1072;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 7;Soil;93;112;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1073;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 8;Soil;112;134;Technosol;;;Anthroposol arificiel;4;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1074;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 9;Soil;135;150;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1075;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 10;Soil;150;165;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1076;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 11;Soil;165;180;Technosol;;;Anthroposol arificiel;9.2;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1077;10.1016/j.scitotenv.2014.04.047;"(Huot et al.; 2014)";Early transformation and transfer processes in a Technosol developing on iron industry deposits;2 (profile);1 (static);France;C (temperate);;;;;Industrial;;Soil affected by land use;Forests;;Layer 12;Soil;;;Technosol;;;Anthroposol arificiel;5.9;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1078;10.1016/j.ecoleng.2014.03.020;"(Mac¡a et al.; 2014)";Technosols as a novel valorization strategy for an ecological management of dredged marine sediments;1 (aggregate);1 (static);Spain;C (temperate);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;Dredged sediment;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;7.1;Dry combustion;;;;;;;87;;;;0.5;Dry combustion;;;78;1:5 water;;;;;;;;;;;;;;;;;;
1079;10.1016/j.ecoleng.2014.03.020;"(Mac¡a et al.; 2014)";Technosols as a novel valorization strategy for an ecological management of dredged marine sediments;1 (aggregate);1 (static);Spain;C (temperate);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;Sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;55.4;Dry combustion;;;;;;;845;;;;5.1;Dry combustion;;;62;1:5 water;;;;;;;;;;;;;;;;;;
1080;10.1016/j.ecoleng.2014.03.020;"(Mac¡a et al.; 2014)";Technosols as a novel valorization strategy for an ecological management of dredged marine sediments;1 (aggregate);1 (static);Spain;C (temperate);;;;;Industrial;;Soil with anthropogenic constituants incorporated;;;Wood chips;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;46.5;Dry combustion;;;;;;;517;;;;0.5;Dry combustion;;;598;1:5 water;;;;;;;;;;;;;;;;;;
1081;10.1016/j.ecoleng.2014.03.020;"(Mac¡a et al.; 2014)";Technosols as a novel valorization strategy for an ecological management of dredged marine sediments;1 (aggregate);1 (static);Spain;C (temperate);;;;;Industrial;;Constructed soil;;;Technosol;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;13.4;Dry combustion;;;;;;;188;;;;1.4;Dry combustion;;;74;1:5 water;;;;;;;;;;;;;;;;;;
1082;10.1016/j.ecoleng.2014.03.039;"(Pey et al.; 2014)";Technosol composition affect Lumbricus terrestris surface cast composition and production;1 (aggregate);2 (dynamic);;;;;;;;;Constructed soil;;;GWC;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol construit;23.4;Dry combustion;;;17.6;;;;304;;;;1.06;;;;841;;;;;;;;0.45;;;;;472;;;;202;;
1083;10.1016/j.ecoleng.2014.03.039;"(Pey et al.; 2014)";Technosol composition affect Lumbricus terrestris surface cast composition and production;1 (aggregate);2 (dynamic);;;;;;;;;Constructed soil;;;TIS/PS;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol construit;13.4;Dry combustion;;;8.52;;;;147;;;;0.223;;;;825;;;;;;;;0.86;;;;;625;;;;113;;
1084;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH1 95;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;6;Loss on ignition;;;;;;;69;1:5 water;;;;;;;;;;;Lazer diffraction method;;;;;;;
1085;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH2 95;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;6;Loss on ignition;;;;;;;65;1:5 water;;;;;;;;;;;;;;;;;;
1086;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH3 95;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;14;Loss on ignition;;;;;;;68;1:5 water;;;;;;;;;;;;;;;;;;
1087;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH1 03;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1088;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH2 03;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1089;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH3 03;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1090;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH1 06;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;8;Dry combustion;;;12;Loss on ignition;;;;;;;79;1:5 water;;;;;;;;;;;;;;;;;;
1091;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH2 06;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;8;Dry combustion;;;14;Loss on ignition;;;;;;;75;1:5 water;;;;;;;;;;;;;;;;;;
1092;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH3 06;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;9;Dry combustion;;;14;Loss on ignition;;;;;;;72;1:5 water;;;;;;;;;;;;;;;;;;
1093;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;P1 07;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;12;Loss on ignition;;;;;;;;;;;;;;;;;;;;;;;;;;
1094;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH1 11;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;8;Dry combustion;;;9;Loss on ignition;;;;;;;75;1:5 water;;;;;;;;;;;;;;;;;;
1095;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH2 11;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;11;Dry combustion;;;12;Loss on ignition;;;;;;;67;1:5 water;;;;;;;;;;;;;;;;;;
1096;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;C (temperate);;;;;Urban;;Soil affected by land use;;;CH3 11;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;16;Dry combustion;;;18;Loss on ignition;;;;;;;63;1:5 water;;;;;;;;;;;;;;;;;;
1097;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;A 05;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;32;Dry combustion;;;17;Loss on ignition;;;;;;;71;1:5 water;;;;;;;;;;;Lazer diffraction method;;;;;;;
1098;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;B 05;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;15;Dry combustion;;;13;Loss on ignition;;;;;;;73;1:5 water;;;;;;;;;;;;;;;;;;
1099;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;C 05;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;59;Dry combustion;;;14;Loss on ignition;;;;;;;76;1:5 water;;;;;;;;;;;;;;;;;;
1100;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;C 07;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;40;Dry combustion;;;10;Loss on ignition;;;;;;;73;1:5 water;;;;;;;;;;;;;;;;;;
1101;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;A 12;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;11;Loss on ignition;;;;;;;;;;;;;;;;;;;;;;;;;;
1102;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;B 12;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1103;10.1007/s11356-013-2490-3;"(El-Mufleh et al.; 2014)";Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS);0 (no particular approach);2 (dynamic);France;D (continental);;;;;Industrial;;Soil affected by land use;;;C 12;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1104;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;Z;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;63;;;;0.03;;;;83;;;;;;;;;;;;;686;;16;;154;;
1105;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;D ;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;37;;;;0.02;;;;89;;;;;;;;;;;;;5263;;26;;2137;;
1106;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;Z0;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.4*;Cylinder method;;;;;;;;;;
1107;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;D0;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.5*;Cylinder method;;;;;;;;;;
1108;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;(Z+D)0;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.6*;Cylinder method;;;;;;;;;;
1109;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;D3;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.4*;Cylinder method;;;;;;;;;;
1110;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;D9;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.3*;Cylinder method;;;;;;;;;;
1111;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;(Z+D)3;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.4*;Cylinder method;;;;;;;;;;
1112;;"(Jord n et al.; 2014)";BULK DENSITY AND AGGREGATE STABILITY IN TECHNOSOLS DESIGNED FOR ECOLOGICAL RESTORATION OF EXTRACTIVE ACTIVITIES;1 (aggregate);1 (static);;;;;;;Mining;;Soil affected by land use;;;(Z+D)9;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;1.2*;Cylinder method;;;;;;;;;;
1113;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;420;Mining;;Soil affected by land use;Shrublands;;OPW Profile 1 C1;Organic soil constituant (intentionally incorporated);0;60;Technosol;Spolic;;Anthroposol arificiel;;;;;0.2;;;;;;;;;;;;36;;;;;;;;1.3;;;;;55;;28;;17;;
1114;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;420;Mining;;Soil affected by land use;Shrublands;;OPW Profile 1 C2;Organic soil constituant (intentionally incorporated);60;100;Technosol;Spolic;;Anthroposol arificiel;;;;;0.2;;;;;;;;;;;;31;;;;;;;;1.4;;;;;52;;31;;17;;
1115;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;451;Mining;;Soil affected by land use;Grasslands;;OPW Profile 2 C1;Organic soil constituant (intentionally incorporated);0;65;Technosol;Spolic;;Anthroposol arificiel;;;;;0.2;;;;;;;;;;;;43;;;;;;;;1.2;;;;;57;;26;;17;;
1116;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;451;Mining;;Soil affected by land use;Grasslands;;OPW Profile 2 C2;Organic soil constituant (intentionally incorporated);65;100;Technosol;Spolic;;Anthroposol arificiel;;;;;0.8;;;;;;;;;;;;55;;;;;;;;1.2;;;;;62;;23;;15;;
1117;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;366;Mining;;Soil affected by land use;;;PFT Profile 3 C1;Organic soil constituant (intentionally incorporated);0;15;Technosol;Spolic;;Anthroposol arificiel;;;;;0.2;;;;;;;;;;;;35;;;;;;;;1.1;;;;;82;;5;;13;;
1118;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;366;Mining;;Soil affected by land use;;;PFT Profile 3 A;Organic soil constituant (intentionally incorporated);15;60;Technosol;Spolic;;Anthroposol arificiel;;;;;0.4;;;;;;;;;;;;42;;;;;;;;1.3;;;;;40;;35;;25;;
1119;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;366;Mining;;Soil affected by land use;;;PFT Profile 3 C2;Organic soil constituant (intentionally incorporated);60;100;Technosol;Spolic;;Anthroposol arificiel;;;;;0.1;;;;;;;;;;;;38;;;;;;;;1.3;;;;;45;;36;;18;;
1120;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;368;Mining;;Soil affected by land use;Grasslands;;PFT Profile 4 A;Organic soil constituant (intentionally incorporated);0;45;Technosol;Spolic;;Anthroposol arificiel;;;;;0.6;;;;;;;;;;;;42;;;;;;;;1.2;;;;;53;;21;;26;;
1121;10.4067/S0718-95162014005000013  ;"(Lili? et al.; 2014)";"Pedological characteristics of open-pit Cu wastes and post-flotation tailings (Bor; Serbia)";2 (profile);1 (static);Serbia;D (continental);;11;550;368;Mining;;Soil affected by land use;Grasslands;;PFT Profile 4 C;Organic soil constituant (intentionally incorporated);45;100;Technosol;Spolic;;Anthroposol arificiel;;;;;0.1;;;;;;;;;;;;38;;;;;;;;1.3;;;;;84;;8;;8;;
1122;10.1155/2014/506392;"(Novo and Gonz lez; 2014)";Germination and Early Growth of Brassica juncea in Copper Mine Tailings Amended with Technosol and Compost;0 (no particular approach);1 (static);Spain;C (temperate);;;;;Mining;;Soil affected by land use;;;PS;Soil;;;;;;Anthroposol arificiel;;;;;;;;;3;;;;0.11;;;;256;;;;;;;;;;;;;;;;;;;
1123;10.1155/2014/506392;"(Novo and Gonz lez; 2014)";Germination and Early Growth of Brassica juncea in Copper Mine Tailings Amended with Technosol and Compost;0 (no particular approach);1 (static);Spain;C (temperate);;;;;;;Constructed soil;;;TE25;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol reconstitu‚;;;;;;;;;545;;;;0.47;;;;524;;;;;;;;;;;;;;;;;;;
1124;10.1155/2014/506392;"(Novo and Gonz lez; 2014)";Germination and Early Growth of Brassica juncea in Copper Mine Tailings Amended with Technosol and Compost;0 (no particular approach);1 (static);Spain;C (temperate);;;;;;;Constructed soil;;;TE50;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol reconstitu‚;;;;;;;;;1066;;;;0.79;;;;642;;;;;;;;;;;;;;;;;;;
1125;10.1155/2014/506392;"(Novo and Gonz lez; 2014)";Germination and Early Growth of Brassica juncea in Copper Mine Tailings Amended with Technosol and Compost;0 (no particular approach);1 (static);Spain;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;;;CO30;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol reconstitu‚;;;;;;;;;1885;;;;0.97;;;;55;;;;;;;;;;;;;;;;;;;
1126;10.1016/j.mineng.2013.07.004;"(Novo et al.; 2013)";The use of waste-derived amendments to promote the growth of Indian mustard in copper mine tailings;0 (no particular approach);2 (dynamic);Spain;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;;;TE;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;201;;;;1.41;;;;667;;;;;;;;;;;;;;;;;;;
1127;10.1016/j.mineng.2013.07.004;"(Novo et al.; 2013)";The use of waste-derived amendments to promote the growth of Indian mustard in copper mine tailings;0 (no particular approach);2 (dynamic);Spain;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;;;CO;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;515;;;;2.85;;;;784;;;;;;;;;;;;;;;;;;;
1128;10.1016/j.catena.2013.05.012;"(Paradelo and Barral; 2013)";Influence of organic matter and texture on the compactability of Technosols;1 (aggregate);1 (static);Spain;C (temperate);;;;;Archeological;;Soil affected by land use;;;Quartz sand;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;57;1:2.5 water;;;;;;;;;;;Pipette method;85;;7;;8;;
1129;10.1016/j.catena.2013.05.012;"(Paradelo and Barral; 2013)";Influence of organic matter and texture on the compactability of Technosols;1 (aggregate);1 (static);Spain;C (temperate);;;;;Archeological;;Soil affected by land use;;;Slate processing fines;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;84;1:2.5 water;;;;;;;;;;;Pipette method;11;;78;;11;;
1130;10.1016/j.catena.2013.05.012;"(Paradelo and Barral; 2013)";Influence of organic matter and texture on the compactability of Technosols;1 (aggregate);1 (static);Spain;C (temperate);;;;;Archeological;;Soil affected by land use;;;Bentonite;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;103;1:2.5 water;;;;;;;;;;;Pipette method;7;;2;;73;;
1131;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A1;Soil;90;120;;;;Anthroposol arch‚ologique;;;;;0.24;;;;;;;;0.039;Kjeldahl method;;;55;1:2.5 water;;;;;;;;;;;;544;;284;;172;;
1132;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;C;Soil;120;165;;;;Anthroposol arch‚ologique;;;;;0.27;;;;;;;;0.035;Kjeldahl method;;;88;1:2.5 water;;;;;;;;;;;;587;;264;;149;;
1133;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;165;190;;;;Anthroposol arch‚ologique;;;;;0.31;;;;;;;;0.05;Kjeldahl method;;;82;1:2.5 water;;;;;;;;;;;;371;;453;;172;;
1134;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A/C;Soil;190;215;;;;Anthroposol arch‚ologique;;;;;0.35;;;;;;;;0.047;Kjeldahl method;;;76;1:2.5 water;;;;;;;;;;;;364;;45;;182;;
1135;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;C/D;Soil;215;225;;;;Anthroposol arch‚ologique;;;;;0.07;;;;;;;;0.028;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;508;;391;;101;;
1136;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;225;250;;;;Anthroposol arch‚ologique;;;;;0.22;;;;;;;;0.044;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;435;;405;;16;;
1137;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;250;260;;;;Anthroposol arch‚ologique;;;;;0.39;;;;;;;;0.053;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;302;;549;;149;;
1138;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;B;Soil;260;270;;;;Anthroposol arch‚ologique;;;;;0.38;;;;;;;;0.051;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;24;;641;;119;;
1139;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;270;285;;;;Anthroposol arch‚ologique;;;;;0.39;;;;;;;;0.054;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;422;;379;;199;;
1140;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;AC;Soil;285;295;;;;Anthroposol arch‚ologique;;;;;0.44;;;;;;;;0.054;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;376;;41;;214;;
1141;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;295;325;;;;Anthroposol arch‚ologique;;;;;0.39;;;;;;;;0.054;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;373;;454;;173;;
1142;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;325;358;;;;Anthroposol arch‚ologique;;;;;0.39;;;;;;;;0.05;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;435;;41;;155;;
1143;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;C;Soil;358;380;;;;Anthroposol arch‚ologique;;;;;0.31;;;;;;;;0.045;Kjeldahl method;;;72;1:2.5 water;;;;;;;;;;;;44;;415;;145;;
1144;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;380;400;;;;Anthroposol arch‚ologique;;;;;0.58;;;;;;;;0.067;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;383;;379;;238;;
1145;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap1 terric;Soil;410;425;;;;Anthroposol arch‚ologique;;;;;0.51;;;;;;;;0.058;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;445;;366;;189;;
1146;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap2 terric;Soil;425;455;;;;Anthroposol arch‚ologique;;;;;0.59;;;;;;;;0.061;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;403;;402;;195;;
1147;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A1 garbic;Soil;455;480;;;;Anthroposol arch‚ologique;;;;;0.84;;;;;;;;0.054;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;528;;312;;16;;
1148;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A2 garbic;Soil;480;498;;;;Anthroposol arch‚ologique;;;;;0.55;;;;;;;;0.049;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;525;;308;;167;;
1149;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;AC;Soil;498;520;;;;Anthroposol arch‚ologique;;;;;0.46;;;;;;;;0.042;Kjeldahl method;;;82;1:2.5 water;;;;;;;;;;;;586;;267;;127;;
1150;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap technic;Soil;520;545;;;;Anthroposol arch‚ologique;;;;;0.52;;;;;;;;0.046;Kjeldahl method;;;83;1:2.5 water;;;;;;;;;;;;533;;333;;134;;
1151;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;AC;Soil;545;556;;;;Anthroposol arch‚ologique;;;;;0.44;;;;;;;;0.036;Kjeldahl method;;;82;1:2.5 water;;;;;;;;;;;;555;;307;;138;;
1152;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A1 garbic;Soil;556;571;;;;Anthroposol arch‚ologique;;;;;0.43;;;;;;;;0.042;Kjeldahl method;;;83;1:2.5 water;;;;;;;;;;;;661;;199;;14;;
1153;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A2 garbic;Soil;571;585;;;;Anthroposol arch‚ologique;;;;;0.28;;;;;;;;0.037;Kjeldahl method;;;83;1:2.5 water;;;;;;;;;;;;66;;203;;137;;
1154;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;A3 garbic;Soil;585;602;;;;Anthroposol arch‚ologique;;;;;0.91;;;;;;;;0.065;Kjeldahl method;;;82;1:2.5 water;;;;;;;;;;;;648;;208;;144;;
1155;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;C;Soil;602;635;;;;Anthroposol arch‚ologique;;;;;0.11;;;;;;;;0.029;Kjeldahl method;;;84;1:2.5 water;;;;;;;;;;;;65;;244;;106;;
1156;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap;Soil;635;655;;;;Anthroposol arch‚ologique;;;;;0.14;;;;;;;;0.036;Kjeldahl method;;;83;1:2.5 water;;;;;;;;;;;;501;;331;;168;;
1157;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;B;Soil;655;668;;;;Anthroposol arch‚ologique;;;;;0.11;;;;;;;;0.028;Kjeldahl method;;;83;1:2.5 water;;;;;;;;;;;;52;;32;;16;;
1158;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap;Soil;668;703;;;;Anthroposol arch‚ologique;;;;;0.32;;;;;;;;0.044;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;406;;389;;205;;
1159;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;BC;Soil;703;707;;;;Anthroposol arch‚ologique;;;;;0.22;;;;;;;;0.033;Kjeldahl method;;;81;1:2.5 water;;;;;;;;;;;;449;;351;;20;;
1160;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;ApB;Soil;707;725;;;;Anthroposol arch‚ologique;;;;;0.32;;;;;;;;0.046;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;363;;379;;258;;
1161;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;725;755;;;;Anthroposol arch‚ologique;;;;;0.34;;;;;;;;0.055;Kjeldahl method;;;79;1:2.5 water;;;;;;;;;;;;462;;355;;183;;
1162;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;AC;Soil;755;779;;;;Anthroposol arch‚ologique;;;;;0.43;;;;;;;;0.055;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;425;;416;;159;;
1163;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric;Soil;779;802;;;;Anthroposol arch‚ologique;;;;;0.43;;;;;;;;0.064;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;395;;498;;197;;
1164;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;Ap terric B;Soil;802;837;;;;Anthroposol arch‚ologique;;;;;0.49;;;;;;;;0.09;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;297;;638;;65;;
1165;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;BC;Soil;837;855;;;;Anthroposol arch‚ologique;;;;;0.26;;;;;;;;0.053;Kjeldahl method;;;78;1:2.5 water;;;;;;;;;;;;37;;54;;9;;
1166;10.1016/j.jas.2013.04.023;"(Vittori Antisari et al.; 2013)";Chemical characterisation of anthro-technosols from Bronze to Middle Age in Bologna (Italy);2 (profile);1 (static);Italy;C (temperate);;;;;Archeological;;Soil affected by land use;;;C/D;Soil;855;860;;;;Anthroposol arch‚ologique;;;;;;;;;;;;;;;;;7;1:2.5 water;;;;;;;;;;;;552;;359;;89;;
1167;10.1007/s11368-013-0709-z;"(Santini et al.; 2013)";Evaluation of soil analytical methods for the characterization of alkaline Technosols: II. Amorphous constituents and carbonates;0 (no particular approach);1 (static);Guyana;A (tropical);;;;;;;Soil with anthropogenic constituants incorporated;;;;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;Dry combustion;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1168;10.1007/s11368-013-0709-z;"(Santini et al.; 2013)";Evaluation of soil analytical methods for the characterization of alkaline Technosols: II. Amorphous constituents and carbonates;0 (no particular approach);1 (static);Brazil;A (tropical);;;;;;;Soil with anthropogenic constituants incorporated;;;;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;Dry combustion;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1169;10.1007/s11368-013-0709-z;"(Santini et al.; 2013)";Evaluation of soil analytical methods for the characterization of alkaline Technosols: II. Amorphous constituents and carbonates;0 (no particular approach);1 (static);United States;C (temperate);;;;;;;Soil with anthropogenic constituants incorporated;;;;Inorganic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;;Dry combustion;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1170;10.1016/j.geoderma.2013.03.010;"(Pey et al.; 2013)";Structure of earthworm burrows related to organic matter of a constructed Technosol;1 (aggregate);2 (dynamic);France;C (temperate);;;;;;;Constructed soil;;;GWC;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;18.1;;;;314;;;;;;;;842;;;;;;;;;;;;;;;;;;;
1171;10.1016/j.geoderma.2013.03.010;"(Pey et al.; 2013)";Structure of earthworm burrows related to organic matter of a constructed Technosol;1 (aggregate);2 (dynamic);France;C (temperate);;;;;;;Constructed soil;;;TIS/PS;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;;;;;4.03;;;;697;;;;;;;;699;;;;;;;;;;;;;;;;;;;
1172;10.3390/s130505603;"(Saiano et al.; 2013)";"DRIFTS Sensor: Soil Carbon Validation at Large Scale (Pantelleria; Italy)";2 (profile);1 (static);Italy;C (temperate);;18;409;836;;;Soil affected by land use;;;;Soil;;;Technosol;;;Anthroposol arificiel;;Dry combustion;;;;;;;;;;;;Dry combustion;;;;;;;;;;;;;;;;;;;;;;
1173;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL A (without liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1174;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C1 (without liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1175;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C2 (without liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1176;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL A (without liming with plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1177;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C1 (without liming with plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1178;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C2 (without liming with plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1179;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL A (with liming and without plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1180;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C1 (with liming without plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1181;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C2 (with liming without plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1182;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL A (withliming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1183;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C1 (with liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1184;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;HWL C2 (with liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1185;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL A (without liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1186;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C1 (without liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1187;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C2 (without liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1188;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL A (without liming with plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1189;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C1 (without liming with plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1190;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C2 (without liming with plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1191;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL A (with liming and without plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1192;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C1 (with liming without plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1193;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C2 (with liming without plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1194;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL A (withliming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1195;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C1 (with liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1196;10.1016/j.jenvman.2012.11.044;"(Gonz lez-Alcaraz et al.; 2013)";When liming and revegetation contribute to the mobilisation of metals: Learning lessons for the phytomanagement of metal-polluted wetlands;2 (profile);2 (dynamic);Spain;B (dry);;;;;Mining;;Constructed soil;Wetland;;LWL C2 (with liming and plant);Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1197;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil with anthropogenic constituants incorporated;;;Biodeposits of mussels;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;2.9*;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1198;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil with anthropogenic constituants incorporated;;;From cleaning mussel rafts;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1199;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil with anthropogenic constituants incorporated;;;Sewage sludge;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;15.6;;;;;;;;;;;;105;;;;;;;;;;;;;;;;;;;
1200;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil with anthropogenic constituants incorporated;;;Paper mill ashes;Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;;;;;18.8;;;;;;;;;;;;86;;;;;;;;;;;;;;;;;;;
1201;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Soil affected by land use;;;T1;Soil;;;Technosol;Spolic;;Anthroposol arificiel;0.428;;;;;Dry combustion;;;;;;;;;;;271;1:2.5 water;;;;BaCl2 0.1M extraction;;;;;;;Pipette method;;;;;;;
1202;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Constructed soil;;;T2;Organic soil constituant (intentionally incorporated);;;Technosol;Spolic;;Anthroposol arificiel;13.3;;;;11.95;Dry combustion;;;;;;;;;;;495;1:2.5 water;;;;BaCl2 0.1M extraction;;;;;;;Pipette method;;;;;;;
1203;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Constructed soil;;;T3;Organic soil constituant (intentionally incorporated);;;Technosol;Garbic;;Anthroposol arificiel;11.2;;;;9.986;Dry combustion;;;;;;;;;;;728;1:2.5 water;;;;BaCl2 0.1M extraction;;;;;;;Pipette method;;;;;;;
1204;10.1016/S1002-0160(12)60074-5;"(Asensio et al.; 2013)";Technosol Made of Wastes to Improve Physico-Chemical Characteristics of a Copper Mine Soil;3 (plot);1 (static);Spain;C (temperate);;12.6;1886;;Mining;;Constructed soil;;;T4;Organic soil constituant (intentionally incorporated);;;Technosol;Garbic;;Anthroposol arificiel;12.8;;;;7.919;Dry combustion;;;;;;;;;;;782;1:2.5 water;;;;BaCl2 0.1M extraction;;;;;;;Pipette method;;;;;;;
1205;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Agricultural;;Soil affected by land use;;;Soil;Soil;;;Fluvisol;Cambic;;Anthroposol arificiel;0.74;;;;0.74;;;;;;;;0.15;;;;64;;;;;;;;1.27;;;;;;;;;;;
1206;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);;;650;;;;;;;sw ;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;25.32;;;;;;;;;;;;2.52;;;;62;;;;;;;;0.31;;;;;;;;;;;
1207;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);;;650;;;;;;;gw ;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;26.01;;;;;;;;;;;;1.59;;;;9;;;;;;;;0.29;;;;;;;;;;;
1208;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);;;650;;;;;;;sp ;Organic soil constituant (intentionally incorporated);;;;;;Anthroposol arificiel;48.44;;;;;;;;;;;;1.37;;;;43;;;;;;;;0.07;;;;;;;;;;;
1209;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t0;Soil;0;29;;;;Anthroposol arificiel;2.42;;;;;;;;;;;;0.27;;;;68;;;;;;;;1.23;;;;;;;;;;;
1210;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t0;Soil;0;29;;;;Anthroposol arificiel;4.74;;;;;;;;;;;;0.44;;;;64;;;;;;;;1.03;;;;;;;;;;;
1211;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t0;Soil;0;29;;;;Anthroposol arificiel;2.63;;;;;;;;;;;;0.24;;;;75;;;;;;;;1.18;;;;;;;;;;;
1212;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t0;Soil;0;29;;;;Anthroposol arificiel;5.25;;;;;;;;;;;;0.35;;;;78;;;;;;;;0.99;;;;;;;;;;;
1213;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t0;Soil;0;29;;;;Anthroposol arificiel;1.78;;;;;;;;;;;;0.16;;;;61;;;;;;;;1.14;;;;;;;;;;;
1214;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t0;Soil;0;29;;;;Anthroposol arificiel;3.01;;;;;;;;;;;;0.2;;;;53;;;;;;;;0.98;;;;;;;;;;;
1215;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t5;Soil;0;29;;;;Anthroposol arificiel;0.77;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1216;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t5;Soil;0;29;;;;Anthroposol arificiel;2.01;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1217;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t5;Soil;0;29;;;;Anthroposol arificiel;4.43;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1218;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t5;Soil;0;29;;;;Anthroposol arificiel;2.12;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1219;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t5;Soil;0;29;;;;Anthroposol arificiel;4.8;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1220;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t5;Soil;0;29;;;;Anthroposol arificiel;1.68;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1221;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t5;Soil;0;29;;;;Anthroposol arificiel;2.5;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1222;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t12;Soil;0;29;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1223;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t12;Soil;0;29;;;;Anthroposol arificiel;1.95;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1224;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t12;Soil;0;29;;;;Anthroposol arificiel;3.63;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1225;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t12;Soil;0;29;;;;Anthroposol arificiel;1.91;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1226;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t12;Soil;0;29;;;;Anthroposol arificiel;3.62;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1227;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t12;Soil;0;29;;;;Anthroposol arificiel;1.45;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1228;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t12;Soil;0;29;;;;Anthroposol arificiel;2.21;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1229;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t24;Soil;0;29;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1230;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t24;Soil;0;29;;;;Anthroposol arificiel;1.92;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1231;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t24;Soil;0;29;;;;Anthroposol arificiel;3.54;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1232;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t24;Soil;0;29;;;;Anthroposol arificiel;1.44;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1233;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t24;Soil;0;29;;;;Anthroposol arificiel;2.73;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1234;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t24;Soil;0;29;;;;Anthroposol arificiel;1.26;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1235;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t24;Soil;0;29;;;;Anthroposol arificiel;2.33;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1236;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t60;Soil;0;29;;;;Anthroposol arificiel;0.75;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1237;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t60;Soil;0;29;;;;Anthroposol arificiel;1.79;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1238;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t60;Soil;0;29;;;;Anthroposol arificiel;3.4;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1239;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t60;Soil;0;29;;;;Anthroposol arificiel;1.39;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1240;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t60;Soil;0;29;;;;Anthroposol arificiel;2.69;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1241;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t60;Soil;0;29;;;;Anthroposol arificiel;1.16;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1242;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t60;Soil;0;29;;;;Anthroposol arificiel;2.05;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1243;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1244;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1245;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1246;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1247;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1248;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1249;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);0;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t0;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1250;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t5;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1251;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t5;Soil;29;57;;;;Anthroposol arificiel;0.75;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1252;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t5;Soil;29;57;;;;Anthroposol arificiel;0.75;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1253;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t5;Soil;29;57;;;;Anthroposol arificiel;0.71;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1254;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t5;Soil;29;57;;;;Anthroposol arificiel;0.72;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1255;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t5;Soil;29;57;;;;Anthroposol arificiel;0.7;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1256;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);416666667;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t5;Soil;29;57;;;;Anthroposol arificiel;0.72;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1257;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t12;Soil;29;57;;;;Anthroposol arificiel;0.72;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1258;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t12;Soil;29;57;;;;Anthroposol arificiel;0.81;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1259;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t12;Soil;29;57;;;;Anthroposol arificiel;0.75;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1260;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t12;Soil;29;57;;;;Anthroposol arificiel;0.7;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1261;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t12;Soil;29;57;;;;Anthroposol arificiel;0.7;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1262;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t12;Soil;29;57;;;;Anthroposol arificiel;0.68;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1263;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);1;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t12;Soil;29;57;;;;Anthroposol arificiel;0.63;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1264;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t24;Soil;29;57;;;;Anthroposol arificiel;0.74;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1265;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t24;Soil;29;57;;;;Anthroposol arificiel;0.84;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1266;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t24;Soil;29;57;;;;Anthroposol arificiel;0.8;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1267;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t24;Soil;29;57;;;;Anthroposol arificiel;0.77;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1268;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t24;Soil;29;57;;;;Anthroposol arificiel;0.78;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1269;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t24;Soil;29;57;;;;Anthroposol arificiel;0.76;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1270;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);2;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t24;Soil;29;57;;;;Anthroposol arificiel;0.82;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1271;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;Control t60;Soil;29;57;;;;Anthroposol arificiel;0.76;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1272;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw20 t60;Soil;29;57;;;;Anthroposol arificiel;0.8;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1273;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sw40 t60;Soil;29;57;;;;Anthroposol arificiel;0.9;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1274;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw20 t60;Soil;29;57;;;;Anthroposol arificiel;0.78;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1275;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;gw40 t60;Soil;29;57;;;;Anthroposol arificiel;0.81;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1276;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp20 t60;Soil;29;57;;;;Anthroposol arificiel;0.78;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1277;10.1111/j.1365-2389.2012.01494.x;"(Vidal-Beaudet et al.; 2012)";Modelling long-term carbon dynamics in soils reconstituted with large quantities of organic matter;0 (no particular approach);2 (dynamic);France;C (temperate);5;;650;;Urban;;Soil with anthropogenic constituants incorporated;;;sp40 t60;Soil;29;57;;;;Anthroposol arificiel;0.75;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1278;10.1007/s11368-012-0566-1;"(Gonz lez-Alcaraz et al.; 2012)";Evolution and phosphorus fractionation in saline Spolic Technosols flooded with eutrophic water;0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;;;Soil affected by land use;Bare;;La Marina del Carmoli;Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;1.24;;;;;;;;0.064;;;;78;;;;;;;;;;;;;477;;391;;132;;
1279;10.1007/s11368-012-0566-1;"(Gonz lez-Alcaraz et al.; 2012)";Evolution and phosphorus fractionation in saline Spolic Technosols flooded with eutrophic water;0 (no particular approach);2 (dynamic);Spain;B (dry);;;;;;;Soil affected by land use;Bare;;Lo Poyo;Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;0.35;;;;;;;;0.037;;;;63;;;;;;;;;;;;;838;;116;;46;;
1280;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;338;Mining;;Soil affected by land use;;;T1 C1;Soil;0;10;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;25;1:2.5 water;;;;;;;;;;;;;;;;;;
1281;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;338;Mining;;Soil affected by land use;;;T1 C2;Soil;10;35;Technosol;Spolic;;Anthroposol arificiel;;;;;10.4;;;;;;;;;;;;25;1:2.5 water;;;;;;;;;;;;;;;;;;
1282;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;341;Mining;;Soil affected by land use;;;T2 C1;Soil;0;40;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;24;1:2.5 water;;;;;;;;;;;;;;;;;;
1283;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;341;Mining;;Soil affected by land use;;;T2 C2;Soil;40;76;Technosol;Spolic;;Anthroposol arificiel;;;;;7.4;;;;;;;;;;;;34;1:2.5 water;;;;;;;;;;;;;;;;;;
1284;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;341;Mining;;Soil affected by land use;;;T2 C3;Soil;76;98;Technosol;Spolic;;Anthroposol arificiel;;;;;14.8;;;;;;;;;;;;31;1:2.5 water;;;;;;;;;;;;;;;;;;
1285;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;341;Mining;;Soil affected by land use;;;T2 C4;Soil;98;105;Technosol;Spolic;;Anthroposol arificiel;;;;;1.6;;;;;;;;;;;;24;1:2.5 water;;;;;;;;;;;;;;;;;;
1286;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;224;Mining;;Soil affected by land use;Grasslands;;R1 0i;Soil;0;1;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1287;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;224;Mining;;Soil affected by land use;Grasslands;;R1 A;Soil;1;3;Technosol;Spolic;;Anthroposol arificiel;;;;;5.2;;;;;;;;;;;;73;1:2.5 water;;;;;;;;;;;;;;;;;;
1288;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;224;Mining;;Soil affected by land use;Grasslands;;R1 C1;Soil;3;30;Technosol;Spolic;;Anthroposol arificiel;;;;;0.9;;;;;;;;;;;;72;1:2.5 water;;;;;;;;;;;;;;;;;;
1289;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;224;Mining;;Soil affected by land use;Grasslands;;R1 C2;Soil;30;95;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;74;1:2.5 water;;;;;;;;;;;;;;;;;;
1290;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;253;Mining;;Soil affected by land use;Grasslands;;R2 0i;Soil;0;2;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1291;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;253;Mining;;Soil affected by land use;Grasslands;;R2 A;Soil;2;7;Technosol;Spolic;;Anthroposol arificiel;;;;;2.5;;;;;;;;;;;;44;1:2.5 water;;;;;;;;;;;;;;;;;;
1292;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;253;Mining;;Soil affected by land use;Grasslands;;R2 C1;Soil;7;14;Technosol;Spolic;;Anthroposol arificiel;;;;;0.6;;;;;;;;;;;;43;1:2.5 water;;;;;;;;;;;;;;;;;;
1293;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;253;Mining;;Soil affected by land use;Grasslands;;R2 C2;Soil;14;30;Technosol;Spolic;;Anthroposol arificiel;;;;;0.3;;;;;;;;;;;;3;1:2.5 water;;;;;;;;;;;;;;;;;;
1294;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;253;Mining;;Soil affected by land use;Grasslands;;R2 C3;Soil;30;60;Technosol;Spolic;;Anthroposol arificiel;;;;;0.3;;;;;;;;;;;;27;1:2.5 water;;;;;;;;;;;;;;;;;;
1295;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;253;Mining;;Soil affected by land use;Grasslands;;R2 C4;Soil;60;75;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;33;1:2.5 water;;;;;;;;;;;;;;;;;;
1296;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;555;Mining;;Soil affected by land use;Forests;;W1 0i;Soil;0;1;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;48;1:2.5 water;;;;;;;;;;;;;;;;;;
1297;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;555;Mining;;Soil affected by land use;Forests;;W1 0e;Soil;1;4;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;4;1:2.5 water;;;;;;;;;;;;;;;;;;
1298;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;555;Mining;;Soil affected by land use;Forests;;W1 A1;Soil;4;9;Technosol;Spolic;;Anthroposol arificiel;;;;;9.9;;;;;;;;;;;;39;1:2.5 water;;;;;;;;;;;;;;;;;;
1299;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;555;Mining;;Soil affected by land use;Forests;;W1 A2;Soil;9;10;Technosol;Spolic;;Anthroposol arificiel;;;;;4.9;;;;;;;;;;;;4;1:2.5 water;;;;;;;;;;;;;;;;;;
1300;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;555;Mining;;Soil affected by land use;Forests;;W1 C;Soil;10;45;Technosol;Spolic;;Anthroposol arificiel;;;;;0.7;;;;;;;;;;;;39;1:2.5 water;;;;;;;;;;;;;;;;;;
1301;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 0i;Soil;0;1;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1302;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 A;Soil;1;4;Technosol;Spolic;;Anthroposol arificiel;;;;;2.6;;;;;;;;;;;;42;1:2.5 water;;;;;;;;;;;;;;;;;;
1303;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 AC;Soil;4;15;Technosol;Spolic;;Anthroposol arificiel;;;;;1;;;;;;;;;;;;42;1:2.5 water;;;;;;;;;;;;;;;;;;
1304;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 C1;Soil;15;30;Technosol;Spolic;;Anthroposol arificiel;;;;;0.5;;;;;;;;;;;;43;1:2.5 water;;;;;;;;;;;;;;;;;;
1305;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 C2;Soil;30;35;Technosol;Spolic;;Anthroposol arificiel;;;;;0.9;;;;;;;;;;;;44;1:2.5 water;;;;;;;;;;;;;;;;;;
1306;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 C3 rusty;Soil;35;86;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;1:2.5 water;;;;;;;;;;;;;;;;;;
1307;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 C3 white;Soil;35;86;Technosol;Spolic;;Anthroposol arificiel;;;;;0.5;;;;;;;;;;;;43;1:2.5 water;;;;;;;;;;;;;;;;;;
1308;10.1016/j.geoderma.2011.04.008;"(Uzarowicz and Skiba; 2011)";Technogenic soils developed on mine soil containing iron sulphides: Mineral transformations as an indicator of pedogenesis;2 (profile);1 (static);Poland;D (continental);;;;550;Mining;;Soil affected by land use;Forests;;W2 C4;Soil;86;112;Technosol;Spolic;;Anthroposol arificiel;;;;;0.9;;;;;;;;;;;;43;1:2.5 water;;;;;;;;;;;;;;;;;;
1309;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);1;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;;;Jezero (Ash);Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;3.6;;;;;;;;;;;;0.05;;;;946;1:2.5 water;;;;;;;;;;;;;;;;;;
1310;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);1;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;Grasslands;;Divkovici I (Soil);Soil;;;Technosol;;;Anthroposol arificiel;1.4;;;;;;;;;;;;0.03;;;;854;1:2.5 water;;;;;;;;;;;;;;;;;;
1311;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);10;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;Grasslands;;Divkovici I (Ash);Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;2.7;;;;;;;;;;;;0.05;;;;891;1:2.5 water;;;;;;;;;;;;;;;;;;
1312;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);12;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;;;Dreznik (Soil);Soil;;;Technosol;;;Anthroposol arificiel;1.8;;;;;;;;;;;;0.14;;;;772;1:2.5 water;;;;;;;;;;;;;;;;;;
1313;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);14;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;;;Dreznik (Ash);Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;3.4;;;;;;;;;;;;0.06;;;;847;1:2.5 water;;;;;;;;;;;;;;;;;;
1314;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);13;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;;;Plane (Soil);Soil;;;Technosol;;;Anthroposol arificiel;1.8;;;;;;;;;;;;0.14;;;;828;1:2.5 water;;;;;;;;;;;;;;;;;;
1315;10.1080/01490451.2010.512032;"(Dilly et al.; 2011)";Microbial Characteristics of Young Soils on Disposal Sites of Coal Combustion Waste in Bosnia and Herzegovina;2 (profile);1 (static);Bosnia & Herzegovina;D (continental);15;10.2;923;;Industrial;;Soil with anthropogenic constituants incorporated;;;Plane (Ash);Organic soil constituant (intentionally incorporated);;;Technosol;;;Anthroposol arificiel;2.6;;;;;;;;;;;;0.05;;;;84;1:2.5 water;;;;;;;;;;;;;;;;;;
1316;10.1007/s11270-010-0425-x;"(Recio-Vazquez et al.; 2011)";Arsenic Mining Waste in the Catchment Area of the Madrid Detrital Aquifer (Spain);2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Verdugal Ap;Soil;0;15;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;74;;;;;;;;56;1:2.5 water;;;125;;;;0.93;;;;Bouyoucos method;69;;23;;8;;
1317;10.1007/s11270-010-0425-x;"(Recio-Vazquez et al.; 2011)";Arsenic Mining Waste in the Catchment Area of the Madrid Detrital Aquifer (Spain);2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Verdugal Bw;Soil;15;60;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;12;;;;;;;;61;1:2.5 water;;;1722;;;;1.84;;;;Bouyoucos method;53;;25;;22;;
1318;10.1007/s11270-010-0425-x;"(Recio-Vazquez et al.; 2011)";Arsenic Mining Waste in the Catchment Area of the Madrid Detrital Aquifer (Spain);2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;;;Verdugak C;Soil;;;Technosol;Spolic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;58;1:2.5 water;;;1806;;;;1.95;;;;Bouyoucos method;63;;19;;18;;
1319;10.1111/j.1365-2389.2010.01296.x;"(Hartmann et al.; 2010)";Water repellency of fly ash-enriched forest soils from eastern Germany;2 (profile);1 (static);Germany;D (continental);;8.2;646;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;Pure fly ash (Ahu);Soil;;;Technosol;Spolic;;Anthroposol arificiel;19.4;;;;;;;;;;;;;;;;57;1:2.5 CaCl2 0.01M;;;;;;;;;;;;92;;7;;1;;
1320;10.1111/j.1365-2389.2010.01296.x;"(Hartmann et al.; 2010)";Water repellency of fly ash-enriched forest soils from eastern Germany;2 (profile);1 (static);Germany;D (continental);;8.2;646;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;Pure fly ash (Cu);Soil;;;Technosol;Spolic;;Anthroposol arificiel;21.6;;;;;;;;;;;;;;;;58;1:2.5 CaCl2 0.01M;;;;;;;;;;;;90;;6;;4;;
1321;10.1111/j.1365-2389.2010.01296.x;"(Hartmann et al.; 2010)";Water repellency of fly ash-enriched forest soils from eastern Germany;2 (profile);1 (static);Germany;D (continental);;8.2;646;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;With fly (1-1);Soil;;;Cambisol;;;Anthroposol arificiel;10.5;;;;;;;;;;;;;;;;5;1:2.5 CaCl2 0.01M;;;;;;;;;;;;52;;46;;2;;
1322;10.1111/j.1365-2389.2010.01296.x;"(Hartmann et al.; 2010)";Water repellency of fly ash-enriched forest soils from eastern Germany;2 (profile);1 (static);Germany;D (continental);;8.2;646;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;With fly (1-2);Soil;;;Stagnosol;;;Anthroposol arificiel;8.9;;;;;;;;;;;;;;;;48;1:2.5 CaCl2 0.01M;;;;;;;;;;;;29;;66;;5;;
1323;10.1111/j.1365-2389.2010.01296.x;"(Hartmann et al.; 2010)";Water repellency of fly ash-enriched forest soils from eastern Germany;2 (profile);1 (static);Germany;D (continental);;8.2;646;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;Without fly (2-1);Soil;;;Stagnosol;;;Anthroposol arificiel;30.2;;;;;;;;;;;;;;;;32;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
1324;10.1111/j.1365-2389.2010.01296.x;"(Hartmann et al.; 2010)";Water repellency of fly ash-enriched forest soils from eastern Germany;2 (profile);1 (static);Germany;D (continental);;8.2;646;;Industrial;;Soil with anthropogenic constituants incorporated;Forests;;Without fly (2-2);Soil;;;Cambisol;;;Anthroposol arificiel;38.1;;;;;;;;;;;;;;;;34;1:2.5 CaCl2 0.01M;;;;;;;;;;;;;;;;;;
1325;10.1007/s11027-010-9231-4;"(Mac¡as and Camps Arbestain; 2010)";Soil carbon sequestration in a changing global environment;0 (no particular approach);0 (no particular approach);;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1326;;"(Asensio Fandino et al.; 2010)";Characterization of different age Technosols developed on a copper mine tailing;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil affected by land use;Bare;;T7: soil from a mine tailing of the copper mine;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;;Dry combustion;;;557;Loss on ignition;;;;;;;271;1:2 water;;5;;;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;6222;;2128;;145;;5
1327;;"(Asensio Fandino et al.; 2010)";Characterization of different age Technosols developed on a copper mine tailing;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;T8: soil from a mine tailing of the copper mine, amended in 2005 with residues;Soil;0;20;Technosol;Spolic;;Anthroposol arificiel;;;;;;Dry combustion;;;1306;Loss on ignition;;;;;;;81;1:2 water;;5;;;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;5964;;1627;;2409;;5
1328;;"(Asensio Fandino et al.; 2010)";Characterization of different age Technosols developed on a copper mine tailing;2 (profile);1 (static);Spain;C (temperate);;;;;Mining;;Soil with anthropogenic constituants incorporated;Bare;;T9: soil from a mine tailing of the copper mine, amended in 2002;Soil;0;20;Technosol;Garbic;;Anthroposol arificiel;;;;;;Dry combustion;;;2294;Loss on ignition;;;;;;;806;1:2 water;;5;;;;;;;;;Pipette method after removing of OM with H2O2 and dispersion with (NaPO3)6;6013;;244;;1547;;5
1329;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;7.5;810;450;Agricultural;;Soil affected by land use;Grasslands;;Reductisol Umbrisol;Soil;0;10;Umbrisol;Reductic;;;;;;;11;;;;;;;;;;;;41;;;;;;;;;;;;;25;;32;;33;;
1330;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;7.5;810;450;Agricultural;;Soil affected by land use;Grasslands;;Reductisol Umbrisol;Soil;18;50;Umbrisol;Reductic;;;;;;;2.4;;;;;;;;;;;;41;;;;;;;;;;;;;8;;18;;74;;
1331;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;7.5;810;450;Agricultural;;Soil affected by land use;Grasslands;;Reductisol Umbrisol;Soil;50;70;Umbrisol;Reductic;;;;;;;1.5;;;;;;;;;;;;4;;;;;;;;;;;;;1;;29;;7;;
1332;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;0;30;Cambisol;Reductic;;;;;;;1.8;;;;;;;;;;;;55;;;;119;;;;;;;;;21;;54;;21;;
1333;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;30;60;Cambisol;Reductic;;;;;;;0.7;;;;;;;;;;;;6;;;;104;;;;;;;;;15;;51;;32;;
1334;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;60;80;Cambisol;Reductic;;;;;;;0.28;;;;;;;;;;;;63;;;;122;;;;;;;;;20;;46;;28;;
1335;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;80;120;Cambisol;Reductic;;;;;;;0.13;;;;;;;;;;;;65;;;;143;;;;;;;;;8;;62;;29;;
1336;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;0;30;Andosol;Reductic;;;;;;;1.2;;;;;;;;;;;;48;;;;122;;;;;;;;;43;;18;;1;;
1337;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;30;80;Andosol;Reductic;;;;;;;0.19;;;;;;;;;;;;48;;;;11;;;;;;;;;43;;19;;1;;
1338;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.7;620;;Agricultural;;Soil affected by land use;;;;Soil;80;120;Andosol;Reductic;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1339;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Georgia;B (dry);;;;1554;Agricultural;;Soil affected by land use;;;;Soil;0;2;Regosol;Reductic;;;;;;;;;;;;;;;;;;;8;;;;;;;;;;;;;;;;;;;
1340;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Georgia;B (dry);;;;1554;Agricultural;;Soil affected by land use;;;;Soil;2;8;Regosol;Reductic;;;;;;;;;;;;;;;;;;;8;;;;;;;;;;;;;;;;;;;
1341;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Georgia;B (dry);;;;1554;Agricultural;;Soil affected by land use;;;;Soil;8;10;Regosol;Reductic;;;;;;;;;;;;;;;;;;;9;;;;;;;;;;;;;;;;;;;
1342;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Georgia;B (dry);;;;1554;Agricultural;;Soil affected by land use;;;;Soil;10;30;Regosol;Reductic;;;;;;;;;;;;;;;;;;;8;;;;;;;;;;;;;;;;;;;
1343;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;0;20;Technosol;Garbic;;Anthroposol arificiel;;;;;1;;;;;;;;;;;;7;;;;51;;;;;;;;;67;;11;;58;;
1344;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;20;38;Technosol;Garbic;;Anthroposol arificiel;;;;;1;;;;;;;;;;;;7;;;;57;;;;;;;;;59;;19;;1;;
1345;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;38;52;Technosol;Garbic;;Anthroposol arificiel;;;;;0.6;;;;;;;;;;;;73;;;;65;;;;;;;;;65;;17;;98;;
1346;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;52;80;Technosol;Garbic;;Anthroposol arificiel;;;;;0.6;;;;;;;;;;;;72;;;;72;;;;;;;;;65;;13;;11;;
1347;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);50;8.3;825;;Urban;;Soil affected by land use;Grasslands;;;Soil;0;24;Technosol;Gleyic;;Anthroposol arificiel;;;;;9.7;;;;;;;;;;;;71;;;;28;;;;;;;;;53;;18;;5;;
1348;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);50;8.3;825;;Urban;;Soil affected by land use;Grasslands;;;Soil;24;36;Technosol;Gleyic;;Anthroposol arificiel;;;;;11.2;;;;;;;;;;;;77;;;;35;;;;;;;;;41;;2;;3;;
1349;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);50;8.3;825;;Urban;;Soil affected by land use;Grasslands;;;Soil;36;90;Technosol;Gleyic;;Anthroposol arificiel;;;;;12.2;;;;;;;;;;;;75;;;;29;;;;;;;;;49;;2;;4;;
1350;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);50;8.3;825;;Urban;;Soil affected by land use;Grasslands;;;Soil;90;120;Technosol;Gleyic;;Anthroposol arificiel;;;;;20.2;;;;;;;;;;;;73;;;;67;;;;;;;;;21;;14;;1;;
1351;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;0;7;Technosol;Reductic;;Anthroposol arificiel;;;;;0.5;;;;;;;;;;;;72;;;;37;;;;;;;;;85;;9;;6;;
1352;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;7;14;Technosol;Reductic;;Anthroposol arificiel;;;;;18;;;;;;;;;;;;38;;;;516;;;;;;;;;;;;;;;
1353;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;14;21;Technosol;Reductic;;Anthroposol arificiel;;;;;3.1;;;;;;;;;;;;41;;;;102;;;;;;;;;80;;6;;3;;
1354;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;21;37;Technosol;Reductic;;Anthroposol arificiel;;;;;0.76;;;;;;;;;;;;41;;;;51;;;;;;;;;89;;3;;3;;
1355;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;37;87;Technosol;Reductic;;Anthroposol arificiel;;;;;0.25;;;;;;;;;;;;46;;;;21;;;;;;;;;94;;2;;1;;
1356;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.6;580;;Urban;;Soil affected by land use;Forests;;;Soil;87;187;Technosol;Reductic;;Anthroposol arificiel;;;;;0.05;;;;;;;;;;;;4;;;;6;;;;;;;;;98;;1;;1;;
1357;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);20;8.5;675;8;Urban;;Soil affected by land use;Grasslands;;;Soil;0;20;Technosol;Garbic;;Anthroposol arificiel;;;;;9.1;;;;;;;;;;;;74;;;;56;;;;;;;;;51;;23;;26;;
1358;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);20;8.5;675;8;Urban;;Soil affected by land use;Grasslands;;;Soil;20;38;Technosol;Garbic;;Anthroposol arificiel;;;;;9.1;;;;;;;;;;;;74;;;;76;;;;;;;;;22;;42;;36;;
1359;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);20;8.5;675;8;Urban;;Soil affected by land use;Grasslands;;;Soil;38;55;Technosol;Garbic;;Anthroposol arificiel;;;;;12;;;;;;;;;;;;78;;;;61;;;;;;;;;32;;35;;3;;
1360;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.5;550;1;Urban;;Soil affected by land use;Grasslands;;;Soil;0;15;Technosol;Fluvic;;Anthroposol arificiel;;;;;7.4;;;;;;;;;;;;71;;;;32;;;;;;;;;0;;85;;15;;
1361;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.5;550;1;Urban;;Soil affected by land use;Grasslands;;;Soil;15;38;Technosol;Fluvic;;Anthroposol arificiel;;;;;7;;;;;;;;;;;;72;;;;22;;;;;;;;;8;;79;;13;;
1362;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;8.5;550;1;Urban;;Soil affected by land use;Grasslands;;;Soil;38;50;Technosol;Fluvic;;Anthroposol arificiel;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1363;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;10;700;220;Urban;;Soil affected by land use;Grasslands;;;Soil;0;7;Technosol;Spolic;;Anthroposol arificiel;;;;;3.11;;;;;;;;;;;;72;;;;31;;;;;;;;;13;;5;;37;;
1364;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;10;700;220;Urban;;Soil affected by land use;Grasslands;;;Soil;7;23;Technosol;Spolic;;Anthroposol arificiel;;;;;0.54;;;;;;;;;;;;75;;;;26;;;;;;;;;14;;66;;29;;
1365;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;10;700;220;Urban;;Soil affected by land use;Grasslands;;;Soil;23;28;Technosol;Spolic;;Anthroposol arificiel;;;;;0.52;;;;;;;;;;;;29;;;;42;;;;;;;;;33;;52;;15;;
1366;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;10;700;220;Urban;;Soil affected by land use;Grasslands;;;Soil;28;31;Technosol;Spolic;;Anthroposol arificiel;;;;;0.37;;;;;;;;;;;;23;;;;57;;;;;;;;;14;;56;;22;;
1367;10.1002/jpln.200800125;"(Blume and Felix-Henningsen; 2009)";Reductosols: Natural soils and Technosols under reducing conditions without an aquic moisture regime;2 (profile);1 (static);Germany;D (continental);;10;700;220;Urban;;Soil affected by land use;Grasslands;;;Soil;31;80;Technosol;Spolic;;Anthroposol arificiel;;;;;7.58;;;;;;;;;;;;2;;;;132;;;;;;;;;13;;15;;22;;
1368;10.1007/s11368-009-0084-y;"(Monserie et al.; 2009)";Technosol genesis: identification of organo-mineral associations in a young Technosol derived from coking plant waste materials;1 (aggregate);1 (static);France;C (temperate);40;;;;Industrial;;Soil affected by land use;Bare;;Coking soil material;Soil;0;80;Technosol;;;Anthroposol arificiel;;;;;6.7;;;;124;;;;;;;;;;;;;;;;;;;;;;;;;;;
1369;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Effect of water content on aggregation and contaminant leaching: the study of an urban Technosol;1 (aggregate);2 (dynamic);France;C (temperate);20;;;;Urban;;Soil affected by land use;;;May 10th 2006;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;4;;13;3;10;Loss on ignition;2;15;;;;;73;;1;15;;;;;;;;;;;;;;;;
1370;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Effect of water content on aggregation and contaminant leaching: the study of an urban Technosol;1 (aggregate);2 (dynamic);France;C (temperate);209;;;;Urban;;Soil affected by land use;;;April 10th 2007;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;5.3;;1;3;10;Loss on ignition;3;15;;;;;73;;1;15;;;;;;;;;;;;;;;;
1371;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Effect of water content on aggregation and contaminant leaching: the study of an urban Technosol;1 (aggregate);2 (dynamic);France;C (temperate);211;;;;Urban;;Soil affected by land use;;;July 31st 2007;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;4.4;;12;3;11;Loss on ignition;1;15;;;;;69;;1;15;;;;;;;;;;;;;;;;
1372;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Effect of water content on aggregation and contaminant leaching: the study of an urban Technosol;1 (aggregate);2 (dynamic);France;C (temperate);213;;;;Urban;;Soil affected by land use;;;September 11th 2007;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;5.2;;3;3;12;Loss on ignition;1;15;;;;;71;;1;15;;;;;;;;;;;;;;;;
1373;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Effect of water content on aggregation and contaminant leaching: the study of an urban Technosol;1 (aggregate);2 (dynamic);France;C (temperate);216;;;;Urban;;Soil affected by land use;;;Decmeber 10th 2007;Soil;0;5;Technosol;;;Anthroposol arificiel;;;;;5.6;;3;3;14;Loss on ignition;4;15;;;;;74;;1;15;;;;;;;;;;;;;;;;
1374;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Study of the aggregation of the surface layer of Technosols from stormwater infiltration basins using grain size analyses with laser diffractometry;1 (aggregate);1 (static);France;C (temperate);;;;;Urban;;NA;;;Technosol material of the Django Reinhardt basin;Other;;;;;;;;;;;;;;;143;Loss on ignition;4;;;;;;76;1:5 water;0;;;;;;;;;;;;;;;;;
1375;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Study of the aggregation of the surface layer of Technosols from stormwater infiltration basins using grain size analyses with laser diffractometry;1 (aggregate);1 (static);France;C (temperate);;;;;Urban;;NA;;;Technosol material of the Chevir‚ basin;Other;;;;;;;;;;;;;;;207;Loss on ignition;9;;;;;;62;1:5 water;1;;;;;;;;;;;;;;;;;
1376;10.1007/s11368-009-0128-3;"(Badin et al.; 2009)";Study of the aggregation of the surface layer of Technosols from stormwater infiltration basins using grain size analyses with laser diffractometry;1 (aggregate);1 (static);France;C (temperate);;;;;Urban;;NA;;;Sediments from the Rhone;Other;;;;;;;;;;;;;;;26;Loss on ignition;3;;;;;;86;1:5 water;1;;;;;;;;;;;;;;;;;
1377;10.1016/j.chemosphere.2008.09.031;"(Yao et al.; 2009)";Influence of the acid buffering capacity of different types of Technosols on the chemistry of their leachates;2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Soil affected by land use;;;Aerobic (AE) municipal sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;35.4;;;;;;;;5.9;;;;67;;;;;;;;;;;;;;;;;;;
1378;10.1016/j.chemosphere.2008.09.031;"(Yao et al.; 2009)";Influence of the acid buffering capacity of different types of Technosols on the chemistry of their leachates;2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Soil affected by land use;;;Anaerobic (AN) municipal sewage sludge;Organic soil constituant (intentionally incorporated);;;;;;;;;;;27.5;;;;;;;;3.6;;;;79;;;;;;;;;;;;;;;;;;;
1379;10.1016/j.chemosphere.2008.09.031;"(Yao et al.; 2009)";Influence of the acid buffering capacity of different types of Technosols on the chemistry of their leachates;2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Soil affected by land use;;;Green FS produced from steel foundries ;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;1;;;;;;;;;;;;96;;;;;;;;;;;;;711;;85;;204;;
1380;10.1016/j.chemosphere.2008.09.031;"(Yao et al.; 2009)";Influence of the acid buffering capacity of different types of Technosols on the chemistry of their leachates;2 (profile);2 (dynamic);Spain;C (temperate);;;;;Urban;;Soil affected by land use;;;LD grom a steel production plant;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;2.1;;;;;;;;;;;;121;;;;;;;;;;;;;807;;165;;29;;
1381;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;AN + AE;Organic soil constituant (intentionally incorporated);;;;;;;;;;;15.6;;;;;;;;;;;;105;;;;;;;;;;;;;;;;;;;
1382;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;AN;Organic soil constituant (intentionally incorporated);;;;;;;;;;;23.42;;;;;;;;;;;;68;;;;;;;;;;;;;;;;;;;
1383;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;AE;Organic soil constituant (intentionally incorporated);;;;;;;;;;;11.93;;;;;;;;;;;;114;;;;;;;;;;;;;;;;;;;
1384;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;SB;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;82;;;;;;;;;;;;;;;;;;;
1385;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;FE;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;96;;;;;;;;;;;;;;;;;;;
1386;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;LD;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;4.23;;;;;;;;;;;;121;;;;;;;;;;;;;;;;;;;
1387;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;FS;Inorganic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;;;;;;;;;96;;;;;;;;;;;;;;;;;;;
1388;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;FA;Organic soil constituant (intentionally incorporated);;;;;;;;;;;18.8;;;;;;;;;;;;86;;;;;;;;;;;;;;;;;;;
1389;10.1016/j.wasman.2008.01.008;"(Camps Arbestain et al.; 2008)";Extractability and leachability of heavy metals in Technosols prepared from mixtures of unconsolidated wastes;2 (profile);2 (dynamic);Spain;C (temperate);;;;;;;;;;BS;Organic soil constituant (intentionally incorporated);;;;;;;;;;;37.5;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1390;10.1065/jss2008.03.277;"(S‚r‚ et al.; 2008)";Soil construction: A step for ecological reclamation of derelict lands;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;;;;GWC;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;376;Other;;;;;;;86;1:5 water;;;423;;;;;;;;;;;;;;;
1391;10.1065/jss2008.03.277;"(S‚r‚ et al.; 2008)";Soil construction: A step for ecological reclamation of derelict lands;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;;;;PS;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;251;Other;;;;;;;79;1:5 water;;;46;;;;;;;;;;;;;;;
1392;10.1065/jss2008.03.277;"(S‚r‚ et al.; 2008)";Soil construction: A step for ecological reclamation of derelict lands;3 (plot);2 (dynamic);France;C (temperate);;;;;Industrial;;;;;TIS;Organic soil constituant (intentionally incorporated);;;;;;;;;;;;;;;94;Other;;;;;;;9;1:5 water;;;67;;;;;;;;;;;;;;;
1393;10.1065/jss2008.01.269;"(El Khalil et al.; 2008)";Contribution of technic materials to the mobile fraction of metals in urban soils in Marrakech (Morocco);3 (plot);1 (static);Morocco;C (temperate);;;;;Urban;;Soil affected by land use;Forests;;;Soil;;5;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
1394;10.3390/f11040430 ;"(Wós et al.; 2020)";Carbon and Macronutrient Budgets in an Alder Plantation Grown on a Reclaimed Combustion Waste Landfill;4 (plot);0 (no particular approach);Poland;D (continental);9;;;;Urban;Disposal site;Constructed soil;Forests;;B-FA;Organic soil constituant (intentionally incorporated);0;30;;;;;;;;;3.33;dry combustion;0.9;;;;;;;;;;7.86;1:2.5 KCl 1M;0.03;;;;;;0.43;Cylinder method;0.11;;;;;;;;;
1395;10.3390/f11040431;"(Wós et al.; 2020)";Carbon and Macronutrient Budgets in an Alder Plantation Grown on a Reclaimed Combustion Waste Landfill;4 (plot);0 (no particular approach);Poland;D (continental);9;;;;Urban;Disposal site;Constructed soil;Forests;;G-FA;Organic soil constituant (intentionally incorporated);0;30;;;;;;;;;1.48;dry combustion;0.68;;;;;;;;;;7.83;1:2.5 KCl 1M;0.03;;;;;;0.56;Cylinder method;0.1;;;;;;;;;
1396;10.3390/f11040432;"(Wós et al.; 2020)";Carbon and Macronutrient Budgets in an Alder Plantation Grown on a Reclaimed Combustion Waste Landfill;4 (plot);0 (no particular approach);Poland;D (continental);9;;;;Urban;Disposal site;Constructed soil;Forests;;B-FA+L;Organic soil constituant (intentionally incorporated);0;30;;;;;;;;;1.83;dry combustion;0.65;;;;;;;;;;7.79;1:2.5 KCl 1M;0.07;;;;;;0.49;Cylinder method;0.06;;;;;;;;;
1397;10.3390/f11040433;"(Wós et al.; 2020)";Carbon and Macronutrient Budgets in an Alder Plantation Grown on a Reclaimed Combustion Waste Landfill;4 (plot);0 (no particular approach);Poland;D (continental);9;;;;Urban;Disposal site;Constructed soil;Forests;;G-FA+L;Organic soil constituant (intentionally incorporated);0;30;;;;;;;;;3.35;dry combustion;0.71;;;;;;;;;;7.86;1:2.5 KCl 1M;0.03;;;;;;0.41;Cylinder method;0.05;;;;;;;;;
1398;10.1016/j.envman.2020.111344;"(Ruiz et al.; 2020)";Soil quality assessment of constructed Technosols: Towards the  validation of a promising strategy for land reclamation, waste management and the recovery of soil functions ;3 (plot);;Brazil;C (temperate);3;22.1;1249;;Agricultural;;Constructed soil;Crops;;SC3;Inorganic soil constituant (intentionally incorporated);0;10;Technosol;Spolic;Clayic;;;;;;0.87;dry combustion;;5;;;;;;;;;6.6;1:5 water;;;25.64;Sum of exchangeable cation concentrations;;;1;Cylinder method;;;;;;;;;;
1399;10.1016/j.envman.2020.111344;"(Ruiz et al.; 2020)";Soil quality assessment of constructed Technosols: Towards the  validation of a promising strategy for land reclamation, waste management and the recovery of soil functions ;3 (plot);;Brazil;C (temperate);3;22.1;1249;;Agricultural;;Constructed soil;Crops;;SC3;Inorganic soil constituant (intentionally incorporated);10;20;Technosol;Spolic;Clayic;;;;;;1.37;dry combustion;;5;;;;;;;;;6.7;1:5 water;;;26.34;Sum of exchangeable cation concentrations;;;0.7;Cylinder method;;;;;;;;;;
1400;10.1016/j.envman.2020.111345;"(Ruiz et al.; 2020)";Soil quality assessment of constructed Technosols: Towards the  validation of a promising strategy for land reclamation, waste management and the recovery of soil functions ;3 (plot);;Brazil;C (temperate);7;22.1;1249;;Agricultural;;Constructed soil;Crops;;SC7;Inorganic soil constituant (intentionally incorporated);0;10;Technosol;Spolic;Clayic, Endoraptic;;;;;;0.41;dry combustion;;5;;;;;;;;;7.4;1:5 water;;;26.62;Sum of exchangeable cation concentrations;;;1.1;Cylinder method;;;;;;;;;;
1401;10.1016/j.envman.2020.111346;"(Ruiz et al.; 2020)";Soil quality assessment of constructed Technosols: Towards the  validation of a promising strategy for land reclamation, waste management and the recovery of soil functions ;3 (plot);;Brazil;C (temperate);7;22.1;1249;;Agricultural;;Constructed soil;Crops;;SC7;Inorganic soil constituant (intentionally incorporated);10;20;Technosol;Spolic;Clayic, Endoraptic;;;;;;0.8;dry combustion;;5;;;;;;;;;7.3;1:5 water;;;27.35;Sum of exchangeable cation concentrations;;;1.1;Cylinder method;;;;;;;;;;
1402;10.1016/j.envman.2020.111344;"(Ruiz et al.; 2020)";Soil quality assessment of constructed Technosols: Towards the  validation of a promising strategy for land reclamation, waste management and the recovery of soil functions ;3 (plot);;Brazil;C (temperate);20;22.1;1249;;Agricultural;;Constructed soil;Crops;;P20;Inorganic soil constituant (intentionally incorporated);0;10;Technosol;Spolic;Hyperhumic, Loamic, Somerimollic;;;;;;9.17;dry combustion;;5;;;;;;;;;7.4;1:5 water;;;30.79;Sum of exchangeable cation concentrations;;;0.7;Cylinder method;;;;;;;;;;
1403;10.1016/j.envman.2020.111344;"(Ruiz et al.; 2020)";Soil quality assessment of constructed Technosols: Towards the  validation of a promising strategy for land reclamation, waste management and the recovery of soil functions ;3 (plot);;Brazil;C (temperate);20;22.1;1249;;Agricultural;;Constructed soil;Crops;;P20;Inorganic soil constituant (intentionally incorporated);10;20;Technosol;Spolic;Hyperhumic, Loamic, Somerimollic;;;;;;7.38;dry combustion;;5;;;;;;;;;7.5;1:5 water;;;31.75;Sum of exchangeable cation concentrations;;;0.7;Cylinder method;;;;;;;;;;
1404;10.3390/f11121312;"(Bandyopadhyay et al.;2020)";Assessment of Forest Ecosystem Development in Coal Mine Degraded Land by Using Integrated Mine Soil Quality Index (IMSQI): The Evidence from India;3 (plot);;India;A (tropical);5;;1000;300-500;Mining;;Constructed soil;Forests;;RMS 5;Inorganic soil constituant (intentionally incorporated);0;20;;;;;;;;;0.99;Chromic acid titration (Walkley-Black);0.1;;;;;;;;;;7.09;1:2.5 water;0.06;;9.57;Sum of exchangeable cation concentrations;0.84;;1.76;Cylinder method;0.05;;;;;;;;;
1405;10.3390/f11121312;"(Bandyopadhyay et al.;2020)";Assessment of Forest Ecosystem Development in Coal Mine Degraded Land by Using Integrated Mine Soil Quality Index (IMSQI): The Evidence from India;4 (plot);;India;A (tropical);10;;1000;300-500;Mining;;Constructed soil;Forests;;RMS 10;Inorganic soil constituant (intentionally incorporated);0;20;;;;;;;;;1.54;Chromic acid titration (Walkley-Black);0.14;;;;;;;;;;7.29;1:2.5 water;0.1;;12.22;Sum of exchangeable cation concentrations;0.95;;1.69;Cylinder method;0.08;;;;;;;;;
1406;10.3390/f11121312;"(Bandyopadhyay et al.;2020)";Assessment of Forest Ecosystem Development in Coal Mine Degraded Land by Using Integrated Mine Soil Quality Index (IMSQI): The Evidence from India;5 (plot);;India;A (tropical);25;;1000;300-500;Mining;;Constructed soil;Forests;;RMS 25;Inorganic soil constituant (intentionally incorporated);0;20;;;;;;;;;2.71;Chromic acid titration (Walkley-Black);0.22;;;;;;;;;;7.41;1:2.5 water;0.11;;22.67;Sum of exchangeable cation concentrations;1.98;;1.23;Cylinder method;0.08;;;;;;;;;
1407;000-0001-7899-1762;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsP;Inorganic soil constituant (intentionally incorporated);0;5;;;;;;;;;0.756;Dry combustion;0.421;;;;;;;;;;4.4;1:2.5 water;0.1;;3.59;Sum of exchangeable cation concentrations;1.1;;1.41;Cylinder method;0.08;;;;;;;;;
1408;000-0001-7899-1763;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsP;Inorganic soil constituant (intentionally incorporated);5;30;;;;;;;;;0.099;Dry combustion;0.032;;;;;;;;;;5.3;1:2.5 water;0.9;;1.63;Sum of exchangeable cation concentrations;0.28;;1.58;Cylinder method;0.07;;;;;;;;;
1409;000-0001-7899-1764;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsP;Inorganic soil constituant (intentionally incorporated);30;100;;;;;;;;;0.04;Dry combustion;0.011;;;;;;;;;;7;1:2.5 water;0.6;;2.47;Sum of exchangeable cation concentrations;2.44;;1.62;Cylinder method;0.05;;;;;;;;;
1410;000-0001-7899-1763;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsNc;Inorganic soil constituant (intentionally incorporated);0;5;;;;;;;;;1.839;Dry combustion;0.356;;;;;;;;;;5.7;1:2.5 water;0.7;;10.11;Sum of exchangeable cation concentrations;0.75;;1.34;Cylinder method;0.05;;;;;;;;;
1411;000-0001-7899-1764;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsNc;Inorganic soil constituant (intentionally incorporated);5;30;;;;;;;;;0.31;Dry combustion;0.098;;;;;;;;;;6.4;1:2.5 water;0.6;;6.78;Sum of exchangeable cation concentrations;4.01;;1.49;Cylinder method;0.06;;;;;;;;;
1412;000-0001-7899-1765;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsNc;Inorganic soil constituant (intentionally incorporated);30;100;;;;;;;;;0.141;Dry combustion;0.126;;;;;;;;;;6.6;1:2.5 water;0.9;;6.93;Sum of exchangeable cation concentrations;4.11;;1.61;Cylinder method;0.04;;;;;;;;;
1413;000-0001-7899-1764;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;Nc;Inorganic soil constituant (intentionally incorporated);0;5;;;;;;;;;3.88;Dry combustion;0.47;;;;;;;;;;7.1;1:2.5 water;0.1;;45.7;Sum of exchangeable cation concentrations;3.16;;1.02;Cylinder method;0.09;;;;;;;;;
1414;000-0001-7899-1765;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;Nc;Inorganic soil constituant (intentionally incorporated);5;30;;;;;;;;;1.259;Dry combustion;0.502;;;;;;;;;;7;1:2.5 water;0.2;;50.83;Sum of exchangeable cation concentrations;9.46;;1.24;Cylinder method;0.1;;;;;;;;;
1415;000-0001-7899-1766;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;Nc;Inorganic soil constituant (intentionally incorporated);30;100;;;;;;;;;1.22;Dry combustion;0.178;;;;;;;;;;7.2;1:2.5 water;0.2;;63.71;Sum of exchangeable cation concentrations;20.81;;1.23;Cylinder method;0.03;;;;;;;;;
1416;000-0001-7899-1765;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsS;Inorganic soil constituant (intentionally incorporated);0;5;;;;;;;;;0.348;Dry combustion;0.079;;;;;;;;;;4.7;1:2.5 water;0.1;;2.53;Sum of exchangeable cation concentrations;0.42;;1.38;Cylinder method;0.06;;;;;;;;;
1417;000-0001-7899-1766;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsS;Inorganic soil constituant (intentionally incorporated);5;30;;;;;;;;;0.081;Dry combustion;0.019;;;;;;;;;;5.1;1:2.5 water;0.1;;1.58;Sum of exchangeable cation concentrations;0.21;;1.52;Cylinder method;0.03;;;;;;;;;
1418;000-0001-7899-1767;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;QsS;Inorganic soil constituant (intentionally incorporated);30;100;;;;;;;;;0.013;Dry combustion;0.003;;;;;;;;;;5.5;1:2.5 water;0.1;;1.32;Sum of exchangeable cation concentrations;0.05;;1.61;Cylinder method;0.06;;;;;;;;;
1419;000-0001-7899-1766;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;Ql;Inorganic soil constituant (intentionally incorporated);0;5;;;;;;;;;0.758;Dry combustion;0.252;;;;;;;;;;4.3;1:2.5 water;0.1;;4.39;Sum of exchangeable cation concentrations;1.13;;1.43;Cylinder method;0.07;;;;;;;;;
1420;000-0001-7899-1767;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;Ql;Inorganic soil constituant (intentionally incorporated);5;30;;;;;;;;;0.153;Dry combustion;0.017;;;;;;;;;;4.9;1:2.5 water;0.4;;3.86;Sum of exchangeable cation concentrations;1.43;;1.67;Cylinder method;0.08;;;;;;;;;
1421;000-0001-7899-1768;"(Wós and Pietrzykowski; 2020)";Characteristics of technogenic soils developed from Neogene and Qaternary sediments substrate on reclaimed sulphur and sand extraction mine sites;20 (plot);;Poland;D (continental);;;;;Mining;;Constructed soil;Forests;;Ql;Inorganic soil constituant (intentionally incorporated);30;100;;;;;;;;;0.04;Dry combustion;0.011;;;;;;;;;;5.3;1:2.5 water;0.4;;6.12;Sum of exchangeable cation concentrations;1.04;;1.63;Cylinder method;0.09;;;;;;;;;
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