Study_ID,Case_ID,Title,Author,Published_Year,Location,Coordinates,Nation,ClimateZone,Arable_Land,Pest_Control,Pest_Control_Intensity,Fertilizer,Fertilizer_Intensity,Shannon_Index,Taxa,Cereal,Biodiversity_Unit,Yield_Unit,Bo,Bo_sd,Bo_n,Bc,Bc_sd,Bc_n,Yo,Yo_sd,Yo_n,Yc,Yc_sd,Yc_n,Eb,Eb_Var,Ey,Ey_Var,Cc-o,Cc-o_Var
1_Drin,1,Fundamental Differences Between Conventional and Organic Tomato Agroecosystems in California,Drinkwater L. E.  et al,1995,"Central Valley of California, USA","WE-121.469, NS38.187",USA,Csa,NA,sulfr+Bacillus thuringiensis+soap,Low,legume residue+earthworm casting+manure+compost+blood-meal,Medium,no,Invertebrate,No,Number of species,kg/m2,28.35,10.44 ,10.0,15.85,6.183 ,10.0,0.228 ,0.087 ,8.0,0.276 ,0.071 ,9.0,0.581 ,0.029 ,-0.194 ,0.0255 ,0.387 ,0.054 
2_Made,1,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,Mechanical weed control+Rock powder disease control+Plant extracts bio-control,Low,Composted FYM and slurry,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,20,4.45 ,12.0,14.67 ,3.367 ,12.0,3751 ,103 ,12.0,4478 ,103 ,12.0,0.310 ,0.009 ,-0.177 ,0.0001 ,0.133 ,0.009 
2_Made,2,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,"Mechanical weed control+Rock powder, Cu disease control+Plant extracts bio-control",Low,Slightly rotted FYM and slurry,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,20,4.86 ,12.0,14.67 ,3.367 ,12.0,3956 ,103 ,12.0,4478 ,103 ,12.0,0.310 ,0.009 ,-0.124 ,0.0001 ,0.186 ,0.009 
2_Made,3,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,Mechanical weed control+Rock powder disease control+Plant extracts bio-control,Low,Composted FYM and slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,69.51 ,3.60 ,4.0,62.76 ,3.283 ,4.0,3751 ,103 ,12.0,4478 ,103 ,12.0,0.102 ,0.001 ,-0.177 ,0.0001 ,-0.075 ,0.001 
2_Made,4,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,"Mechanical weed control+Rock powder, Cu disease control+Plant extracts bio-control",Low,Slightly rotted FYM and slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,66.78 ,3.49 ,4.0,62.76 ,3.283 ,4.0,3956 ,103 ,12.0,4478 ,103 ,12.0,0.062 ,0.001 ,-0.124 ,0.0001 ,-0.062 ,0.001 
2_Made,5,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,Mechanical weed control+Rock powder disease control+Plant extracts bio-control,Low,Composted FYM and slurry,Medium,yes,Invertebrate,No,Number of species,kg/ha,20,4.45 ,12.0,14.67 ,3.367 ,12.0,31260 ,1735 ,12.0,40236 ,1735 ,12.0,0.310 ,0.009 ,-0.252 ,0.0004 ,0.058 ,0.009 
2_Made,6,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,"Mechanical weed control+Rock powder, Cu disease control+Plant extracts bio-control",Low,Slightly rotted FYM and slurry,Medium,yes,Invertebrate,No,Number of species,kg/ha,20,4.86 ,12.0,14.67 ,3.367 ,12.0,34961 ,1735 ,12.0,40236 ,1735 ,12.0,0.310 ,0.009 ,-0.141 ,0.0004 ,0.170 ,0.010 
2_Made,7,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,Mechanical weed control+Rock powder disease control+Plant extracts bio-control,Low,Composted FYM and slurry,Medium,yes,Invertebrate,No,Number of species,kg/ha,20,4.45 ,12.0,14.67 ,3.367 ,12.0,12922 ,246 ,12.0,12543 ,246 ,12.0,0.310 ,0.009 ,0.030 ,0.0001 ,0.340 ,0.009 
2_Made,8,Soil fertility and biodiversity in organic farming,Mader P. et al,2002,"Therwil, Switzerland ","WE7.539, NS47.503",EU,Cfb,NA,"Mechanical weed control+Rock powder, Cu disease control+Plant extracts bio-control",Low,Slightly rotted FYM and slurry,Medium,yes,Invertebrate,No,Number of species,kg/ha,20,4.86 ,12.0,14.67 ,3.367 ,12.0,12480 ,246 ,12.0,12543 ,246 ,12.0,0.310 ,0.009 ,-0.005 ,0.0001 ,0.305 ,0.009 
3_Mart,1,The role of organic production in biodiversity conservation in shade coffee plantations,Martínez-Sánchez,2008,Nicaragua,"WE-85.203, NS13.479",Nicaragua,Am,NA,no pesticide,Low,nitrogen fixing trees,Low,yes,Plant,No,Number of species,kg/ha,24.4,9.18 ,10.0,20.7,5.794 ,10.0,876 ,268 ,8.0,1115 ,418 ,7.0,0.164 ,0.022 ,-0.241 ,0.0318 ,-0.076 ,0.054 
4_Gabr,1,Food production vs. biodiversity: comparing organic and conventional agriculture,Gabriel D. et al,2013,England,"WE-1.839, NS53.557",EU,Cfb,NA,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,yes,Plant,Yes,Number of species,kg/ha,9.9,6.92 ,414.0,2.5,2.880 ,576.0,4300 ,1994 ,69.0,9300 ,2449 ,96.0,1.376 ,0.003 ,-0.771 ,0.0038 ,0.605 ,0.007 
4_Gabr,2,Food production vs. biodiversity: comparing organic and conventional agriculture,Gabriel D. et al,2013,England,"WE-1.839, NS53.557",EU,Cfb,NA,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,8.2,3.60 ,275.0,6.9,3.624 ,384.0,4300 ,1994 ,69.0,9300 ,2449 ,96.0,0.173 ,0.001 ,-0.771 ,0.0038 ,-0.599 ,0.005 
4_Gabr,3,Food production vs. biodiversity: comparing organic and conventional agriculture,Gabriel D. et al,2013,England,"WE-1.839, NS53.557",EU,Cfb,NA,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,yes,Bird,Yes,Number of species,kg/ha,7.8,2.24 ,69.0,8.5,2.144 ,95.0,4300 ,1994 ,69.0,9300 ,2449 ,96.0,-0.086 ,0.002 ,-0.771 ,0.0038 ,-0.857 ,0.006 
5_Klau,1,Does organic grassland farming benefit plant and arthropod diversity at the expense of yield and soil fertility?,Klaus V.H. et al,2013,Germany,"WE10.422, NS51.008",EU,Cfb,NA,Commission Regulations (EC) No. 889/2008,Low,Commission Regulations (EC) No. 889/2008,Medium,yes,Plant,No,Number of species,kg/m2,27.6,9.76 ,18.0,24.1,6.025 ,29.0,0.300 ,0.123 ,18.0,0.335 ,0.153 ,29.0,0.136 ,0.009 ,-0.111 ,0.0165 ,0.024 ,0.026 
5_Klau,2,Does organic grassland farming benefit plant and arthropod diversity at the expense of yield and soil fertility?,Klaus V.H. et al,2013,Germany,"WE10.422, NS51.008",EU,Cfb,NA,Commission Regulations (EC) No. 889/2008,Low,Commission Regulations (EC) No. 889/2008,Medium,yes,Invertebrate,No,Number of species,kg/m2,28,8.49 ,18.0,22,10.770 ,29.0,0.300 ,0.123 ,18.0,0.335 ,0.153 ,29.0,0.241 ,0.013 ,-0.111 ,0.0165 ,0.130 ,0.030 
6_Mart,1,Effects of agri-environmental and organic rice farming on yield and macrophyte community in Mediterranean paddy fields,Martínez-Eixarch M. et al,2017,"Ebro Delt, Catalonia (NE Spain)","WE0.783, NS40.687",EU,Csa,0.68 ,puddling+hand weeding,Low,pig slurry,Medium,yes,Plant,Yes,Number of species,kg/m2,2.88 ,1.89 ,8.0,1.88 ,1.727 ,8.0,0.513 ,0.083 ,3.0,0.608 ,0.090 ,3.0,0.427 ,0.160 ,-0.171 ,0.0161 ,0.256 ,0.176 
7_Samn,1,Management trade-offs on ecosystem services in apple orchards across Europe: Direct and indirect effects of organic production,Samnegård U. et al,2018,northeastern Spain & southern Germany & southernmost Sweden,"WE10.422, NS51.008",EU,Cfb,NA,neem+pyrethrum+lime sulphur+micro-organisms+viruses,Low,organic fertilizer,Medium,no,Invertebrate,No,Number of species,kg/100 fruits,11.23 ,4.49 ,39.0,7.02 ,4.362 ,41.0,1250 ,707 ,40.0,1975 ,867 ,42.0,0.469 ,0.014 ,-0.457 ,0.0126 ,0.012 ,0.026 
8_Solo,1,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Plant,No,Number of species,kg/tree,31,NA,4.0,15,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,0.726 ,0.024 ,-0.098 ,0.0062 ,0.628 ,0.031 
8_Solo,2,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Plant,No,Number of species,kg/tree,31,NA,4.0,25,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,0.215 ,0.009 ,-0.098 ,0.0062 ,0.117 ,0.015 
8_Solo,3,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Plant,No,Number of species,kg/tree,38,NA,4.0,15,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,0.930 ,0.032 ,-0.098 ,0.0062 ,0.832 ,0.038 
8_Solo,4,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Plant,No,Number of species,kg/tree,38,NA,4.0,25,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,0.419 ,0.011 ,-0.098 ,0.0062 ,0.321 ,0.017 
8_Solo,5,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Bird,No,Number of species,kg/tree,18,NA,4.0,19,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,-0.054 ,0.006 ,-0.098 ,0.0062 ,-0.152 ,0.012 
8_Solo,6,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Bird,No,Number of species,kg/tree,18,NA,4.0,19,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,-0.054 ,0.005 ,-0.098 ,0.0062 ,-0.152 ,0.011 
8_Solo,7,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Bird,No,Number of species,kg/tree,19,NA,4.0,19,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,0.000 ,0.007 ,-0.098 ,0.0062 ,-0.098 ,0.014 
8_Solo,8,Comparing conventional and organic olive groves in central Greece: plant and bird diversity and abundance,Solomou A. & A. Sfougaris,2011,"western Magnesia Prefecture, central Greece","WE22.921, NS39.115",EU,Csa,0.70 ,grass cutter,Low,Potassium+Borax,Medium,yes,Bird,No,Number of species,kg/tree,19,NA,4.0,19,NA,4.0,51.5,11.144 ,8.0,56.8,2.800 ,8.0,0.000 ,0.007 ,-0.098 ,0.0062 ,-0.098 ,0.013 
9_Smit,1,Weed community and corn yield variability in diverse management systems,Smith R. G. & K. L. Gross,2006,Michigan State University in Michigan,"WE-84.484, NS42.768",USA,Dfb,0.75 ,periodic rotary hoeing and row cultivation weed control,Low,composted dairy manure,Medium,no,Plant,Yes,Number of species,Mg/ha,6.92 ,1.62 ,16.0,4.59 ,2.515 ,16.0,4.18 ,1.073 ,16.0,5.79 ,0.780 ,16.0,0.412 ,0.022 ,-0.326 ,0.0052 ,0.086 ,0.027 
9_Smit,2,Weed community and corn yield variability in diverse management systems,Smith R. G. & K. L. Gross,2006,Michigan State University in Michigan,"WE-84.484, NS42.768",USA,Dfb,0.75 ,periodic rotary hoeing and row cultivation weed control,Low,composted dairy manure,Medium,no,Plant,Yes,Number of species,Mg/ha,7.43 ,2.28 ,16.0,5.99 ,2.874 ,16.0,5.54 ,1.796 ,16.0,7.55 ,0.927 ,16.0,0.215 ,0.020 ,-0.310 ,0.0075 ,-0.095 ,0.028 
10_Whee,1,"Going organic in viticulture: A case-study comparison in Clare Valley, South Australia",Wheeler S. A. & P. Crisp,2011,southern Australia,"WE138.102, NS-34.002",Australia,BSk,NA,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Low,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Medium,no,Invertebrate,No,Number of species,kg/ha,86.9,NA,10.0,44.4,NA,10.0,7533 ,3003 ,15.0,8300 ,3245 ,15.0,0.672 ,0.034 ,-0.097 ,0.0208 ,0.575 ,0.055 
10_Whee,2,"Going organic in viticulture: A case-study comparison in Clare Valley, South Australia",Wheeler S. A. & P. Crisp,2011,southern Australia,"WE138.102, NS-34.002",Australia,BSk,NA,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Low,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Medium,no,Invertebrate,No,Number of species,kg/ha,114.4,NA,10.0,44.4,NA,10.0,7533 ,3003 ,15.0,8300 ,3245 ,15.0,0.946 ,0.052 ,-0.097 ,0.0208 ,0.850 ,0.073 
10_Whee,3,"Going organic in viticulture: A case-study comparison in Clare Valley, South Australia",Wheeler S. A. & P. Crisp,2011,southern Australia,"WE138.102, NS-34.002",Australia,BSk,NA,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Low,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Medium,no,Invertebrate,No,Number of species,kg/ha,14.7,NA,10.0,18.2,NA,10.0,7533 ,3003 ,15.0,8300 ,3245 ,15.0,-0.214 ,0.011 ,-0.097 ,0.0208 ,-0.310 ,0.032 
10_Whee,4,"Going organic in viticulture: A case-study comparison in Clare Valley, South Australia",Wheeler S. A. & P. Crisp,2011,southern Australia,"WE138.102, NS-34.002",Australia,BSk,NA,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Low,"National Association for Sustainable Agriculture, Australia (NASAA) certification",Medium,no,Invertebrate,No,Number of species,kg/ha,26,NA,10.0,18.2,NA,10.0,7533 ,3003 ,15.0,8300 ,3245 ,15.0,0.357 ,0.036 ,-0.097 ,0.0208 ,0.260 ,0.056 
11_Jian,1,High-throughput absolute quantification sequencing reveals the effect of different fertilizer applications on bacterial community in a tomato cultivated coastal saline soil,Jiang S. et al,2019,"Dafeng, Jiangsu Province, China","WE120.854, NS33.019",China,Cfa,0.81 ,not mentioned,NA,chicken manure+plant-beneficial fungus(Trichoderma guizhouense),Medium,yes,Microbe,No,Number of species,kg/plant,446 ,1.09 ,5.0,317 ,1.062 ,5.0,0.55,0.05,5.0,0.58,0.05,5.0,0.340 ,0.000 ,-0.053 ,0.0031 ,0.287 ,0.003 
12_Xu,1,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,48857,5248 ,3.0,46867,2551 ,3.0,4146 ,231 ,3.0,4838 ,557 ,3.0,0.042 ,0.005 ,-0.154 ,0.0054 ,-0.113 ,0.010 
12_Xu,2,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,49853,3002 ,3.0,46867,2551 ,3.0,4276 ,748 ,3.0,4838 ,557 ,3.0,0.062 ,0.002 ,-0.123 ,0.0146 ,-0.062 ,0.017 
12_Xu,3,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,48043,1488 ,3.0,46867,2551 ,3.0,5110 ,421 ,3.0,4838 ,557 ,3.0,0.025 ,0.001 ,0.055 ,0.0067 ,0.080 ,0.008 
12_Xu,4,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,50297,11844 ,3.0,46867,2551 ,3.0,5943 ,216 ,3.0,4838 ,557 ,3.0,0.071 ,0.019 ,0.206 ,0.0049 ,0.277 ,0.024 
12_Xu,5,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,50672,1878 ,3.0,46867,2551 ,3.0,7280 ,922 ,3.0,4838 ,557 ,3.0,0.078 ,0.001 ,0.409 ,0.0098 ,0.487 ,0.011 
12_Xu,6,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,52512,7486 ,3.0,46867,2551 ,3.0,8256 ,924 ,3.0,4838 ,557 ,3.0,0.114 ,0.008 ,0.534 ,0.0086 ,0.648 ,0.016 
12_Xu,7,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,44757,4069 ,3.0,46867,2551 ,3.0,8168 ,1112 ,3.0,4838 ,557 ,3.0,-0.046 ,0.004 ,0.524 ,0.0106 ,0.478 ,0.014 
12_Xu,8,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,43248,1595 ,3.0,46867,2551 ,3.0,6819 ,422 ,3.0,4838 ,557 ,3.0,-0.080 ,0.001 ,0.343 ,0.0057 ,0.263 ,0.007 
12_Xu,9,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,41902,1791 ,3.0,46867,2551 ,3.0,5772 ,1112 ,3.0,4838 ,557 ,3.0,-0.112 ,0.002 ,0.177 ,0.0168 ,0.065 ,0.018 
12_Xu,10,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,Yes,Number of species,kg/ha,41845,2513 ,3.0,46867,2551 ,3.0,5093 ,216 ,3.0,4838 ,557 ,3.0,-0.113 ,0.002 ,0.051 ,0.0050 ,-0.062 ,0.007 
12_Xu,11,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,48857,5248 ,3.0,46867,2551 ,3.0,1520 ,240 ,3.0,1267 ,303 ,3.0,0.042 ,0.005 ,0.182 ,0.0274 ,0.224 ,0.032 
12_Xu,12,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,49853,3002 ,3.0,46867,2551 ,3.0,1840 ,270 ,3.0,1267 ,303 ,3.0,0.062 ,0.002 ,0.373 ,0.0263 ,0.435 ,0.028 
12_Xu,13,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,48043,1488 ,3.0,46867,2551 ,3.0,2333 ,209 ,3.0,1267 ,303 ,3.0,0.025 ,0.001 ,0.611 ,0.0218 ,0.636 ,0.023 
12_Xu,14,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,50297,11844 ,3.0,46867,2551 ,3.0,2753 ,312 ,3.0,1267 ,303 ,3.0,0.071 ,0.019 ,0.776 ,0.0234 ,0.847 ,0.043 
12_Xu,15,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,50672,1878 ,3.0,46867,2551 ,3.0,2863 ,193 ,3.0,1267 ,303 ,3.0,0.078 ,0.001 ,0.816 ,0.0206 ,0.894 ,0.022 
12_Xu,16,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,52512,7486 ,3.0,46867,2551 ,3.0,3050 ,477 ,3.0,1267 ,303 ,3.0,0.114 ,0.008 ,0.879 ,0.0273 ,0.992 ,0.035 
12_Xu,17,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,44757,4069 ,3.0,46867,2551 ,3.0,3227 ,304 ,3.0,1267 ,303 ,3.0,-0.046 ,0.004 ,0.935 ,0.0221 ,0.889 ,0.026 
12_Xu,18,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,43248,1595 ,3.0,46867,2551 ,3.0,3140 ,261 ,3.0,1267 ,303 ,3.0,-0.080 ,0.001 ,0.908 ,0.0214 ,0.827 ,0.023 
12_Xu,19,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,41902,1791 ,3.0,46867,2551 ,3.0,2967 ,187 ,3.0,1267 ,303 ,3.0,-0.112 ,0.002 ,0.851 ,0.0205 ,0.739 ,0.022 
12_Xu,20,"Effect of biogas slurry addition on soil properties, yields, and bacterial composition in the rice-rape rotation ecosystem over 3 years",Xu M. et al,2019,"Heishi Village Qionglai City, Sichuan Province, China","WE103.546, NS30.367",China,Cwa,0.95 ,not mentioned,NA,biogas slurry,Medium,yes,Microbe,No,Number of species,kg/ha,41845,2513 ,3.0,46867,2551 ,3.0,2887 ,72 ,3.0,1267 ,303 ,3.0,-0.113 ,0.002 ,0.824 ,0.0193 ,0.710 ,0.022 
13_Shao,1,"Integrating environmental parameters and economic benefits to analyze the ecological agriculture (EA) application in the mountain rice paddy system of Chongqing, China",Shao Y. et al,2019,"Beibei District of Chongqing, China","WE106.657, NS30.019",China,Cwa,0.81 ,no pesticide,Low,organic fertilizer,Medium,yes,Plant,Yes,Number of species,kg/m2,6.377,3.83 ,6.0,4.29,2.460 ,6.0,0.405 ,NA,6.0,0.666 ,NA,6.0,0.396 ,0.115 ,-0.498 ,0.0126 ,-0.102 ,0.128 
13_Shao,2,"Integrating environmental parameters and economic benefits to analyze the ecological agriculture (EA) application in the mountain rice paddy system of Chongqing, China",Shao Y. et al,2019,"Beibei District of Chongqing, China","WE106.657, NS30.019",China,Cwa,0.81 ,no pesticide,Low,organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/m2,2084 ,145.41 ,3.0,1891 ,42.764 ,3.0,0.405 ,NA,6.0,0.666 ,NA,6.0,0.097 ,0.002 ,-0.498 ,0.0652 ,-0.401 ,0.067 
14_Pere,1,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,Yes,Number of species,kg/ha,69.9,24.40 ,18.0,61.2,15.7 ,18.0,9486 ,8908 ,15.0,11200 ,2381 ,7.0,0.133 ,0.010 ,-0.166 ,0.0652 ,-0.033 ,0.076 
14_Pere,2,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,Yes,Number of species,kg/ha,69.9,24.40 ,18.0,61.2,15.7 ,18.0,5993 ,1960 ,6.0,5651 ,424 ,2.0,0.133 ,0.010 ,0.059 ,0.0206 ,0.192 ,0.031 
14_Pere,3,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,No,Number of species,kg/ha,69.9,24.40 ,18.0,61.2,15.7 ,18.0,2908 ,949 ,10.0,3277 ,566 ,8.0,0.133 ,0.010 ,-0.119 ,0.0144 ,0.014 ,0.025 
14_Pere,4,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,Yes,Number of species,kg/ha,90.6,25.60 ,36.0,66.9,26.6 ,36.0,7314 ,3394 ,18.0,8743 ,2800 ,16.0,0.303 ,0.007 ,-0.178 ,0.0184 ,0.125 ,0.025 
14_Pere,5,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,Yes,Number of species,kg/ha,90.6,25.60 ,36.0,66.9,26.6 ,36.0,4589 ,1649 ,17.0,5034 ,1327 ,11.0,0.303 ,0.007 ,-0.093 ,0.0139 ,0.211 ,0.021 
14_Pere,6,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,No,Number of species,kg/ha,90.6,25.60 ,36.0,66.9,26.6 ,36.0,2867 ,1407 ,22.0,3358 ,693 ,12.0,0.303 ,0.007 ,-0.158 ,0.0145 ,0.145 ,0.021 
14_Pere,7,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,Yes,Number of species,kg/ha,63.1,23.40 ,36.0,54.5,20.1 ,30.0,7771 ,3966 ,13.0,9314 ,2985 ,11.0,0.147 ,0.008 ,-0.181 ,0.0294 ,-0.035 ,0.038 
14_Pere,8,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,Yes,Number of species,kg/ha,63.1,23.40 ,36.0,54.5,20.1 ,30.0,5651 ,1400 ,4.0,6199 ,866 ,3.0,0.147 ,0.008 ,-0.093 ,0.0219 ,0.054 ,0.030 
14_Pere,9,Agro-environmental aspects of conservation agriculture compared to conventional systems: A 3-year experience on 20 farms in the Po valley (Northern Italy),Perego A. et al,2019,northern Italy,"WE11.836, NS45.264",EU,Cfa,0.82 ,not mentioned,NA,"livestock slurry, cautious use of chemical fertilizer",Medium,no,Invertebrate,No,Number of species,kg/ha,63.1,23.40 ,36.0,54.5,20.1 ,30.0,1904 ,894 ,5.0,3236 ,849 ,2.0,0.147 ,0.008 ,-0.530 ,0.0785 ,-0.383 ,0.087 
15_Tian,1,Soil Carbon and Nitrogen Transformations under Soybean as Influenced by Organic Farming,Tian X.M. et al,2018,"Biesituoke Township, Xinyuan County, Yili Autonomous Prefecture, Xinjiang Uygur Autonomous Region, China","WE83.283, NS43.45",China,BSk,0.78 ,Certification and Accreditation of People’s Republic of China GB/T19630,Low,Certification and Accreditation of People’s Republic of China GB/T19630,Medium,yes,Microbe,No,Number of species,kg/ha,15.49 ,NA,3.0,11.02 ,NA,3.0,3525 ,NA,3.0,3100 ,NA,3.0,0.340 ,0.017 ,0.128 ,0.0085 ,0.468 ,0.025 
16_Zhen,1,"Effects of cover crop in an apple orchard on microbial community composition, networks, and potential genes involved with degradation of crop residues in soil",Zheng W. et al,2018,"Northwest A&F University, Baishui County, Shaanxi Province, China","WE109.933, NS35.35",China,Cwa,0.75 ,no pesticide,Low,cover crop(crown vetch),Low,yes,Microbe,No,Number of species,kg/ha,4734,89.47 ,3.0,4881,103 ,3.0,14684 ,1778 ,3.0,20921 ,3008 ,3.0,-0.031 ,0.000 ,-0.354 ,0.0118 ,-0.385 ,0.012 
17_Kuma,1,Continuous application of inorganic and organic fertilizers over 47 years in paddy soil alters the bacterial community structure and its influence on rice production,Kumar U. et al,2018,"ICAR-National Rice Research Institute, Cuttack, India","WE85.917, NS20.417",India,Aw,0.43 ,not mentioned,NA,farmyard manure,Medium,yes,Microbe,Yes,Number of species,kg/ha,14576,1744.18 ,3.0,11767 ,1377 ,3.0,4160 ,348 ,3.0,5307 ,646 ,3.0,0.214 ,0.009 ,-0.244 ,0.0073 ,-0.030 ,0.017 
17_Kuma,2,Continuous application of inorganic and organic fertilizers over 47 years in paddy soil alters the bacterial community structure and its influence on rice production,Kumar U. et al,2018,"ICAR-National Rice Research Institute, Cuttack, India","WE85.917, NS20.417",India,Aw,0.43 ,not mentioned,NA,farmyard manure,Medium,yes,Microbe,Yes,Number of species,kg/ha,14576,1744.18 ,3.0,11767 ,1377 ,3.0,3070 ,348 ,3.0,4734 ,646 ,3.0,0.214 ,0.009 ,-0.433 ,0.0105 ,-0.219 ,0.020 
18_Cesa,1,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,compost manure AT start of experiment,Medium,yes,Microbe,No,Number of species,kg/m2,10358 ,NA,3.0,7986 ,NA,3.0,0.222 ,0.010 ,3.0,0.449 ,0.027 ,3.0,0.260 ,0.008 ,-0.702 ,0.0019 ,-0.442 ,0.010 
18_Cesa,2,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,compost manure + wood biochar AT start of experiment,Medium,yes,Microbe,No,Number of species,kg/m2,10014 ,NA,3.0,7986 ,NA,3.0,0.202 ,0.014 ,3.0,0.449 ,0.027 ,3.0,0.226 ,0.012 ,-0.800 ,0.0029 ,-0.573 ,0.015 
18_Cesa,3,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,glucose + alfalfa straw AT start of experiment,Medium,yes,Microbe,No,Number of species,kg/m2,10845 ,NA,3.0,7986 ,NA,3.0,0.366 ,0.016 ,3.0,0.449 ,0.027 ,3.0,0.306 ,0.010 ,-0.203 ,0.0019 ,0.103 ,0.012 
18_Cesa,4,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,glucose + alfalfa straw + wood biochar AT start of experiment,Medium,yes,Microbe,No,Number of species,kg/m2,10743 ,NA,3.0,7986 ,NA,3.0,0.350 ,0.010 ,3.0,0.449 ,0.027 ,3.0,0.297 ,0.008 ,-0.249 ,0.0015 ,0.048 ,0.010 
18_Cesa,5,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,compost manure DURING experiment weekly,Medium,yes,Microbe,No,Number of species,kg/m2,11270 ,NA,3.0,7986 ,NA,3.0,0.183 ,0.008 ,3.0,0.449 ,0.027 ,3.0,0.344 ,0.020 ,-0.896 ,0.0019 ,-0.551 ,0.022 
18_Cesa,6,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,compost manure + wood biochar DURING experiment weekly,Medium,yes,Microbe,No,Number of species,kg/m2,10885 ,NA,3.0,7986 ,NA,3.0,0.163 ,0.006 ,3.0,0.449 ,0.027 ,3.0,0.310 ,0.022 ,-1.015 ,0.0017 ,-0.705 ,0.023 
18_Cesa,7,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,glucose + alfalfa straw DURING experiment weekly,Medium,yes,Microbe,No,Number of species,kg/m2,8574 ,NA,3.0,7986 ,NA,3.0,0.193 ,0.023 ,3.0,0.449 ,0.027 ,3.0,0.071 ,0.010 ,-0.841 ,0.0057 ,-0.770 ,0.016 
18_Cesa,8,"Organic amendment type and application frequency affect crop yields, soil fertility and microbiome composition",Cesarano G. et al,2017,Southern Italy,"WE14.956, NS40.554",EU,Csa,0.88 ,not mentioned,NA,glucose + alfalfa straw + wood biochar DURING experiment weekly,Medium,yes,Microbe,No,Number of species,kg/m2,11534 ,NA,3.0,7986 ,NA,3.0,0.165 ,0.004 ,3.0,0.449 ,0.027 ,3.0,0.368 ,0.020 ,-1.002 ,0.0014 ,-0.635 ,0.022 
19_Gai ,1,Vegetable yields and soil biochemical properties as influenced by fertilization in Southern China,Gai X. et al,2016,"Changzhou, Jiangsu Province, southern China","WE120.1, NS31.5",China,Cfa,0.45 ,not mentioned,NA,organic chicken manure,Medium,yes,Microbe,No,Number of species,kg/ha,8,NA,3.0,11,NA,3.0,68300 ,5770 ,3.0,69500 ,4820 ,3.0,-0.318 ,0.004 ,-0.017 ,0.0040 ,-0.336 ,0.008 
19_Gai ,2,Vegetable yields and soil biochemical properties as influenced by fertilization in Southern China,Gai X. et al,2016,"Changzhou, Jiangsu Province, southern China","WE120.1, NS31.5",China,Cfa,0.45 ,not mentioned,NA,organic chicken manure,Medium,yes,Microbe,No,Number of species,kg/ha,8,NA,3.0,11,NA,3.0,50400 ,7640 ,3.0,48700 ,7820 ,3.0,-0.318 ,0.006 ,0.034 ,0.0163 ,-0.284 ,0.023 
20_Joke,1,"Effects of reduced tillage and fertilizer application method on plant growth, yield, and soil health in organic bell pepper production",Jokela D. & A. Nair,2016,"Iowa State University Horticulture Research Station in Ames, IA, USA","WE-91.479, NS41.655",USA,Dfa,NA,not mentioned,NA,cover crop,Low,no,Microbe,No,Number of species,Mg/ha,21.98 ,6.05 ,8.0,23.25,2.970 ,8.0,18.9,4.101 ,8.0,27.8,14.001 ,8.0,-0.056 ,0.012 ,-0.386 ,0.0376 ,-0.442 ,0.049 
20_Joke,2,"Effects of reduced tillage and fertilizer application method on plant growth, yield, and soil health in organic bell pepper production",Jokela D. & A. Nair,2016,"Iowa State University Horticulture Research Station in Ames, IA, USA","WE-91.479, NS41.655",USA,Dfa,NA,not mentioned,NA,cover crop,Low,no,Microbe,No,Number of species,Mg/ha,20.3,1.34 ,8.0,21.53 ,1.167 ,8.0,18.9,4.101 ,8.0,27.8,14.001 ,8.0,-0.059 ,0.001 ,-0.386 ,0.0376 ,-0.444 ,0.039 
21_Lenc,1,"Microbiota in Wheat Roots, Rhizosphere and Soil in Crops Grown in Organic and Other Production Systems",Lenc L. et al,2015,"Osiny, Poland","WE22.09, NS51.867",EU,Dfb,0.61 ,no pesticide,Low,cattle manure+K2O,Medium,yes,Microbe,Yes,Number of species,kg/ha,31.5,1.54 ,16.0,33.5,1.601 ,16.0,4650 ,696 ,4.0,6030 ,1576 ,4.0,-0.062 ,0.000 ,-0.260 ,0.0227 ,-0.321 ,0.023 
21_Lenc,2,"Microbiota in Wheat Roots, Rhizosphere and Soil in Crops Grown in Organic and Other Production Systems",Lenc L. et al,2015,"Osiny, Poland","WE22.09, NS51.867",EU,Dfb,0.61 ,no pesticide,Low,cattle manure+K2O,Medium,yes,Microbe,Yes,Number of species,kg/ha,31.5,1.54 ,16.0,33.5,1.984 ,16.0,4650 ,696 ,4.0,6070 ,1623 ,4.0,-0.062 ,0.000 ,-0.266 ,0.0235 ,-0.328 ,0.024 
21_Lenc,3,"Microbiota in Wheat Roots, Rhizosphere and Soil in Crops Grown in Organic and Other Production Systems",Lenc L. et al,2015,"Osiny, Poland","WE22.09, NS51.867",EU,Dfb,0.61 ,no pesticide,Low,cattle manure+grass+K2O,Medium,yes,Microbe,Yes,Number of species,kg/ha,33,1.54 ,16.0,36.75,1.601 ,16.0,3570 ,696 ,4.0,3110 ,1576 ,4.0,-0.108 ,0.000 ,0.138 ,0.0737 ,0.030 ,0.074 
21_Lenc,4,"Microbiota in Wheat Roots, Rhizosphere and Soil in Crops Grown in Organic and Other Production Systems",Lenc L. et al,2015,"Osiny, Poland","WE22.09, NS51.867",EU,Dfb,0.61 ,no pesticide,Low,cattle manure+grass+K2O,Medium,yes,Microbe,Yes,Number of species,kg/ha,33,1.54 ,16.0,38.25,1.984 ,16.0,3570 ,696 ,4.0,3210 ,1623 ,4.0,-0.148 ,0.000 ,0.106 ,0.0734 ,-0.041 ,0.074 
21_Lenc,5,"Microbiota in Wheat Roots, Rhizosphere and Soil in Crops Grown in Organic and Other Production Systems",Lenc L. et al,2015,"Osiny, Poland","WE22.09, NS51.867",EU,Dfb,0.61 ,no pesticide,Low,cattle manure+grass+K2O+ground rock phosphate,Medium,yes,Microbe,Yes,Number of species,kg/ha,36,1.54 ,16.0,38.5,1.601 ,16.0,4870 ,696 ,4.0,5600 ,1576 ,4.0,-0.067 ,0.000 ,-0.140 ,0.0249 ,-0.207 ,0.025 
21_Lenc,6,"Microbiota in Wheat Roots, Rhizosphere and Soil in Crops Grown in Organic and Other Production Systems",Lenc L. et al,2015,"Osiny, Poland","WE22.09, NS51.867",EU,Dfb,0.61 ,no pesticide,Low,cattle manure+grass+K2O+ground rock phosphate,Medium,yes,Microbe,Yes,Number of species,kg/ha,36,1.54 ,16.0,40,1.984 ,16.0,4870 ,696 ,4.0,5970 ,1623 ,4.0,-0.105 ,0.000 ,-0.204 ,0.0236 ,-0.309 ,0.024 
22_Mari,1,"Soil quality, microbial functions and tomato yield under cover crop mulching in the Mediterranean environment",Marinari S. et al,2015,"University of Tuscia (Viterbo), North of Rome","WE12.067, NS45.417",EU,Cfa,0.59 ,not mentioned,NA,cover crop (Vicia villosa Roth (HV)),Low,yes,Microbe,No,Number of species,kg/m2,7.29 ,0.24 ,12.0,7.11 ,0.266 ,12.0,3.66 ,0.476 ,6.0,4.26 ,0.858 ,6.0,0.025 ,0.000 ,-0.151 ,0.0096 ,-0.126 ,0.010 
22_Mari,2,"Soil quality, microbial functions and tomato yield under cover crop mulching in the Mediterranean environment",Marinari S. et al,2015,"University of Tuscia (Viterbo), North of Rome","WE12.067, NS45.417",EU,Cfa,0.59 ,not mentioned,NA,cover crop (Phacelia tanacetifolia Benth. (LP)),Low,yes,Microbe,No,Number of species,kg/m2,6.83 ,0.19 ,12.0,7.11 ,0.266 ,12.0,2.82 ,0.525 ,6.0,4.26 ,0.858 ,6.0,-0.040 ,0.000 ,-0.412 ,0.0125 ,-0.452 ,0.013 
22_Mari,3,"Soil quality, microbial functions and tomato yield under cover crop mulching in the Mediterranean environment",Marinari S. et al,2015,"University of Tuscia (Viterbo), North of Rome","WE12.067, NS45.417",EU,Cfa,0.59 ,not mentioned,NA,cover crop (Sinapis alba L. (WM)),Low,yes,Microbe,No,Number of species,kg/m2,7.62 ,0.24 ,12.0,7.11 ,0.266 ,12.0,6.74 ,0.323 ,6.0,4.26 ,0.858 ,6.0,0.069 ,0.000 ,0.460 ,0.0072 ,0.529 ,0.007 
23_An,1,Assessment of Soil Properties and Growth of Organically Cultivated Cucumber (Cucumis sativus L.) with Applications of Livestock Manure Compost and Fish Meal Liquid Fertilizer,An N. et al,2018,"Wanju, quanluo North Road, South Korea","WE127.121, NS35.712",South Korea,Dfa,NA,not mentioned,NA,livestock manure compost,Medium,yes,Microbe,No,Number of species,kg/10a,28.75,NA,4.0,27,NA,4.0,6676 ,NA,4.0,7397 ,NA,4.0,0.063 ,0.015 ,-0.103 ,0.0127 ,-0.040 ,0.028 
24_Qiu ,1,"Effects of fertilization regimes on tea yields, soil fertility, and soil microbial diversity",Qiu S. et al,2014,"Fujian Academy of Agricultural Sciences (FAAS), Fujian Province, southeastern China","WE119.617, NS27.05",China,Cfa,0.12 ,not mentioned,NA,organic manure,Medium,yes,Microbe,No,Number of species,kg/ha,21.44 ,1.65 ,3.0,12.95 ,1.944 ,3.0,5495 ,908 ,3.0,3696 ,677 ,3.0,0.504 ,0.009 ,0.397 ,0.0203 ,0.900 ,0.030 
25_Dai ,1,Negative and positive contributions of arbuscular mycorrhizal fungal taxa to wheat production and nutrient uptake efficiency in organic and conventional systems in the Canadian prairie,Dai M. et al,2014,Prairie ecozone of Canada,"WE-109.255, NS54.512",Canada,Dfc,NA,tilling weed control,Low,"green manure(alfalfa, sweet clover)",Medium,yes,Microbe,Yes,Number of species,kg/ha,8.67,7.52 ,64.0,6.54,6.534 ,72.0,6300,3394 ,72.0,8800,4416 ,78.0,0.282 ,0.026 ,-0.334 ,0.0073 ,-0.052 ,0.033 
26_Sysw,1,Ecosystem services along a management gradient in Michigan (USA) cropping systems,Syswerda S.P. & G.P. Robertson,2014,"Kellogg Biological Station, SW Michigan","WE-85.4, NS42.4",USA,Dfa,0.31 ,mechanical weed control,Low,cover crop,Low,no,Plant,Mixed,Number of species,t/ha,83.8,4.16 ,6.0,38.8,5.634 ,6.0,2.8,0.245 ,6.0,3.5,0.490 ,6.0,0.770 ,0.004 ,-0.223 ,0.0045 ,0.547 ,0.008 
27_Mich,1,Bacterial diversity in Greenlandic soils as affected by potato cropping and inorganic versus organic fertilization,Michelsen C.F. et al,2014,"Upernaviarssuk, southwest Greenland","WE-45.889, NS60.75",EU,ET,NA,no pesticide,Low,sheep manure,Medium,yes,Microbe,No,Number of species,kg/ha,25846,3150.00 ,32.0,21979,3791 ,32.0,11700 ,1891 ,8.0,12325 ,2670 ,8.0,0.162 ,0.001 ,-0.052 ,0.0091 ,0.110 ,0.011 
28_Arme,1,Weed harrowing in organically grown cereal crops avoids yield losses without reducing weed diversity,Armengot L. et al,2013,"Central Catalonia, northeastern Spain","WE1.583, NS41.783",EU,Cfb,0.19 ,European Union regulation (EEC) No. 2092/91,Low,European Union regulation (EEC) No. 2092/91,Medium,yes,Plant,Yes,Number of species,kg/m2,9.39 ,3.64 ,4.0,5.82 ,2.788 ,4.0,0.830 ,0.131 ,4.0,1.09 ,0.092 ,4.0,0.479 ,0.095 ,-0.275 ,0.0080 ,0.204 ,0.103 
28_Arme,2,Weed harrowing in organically grown cereal crops avoids yield losses without reducing weed diversity,Armengot L. et al,2013,"Central Catalonia, northeastern Spain","WE1.583, NS41.783",EU,Cfb,0.19 ,EEC No. 2092/91,Low,EEC No. 2092/91,Medium,yes,Plant,Yes,Number of species,kg/m2,9.76 ,3.76 ,4.0,3.09 ,2.182 ,4.0,0.980 ,0.118 ,4.0,1.25 ,0.092 ,4.0,1.150 ,0.162 ,-0.243 ,0.0049 ,0.907 ,0.167 
29_Camp,1,Weed control strategies and yield response in a pepper crop (Capsicum annuum L.) mulched with hairy vetch (Vicia villosa Roth.) and oat (Avena sativa L.) residues,Campiglia E. et al,2012,"Tuscia University, Viterbo, Italy","WE12.667, NS42.433",EU,Cfa,0.21 ,mechanical weed control,Low,cover crop(Hairy vetch),Low,yes,Plant,No,Number of species,kg/ha,6.3,NA,4.0,4.4,NA,4.0,32100 ,NA,4.0,17100 ,NA,4.0,0.359 ,0.015 ,0.630 ,0.0092 ,0.989 ,0.024 
29_Camp,2,Weed control strategies and yield response in a pepper crop (Capsicum annuum L.) mulched with hairy vetch (Vicia villosa Roth.) and oat (Avena sativa L.) residues,Campiglia E. et al,2012,"Tuscia University, Viterbo, Italy","WE12.667, NS42.433",EU,Cfa,0.21 ,mechanical weed control,Low,cover crop(oat),Low,yes,Plant,No,Number of species,kg/ha,4.9,NA,4.0,4.4,NA,4.0,20900 ,NA,4.0,17100 ,NA,4.0,0.108 ,0.012 ,0.201 ,0.0146 ,0.308 ,0.026 
29_Camp,3,Weed control strategies and yield response in a pepper crop (Capsicum annuum L.) mulched with hairy vetch (Vicia villosa Roth.) and oat (Avena sativa L.) residues,Campiglia E. et al,2012,"Tuscia University, Viterbo, Italy","WE12.667, NS42.433",EU,Cfa,0.21 ,mechanical weed control,Low,cover crop(Hairy vetch+oat),Low,yes,Plant,No,Number of species,kg/ha,5.6,NA,4.0,4.4,NA,4.0,28800 ,NA,4.0,17100 ,NA,4.0,0.241 ,0.014 ,0.521 ,0.0102 ,0.762 ,0.024 
30_Nels,1,Spring wheat genotypes differentially alter soil microbial communities and wheat breadmaking quality in organic and conventional systems,Nelson A.G. et al,2011,"Edmonton, AB, Canada","WE-113.517, NS55.567",Canada,Dfc,NA,tillage weed control,Low,diary manure+ sawdust+wood chips +straw,Medium,yes,Microbe,Yes,Number of species,kg/ha,31,4.75 ,60.0,27,4.248 ,60.0,2744 ,264 ,60.0,5018 ,689 ,60.0,0.138 ,0.001 ,-0.604 ,0.0005 ,-0.465 ,0.001 
31_Galv,1,Molecular diversity of arbuscular mycorrhizal fungi in onion roots from organic and conventional farming systems in the Netherlands,Galván G.A. et al,2009,Netherlands,"WE4.709, NS51.971",EU,Cfb,NA,IFOAM 2007,Low,IFOAM 2007,Medium,yes,Microbe,No,Number of species,kg/ha,2.08 ,1.17 ,15.0,1.85 ,0.765 ,15.0,32000 ,7160 ,20.0,70000 ,7514 ,19.0,0.120 ,0.032 ,-0.783 ,0.0031 ,-0.663 ,0.035 
32_Gu,1,"Soil microbial biomass, crop yields, and bacterial community structure as affected by long-term fertilizer treatments under wheat-rice cropping",Gu Y. et al,2009,"Chuanshan district, Suining city, Sichuan province, China","WE105.057, NS30.181",China,Cwa,0.61 ,pesticide used when necessary,Medium,farmyard manure,Medium,yes,Microbe,Yes,Number of species,kg/ha,17,1.16 ,66.0,18,0.580 ,66.0,4444 ,NA,66.0,7117 ,NA,66.0,-0.057 ,0.000 ,-0.471 ,0.0093 ,-0.528 ,0.009 
32_Gu,2,"Soil microbial biomass, crop yields, and bacterial community structure as affected by long-term fertilizer treatments under wheat-rice cropping",Gu Y. et al,2009,"Chuanshan district, Suining city, Sichuan province, China","WE105.057, NS30.181",China,Cwa,0.61 ,pesticide used when necessary,Medium,farmyard manure,Medium,yes,Microbe,Yes,Number of species,kg/ha,15,1.15 ,66.0,17,1.530 ,66.0,1696 ,NA,66.0,3170 ,NA,66.0,-0.125 ,0.000 ,-0.625 ,0.0126 ,-0.751 ,0.013 
33_Clou,1,Organic versus conventional arable farming systems: Functional grouping helps understand staphylinid response,Clough Y. et al,2007,"Soester Boerde & Leine Bergland & Lahn-Dill Bergland, Germany","WE8.983, NS50.565",EU,Cfb,0.46 ,EEC No. 2092/91,Low,EEC No. 2092/91,Medium,no,Invertebrate,Yes,Number of species,kg/ha,21.75 ,4.05 ,19.0,21.11 ,5.921 ,20.0,47471 ,13223 ,19.0,74746 ,19185 ,20.0,0.030 ,0.006 ,-0.454 ,0.0074 ,-0.424 ,0.013 
34_Parf,1,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 15Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,11.42 ,NA,6.0,14.71 ,NA,6.0,5056 ,477 ,6.0,4570 ,424 ,6.0,-0.253 ,0.003 ,0.101 ,0.0029 ,-0.152 ,0.006 
34_Parf,2,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 15Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,11.15 ,NA,6.0,14.71 ,NA,6.0,3835 ,742 ,6.0,4570 ,424 ,6.0,-0.276 ,0.005 ,-0.175 ,0.0077 ,-0.452 ,0.013 
34_Parf,3,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 5Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,13.87 ,NA,6.0,14.71 ,NA,6.0,10171 ,1909 ,6.0,4570 ,424 ,6.0,-0.059 ,0.007 ,0.800 ,0.0073 ,0.741 ,0.014 
34_Parf,4,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 5Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,11.29 ,NA,6.0,14.71 ,NA,6.0,7912 ,1379 ,6.0,4570 ,424 ,6.0,-0.265 ,0.003 ,0.549 ,0.0065 ,0.284 ,0.010 
34_Parf,5,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 15Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,11.42 ,NA,6.0,13.54 ,NA,6.0,5056 ,477 ,6.0,7997 ,318 ,6.0,-0.171 ,0.007 ,-0.458 ,0.0017 ,-0.629 ,0.008 
34_Parf,6,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 15Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,11.15 ,NA,6.0,13.54 ,NA,6.0,3835 ,742 ,6.0,7997 ,318 ,6.0,-0.194 ,0.006 ,-0.735 ,0.0065 ,-0.929 ,0.013 
34_Parf,7,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 5Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,13.87 ,NA,6.0,13.54 ,NA,6.0,10171 ,1909 ,6.0,7997 ,318 ,6.0,0.024 ,0.012 ,0.240 ,0.0061 ,0.264 ,0.018 
34_Parf,8,"Relationships between soil biota, nitrogen and phosphorus availability, and pasture growth under organic and conventional management",Parfitt R.L. et al,2005,"AgResearch, Ballantrae, New Zealand","WE175.833, NS-40.3",New Zealand,Cfb,NA,not mentioned,NA,reactive phosphate rock+elemental S 5Y,Medium,yes,Invertebrate,No,Number of species,kg/ha,11.29 ,NA,6.0,13.54 ,NA,6.0,7912 ,1379 ,6.0,7997 ,318 ,6.0,-0.182 ,0.005 ,-0.011 ,0.0053 ,-0.193 ,0.010 
35_Ngou,1,Effect of cover crop and management system on weed populations in lettuce,Ngouajio M. et al,2003,"Thermal, CA, USA","WE-116.229, NS33.3",USA,BSh,NA,Bacillus thuringiensis,Low,composted yard waste+chicken manure,Medium,no,Plant,No,Number of species,kg/ha,2.30 ,0.68 ,64.0,2.45 ,0.651 ,64.0,9310 ,4081 ,32.0,13750 ,971 ,32.0,-0.063 ,0.002 ,-0.390 ,0.0062 ,-0.453 ,0.009 
36_Herz,1,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Plant,Yes,Number of species,kg/ha,7.29 ,2.93 ,7.0,1.89 ,1.452 ,9.0,190229 ,16644 ,7.0,207089 ,16209 ,9.0,1.350 ,0.089 ,-0.085 ,0.0018 ,1.265 ,0.091 
36_Herz,2,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Plant,Yes,Number of species,kg/ha,8.89 ,3.14 ,9.0,1.89 ,1.452 ,9.0,196550 ,34193 ,8.0,207089 ,16209 ,9.0,1.549 ,0.080 ,-0.052 ,0.0045 ,1.497 ,0.084 
36_Herz,3,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,5.83,3.31 ,6.0,6.11 ,2.976 ,9.0,190229 ,16644 ,7.0,207089 ,16209 ,9.0,-0.047 ,0.080 ,-0.085 ,0.0018 ,-0.132 ,0.082 
36_Herz,4,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,6.5,1.77 ,8.0,6.11 ,2.976 ,9.0,196550 ,34193 ,8.0,207089 ,16209 ,9.0,0.062 ,0.036 ,-0.052 ,0.0045 ,0.009 ,0.040 
36_Herz,5,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Plant,Yes,Number of species,kg/ha,8.4,3.85 ,5.0,3.14 ,1.574 ,7.0,50460 ,8081 ,5.0,64371 ,10829 ,7.0,0.983 ,0.078 ,-0.243 ,0.0092 ,0.740 ,0.087 
36_Herz,6,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Plant,Yes,Number of species,kg/ha,9.67 ,3.01 ,6.0,3.14 ,1.574 ,7.0,49517 ,8573 ,6.0,64371 ,10829 ,7.0,1.124 ,0.052 ,-0.262 ,0.0090 ,0.861 ,0.061 
36_Herz,7,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Microbe,Yes,Number of species,kg/ha,58.6,9.50 ,5.0,57.43,17.671 ,7.0,50460 ,8081 ,5.0,64371 ,10829 ,7.0,0.020 ,0.019 ,-0.243 ,0.0092 ,-0.223 ,0.028 
36_Herz,8,"Crop yield, weed cover and ecosystem multifunctionality are not affected by the duration of organic management",Herzog C. et al,2019,"Cantons of Aargau, Zurich and Thurgau in Switzerland","WE8.203, NS47.362",EU,Cfb,0.64 ,guidelines of Bio-Suisse,Low,guidelines of Bio-Suisse,Medium,yes,Microbe,Yes,Number of species,kg/ha,54,14.68 ,6.0,57.43,17.671 ,7.0,49517 ,8573 ,6.0,64371 ,10829 ,7.0,-0.062 ,0.026 ,-0.262 ,0.0090 ,-0.324 ,0.035 
37_Batá,1,The former Iron Curtain still drives biodiversity–profit trade-offs in German agriculture,Batáry P. et al ,2017,Germany,"WE12.905, NS52.361",EU,Cfb,0.77 ,no pesticide,Low,manure,Medium,yes,Plant,Yes,Number of species,kg/ha,23.81 ,5.78 ,27.0,5.74 ,2.723 ,27.0,40900 ,5412 ,18.0,85200 ,7143 ,18.0,1.422 ,0.011 ,-0.734 ,0.0014 ,0.688 ,0.012 
37_Batá,2,The former Iron Curtain still drives biodiversity–profit trade-offs in German agriculture,Batáry P. et al ,2017,Germany,"WE12.905, NS52.361",EU,Cfb,0.77 ,no pesticide,Low,manure,Medium,yes,Plant,Yes,Number of species,kg/ha,20.52 ,5.86 ,27.0,9.42 ,3.910 ,27.0,48300 ,5412 ,18.0,85300 ,3463 ,18.0,0.778 ,0.009 ,-0.569 ,0.0008 ,0.210 ,0.010 
37_Batá,3,The former Iron Curtain still drives biodiversity–profit trade-offs in German agriculture,Batáry P. et al ,2017,Germany,"WE12.905, NS52.361",EU,Cfb,0.77 ,no pesticide,Low,manure,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,39.16 ,9.40 ,54.0,36.30 ,6.754 ,54.0,40900 ,5412 ,18.0,85200 ,7143 ,18.0,0.076 ,0.002 ,-0.734 ,0.0014 ,-0.658 ,0.003 
37_Batá,4,The former Iron Curtain still drives biodiversity–profit trade-offs in German agriculture,Batáry P. et al ,2017,Germany,"WE12.905, NS52.361",EU,Cfb,0.77 ,no pesticide,Low,manure,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,39.45 ,9.49 ,54.0,34.43 ,8.969 ,54.0,48300 ,5412 ,18.0,85300 ,3463 ,18.0,0.136 ,0.002 ,-0.569 ,0.0008 ,-0.433 ,0.003 
38_Hald,1,Crop agronomic performance under a six-year continuous organic no-till system and other tilled and conventionally-managed systems in the northern Great Plains of Canada,Halde C. et al,2015,"University of Manitoba Ian N. Morrison Research Farm in Carman, MB, Canada","WE-97.129, NS49.927",Canada,Dfb,NA,no pesticide,Low,N-fixing cover crops,Low,no,Plant,Yes,Number of species,kg/ha,4.6,NA,8.0,4.1,NA,8.0,2800 ,NA,8.0,2700 ,NA,8.0,0.115 ,0.014 ,0.036 ,0.0090 ,0.151 ,0.023 
38_Hald,2,Crop agronomic performance under a six-year continuous organic no-till system and other tilled and conventionally-managed systems in the northern Great Plains of Canada,Halde C. et al,2015,"University of Manitoba Ian N. Morrison Research Farm in Carman, MB, Canada","WE-97.129, NS49.927",Canada,Dfb,NA,no pesticide,Low,N-fixing cover crops,Low,no,Plant,Yes,Number of species,kg/ha,6.3,NA,8.0,4.6,NA,8.0,2150 ,NA,8.0,3400 ,NA,8.0,0.314 ,0.030 ,-0.458 ,0.0083 ,-0.144 ,0.039 
39_Gonz,1,"Ecosystem service trade-offs, perceived drivers, and sustainability in contrasting agroecosystems in central Mexico",González-Esquivel C.E. et al,2015,"P’urhépecha plateau, Michoacán, Mexico","WE-101.952, NS19.221",Mexico,Cwa,0.29 ,biological control,Low,organic fertilizer,Medium,yes,Plant,No,Number of species,kg/ha,4,NA,23.0,4,NA,23.0,9400 ,5957 ,10.0,9620 ,3338 ,10.0,0.000 ,0.036 ,-0.023 ,0.0522 ,-0.023 ,0.088 
39_Gonz,2,"Ecosystem service trade-offs, perceived drivers, and sustainability in contrasting agroecosystems in central Mexico",González-Esquivel C.E. et al,2015,"P’urhépecha plateau, Michoacán, Mexico","WE-101.952, NS19.221",Mexico,Cwa,0.29 ,biological control,Low,organic fertilizer,Medium,no,Invertebrate,No,Number of species,kg/ha,3,NA,5.0,2,NA,5.0,9400 ,5957 ,10.0,9620 ,3338 ,10.0,0.405 ,0.051 ,-0.023 ,0.0522 ,0.382 ,0.103 
40_Path,1,Response of Soil Bacterial Community to Application of Organic and Inorganic Phosphate Based Fertilizers under Vicia faba L. Cultivation at Two Different Phenological Stages,Pathan S.I. et al,2020,"Florence, Italy","WE10.625, NS44.11",EU,Cfb,NA,not mentioned,NA,Pelleted Chicken Manure+Natural Soft Rock Phosphate,Medium,yes,Microbe,No,Number of species,kg/plant,13998 ,1366.18 ,6.0,15854 ,1988 ,6.0,0.014 ,0.006 ,3.0,0.019 ,0.006 ,3.0,-0.124 ,0.004 ,-0.332 ,0.0861 ,-0.457 ,0.090 
41_Urra,1,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal applied optimal dose farm-made organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,4002,235.00 ,3.0,4021 ,188 ,3.0,8874 ,1476 ,6.0,9712 ,887 ,6.0,-0.005 ,0.002 ,-0.090 ,0.0060 ,-0.095 ,0.008 
41_Urra,2,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal+top applied optimal dose farm-made organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,3959,394.00 ,3.0,4021 ,188 ,3.0,7503 ,268 ,6.0,9712 ,887 ,6.0,-0.016 ,0.004 ,-0.258 ,0.0016 ,-0.274 ,0.006 
41_Urra,3,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal applied suboptimal dose farm-made organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,4055,283.00 ,3.0,4021 ,188 ,3.0,6692 ,120 ,6.0,9712 ,887 ,6.0,0.008 ,0.002 ,-0.372 ,0.0014 ,-0.364 ,0.004 
41_Urra,4,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal+top applied suboptimal dose farm-made organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,4353,183.00 ,3.0,4021 ,188 ,3.0,6878 ,729 ,6.0,9712 ,887 ,6.0,0.079 ,0.001 ,-0.345 ,0.0033 ,-0.266 ,0.005 
41_Urra,5,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal applied optimal dose commercial organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,4112,139.00 ,3.0,4021 ,188 ,3.0,9366 ,1120 ,6.0,9712 ,887 ,6.0,0.022 ,0.001 ,-0.036 ,0.0038 ,-0.014 ,0.005 
41_Urra,6,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal+top applied optimal dose commercial organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,3788,159.00 ,3.0,4021 ,188 ,3.0,9166 ,632 ,6.0,9712 ,887 ,6.0,-0.060 ,0.001 ,-0.058 ,0.0022 ,-0.117 ,0.004 
41_Urra,7,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal applied suboptimal dose commercial organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,3965,136.00 ,3.0,4021 ,188 ,3.0,7437 ,1014 ,6.0,9712 ,887 ,6.0,-0.014 ,0.001 ,-0.267 ,0.0045 ,-0.281 ,0.006 
41_Urra,8,Impact of the application of commercial and farm-made fermented liquid organic amendments on corn yield and soil quality,Urra J. et al,2020,"San Vicente de Arana, Spain","WE-2.352, NS42.755",EU,Cfb,0.80 ,not mentioned,NA,basal+top applied suboptimal dose commercial organic fertilizer,Medium,yes,Microbe,Yes,Number of species,kg/ha,4031,236.00 ,3.0,4021 ,188 ,3.0,6319 ,370 ,6.0,9712 ,887 ,6.0,0.002 ,0.002 ,-0.430 ,0.0020 ,-0.427 ,0.004 
42_Urra,1,Commercial and farm fermented liquid organic amendments to improve soil quality and lettuce yield,Urra J. et al,2020,"La Rioja, Spain","WE-2.87, NS42.597",EU,Cfb,NA,not mentioned,NA,organic fertilizer,Medium,yes,Microbe,No,Number of species,g/lettuce,6097 ,130.03 ,12.0,6286 ,182 ,3.0,8 ,NA,12.0,13 ,NA,3.0,-0.031 ,0.000 ,-0.486 ,0.0088 ,-0.516 ,0.009 
43_Yang,1,The combined application of organic and inorganic fertilizers increases soil organic matter and improves soil microenvironment in wheat-maize field,Yang Q. et al,2020,"Huanghuaihai Corn Science and Technology Innovation Center of Shandong Agricultural University, northern China","WE117.15, NS36.15",China,Cwa,0.38 ,not mentioned,NA,cattle manure,Medium,yes,Microbe,Yes,Number of species,kg/m2,2887 ,NA,3.0,2785 ,NA,3.0,0.854 ,0.065 ,3.0,0.872 ,0.061 ,3.0,0.036 ,0.008 ,-0.020 ,0.0036 ,0.015 ,0.012 
43_Yang,2,The combined application of organic and inorganic fertilizers increases soil organic matter and improves soil microenvironment in wheat-maize field,Yang Q. et al,2020,"Huanghuaihai Corn Science and Technology Innovation Center of Shandong Agricultural University, northern China","WE117.15, NS36.15",China,Cwa,0.38 ,not mentioned,NA,cattle manure,Medium,yes,Microbe,Yes,Number of species,kg/m2,2887 ,NA,3.0,2785 ,NA,3.0,1.11 ,0.046 ,3.0,1.15 ,0.051 ,3.0,0.036 ,0.008 ,-0.039 ,0.0012 ,-0.003 ,0.009 
44_Kaka,1,Effect of organic and inorganic fertilization on weed flora and seed yield in black mustard [Brassica nigra (L.) Koch] crops,Kakabouki I. et al,2020,"Agricultural University of Athens, Athens, Greece","WE23.7, NS37.983",EU,Csa,0.09 ,not mentioned,NA,farmyard manure,Medium,yes,Plant,No,Number of species,kg/ha,8.10 ,NA,3.0,8.02 ,NA,3.0,1281 ,NA,3.0,1357 ,NA,3.0,0.010 ,0.025 ,-0.058 ,0.0112 ,-0.047 ,0.037 
44_Kaka,2,Effect of organic and inorganic fertilization on weed flora and seed yield in black mustard [Brassica nigra (L.) Koch] crops,Kakabouki I. et al,2020,"Agricultural University of Athens, Athens, Greece","WE23.7, NS37.983",EU,Csa,0.79 ,not mentioned,NA,farmyard manure,Medium,yes,Plant,No,Number of species,kg/ha,7.03 ,NA,3.0,6.82 ,NA,3.0,1342 ,NA,3.0,1458 ,NA,3.0,0.031 ,0.017 ,-0.083 ,0.0090 ,-0.052 ,0.026 
45_Yan ,1,Effects of Long-Term Fertilization Strategies on Soil Productivity andSoybean Rhizobial Diversity in a Chinese Mollisol,Yan J. et al,2019,"Hailun National Field Station, Hailun County, Heilongjiang Province, China","WE126.633, NS47.433",China,Dwb,0.91 ,not mentioned,NA,recycled organic manure or decomposed pig manure,Medium,yes,Microbe,No,Number of species,kg/ha,1.96 ,NA,3.0,1.79 ,NA,3.0,1799 ,82 ,3.0,2104 ,118 ,3.0,0.091 ,0.009 ,-0.157 ,0.0017 ,-0.066 ,0.011 
46_Kama,1,"Short-term influence of biochar and fertilizer-biochar blends on soil nutrients, fauna and maize growth",Kamau S. et al,2019,"University of Nairobi’s Upper Kabete Field Station, Nairobi, Kenya","WE36.733, NS-1.25",Kenya,Cfb,0.36 ,not mentioned,NA,5 Mg/ha biochar,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,7,0.39 ,4.0,2.83,0.264 ,4.0,3550 ,857 ,4.0,5575 ,735 ,4.0,0.906 ,0.003 ,-0.451 ,0.0189 ,0.454 ,0.022 
46_Kama,2,"Short-term influence of biochar and fertilizer-biochar blends on soil nutrients, fauna and maize growth",Kamau S. et al,2019,"University of Nairobi’s Upper Kabete Field Station, Nairobi, Kenya","WE36.733, NS-1.25",Kenya,Cfb,0.36 ,not mentioned,NA,5 Mg/ha biochar,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,7,0.39 ,4.0,3.83,0.229 ,4.0,3550 ,857 ,4.0,5075 ,604 ,4.0,0.603 ,0.002 ,-0.357 ,0.0181 ,0.246 ,0.020 
46_Kama,3,"Short-term influence of biochar and fertilizer-biochar blends on soil nutrients, fauna and maize growth",Kamau S. et al,2019,"University of Nairobi’s Upper Kabete Field Station, Nairobi, Kenya","WE36.733, NS-1.25",Kenya,Cfb,0.36 ,not mentioned,NA,10 Mg/ha biochar,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,7.33,0.28 ,4.0,2.83,0.264 ,4.0,4000 ,316 ,4.0,5575 ,735 ,4.0,0.952 ,0.003 ,-0.332 ,0.0059 ,0.620 ,0.008 
46_Kama,4,"Short-term influence of biochar and fertilizer-biochar blends on soil nutrients, fauna and maize growth",Kamau S. et al,2019,"University of Nairobi’s Upper Kabete Field Station, Nairobi, Kenya","WE36.733, NS-1.25",Kenya,Cfb,0.36 ,not mentioned,NA,10 Mg/ha biochar,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,7.33,0.28 ,4.0,3.83,0.229 ,4.0,4000 ,316 ,4.0,5075 ,604 ,4.0,0.649 ,0.001 ,-0.238 ,0.0051 ,0.411 ,0.006 
47_Li ,1,Humic Acid Fertilizer Improved Soil Properties and Soil Microbial Diversity of Continuous Cropping Peanut A Three-Year Experiment,Li Y. et al,2019,"Shandong Academy of Agricultural Sciences,Jinan, Shandong Province, China","WE117.083, NS36.717",China,Cwa,0.07 ,not mentioned,NA,humic acid fertilizer,Medium,no,Microbe,No,Number of species,kg/pot,473 ,41.50 ,3.0,476 ,24.214 ,3.0,0.185 ,0.019 ,9.0,0.117 ,0.003 ,9.0,-0.005 ,0.003 ,0.455 ,0.0013 ,0.450 ,0.005 
48_Qiao,1,"Impacts of long-term fertilization on bacterial community structure, soil microbial biomass, and grain yields in red paddy soil in china",Qiao Y.J. et al,2019,"Hunan Academy of Agricultural Sciences, Ningxiang County, Hunan Province, China","WE111.2, NS28.867",China,Cfa,0.20 ,not mentioned,NA,harvested rice straws returned to the soil,Medium,yes,Microbe,Yes,Number of species,kg/hm2,50.62 ,4.73 ,20.0,48.74 ,3.243 ,20.0,11393 ,NA,3.0,11392 ,NA,3.0,0.038 ,0.001 ,0.000 ,0.0073 ,0.038 ,0.008 
49_Graj,1,Effect of Organic Fertilizer Amina P on the Yield of Pineapple (Ananas comosus L.) Merr. and Soil Microbial Population,Grajo M.R.D. et al,2017,"Mabacan, Calauan, Laguna, Philippines","WE121.291, NS14.137",Philippines,Am,0.44 ,not mentioned,NA,Amina P,Medium,yes,Microbe,No,Number of species,kg/fruit,17272,NA,3.0,17207,NA,3.0,2.22,NA,3.0,2.01,NA,3.0,0.004 ,0.016 ,0.099 ,0.0104 ,0.103 ,0.026 
50_Liu ,1,Changes in the abundance and structure of bacterial communities under long-term fertilization treatments in a peanut monocropping system,Liu W. et al,2015,"Chinese Academy of Sciences, Yingtan, southern Jiangxi Province, China","WE116.917, NS28.2",China,Cfa,0.31 ,not mentioned,NA,pig manure,Medium,yes,Microbe,No,Number of species,kg/hm2,5018 ,755.37 ,12.0,4039 ,564 ,12.0,680 ,63 ,4.0,299 ,48 ,4.0,0.217 ,0.004 ,0.820 ,0.0085 ,1.037 ,0.012 
51_Ndun,1,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,No,Number of species,kg/ha,7.90 ,NA,4.0,6.89 ,NA,4.0,1400 ,164 ,4.0,1498 ,164 ,4.0,0.137 ,0.017 ,-0.067 ,0.0064 ,0.069 ,0.024 
51_Ndun,2,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,No,Number of species,kg/ha,7.60 ,NA,4.0,6.75 ,NA,4.0,998 ,164 ,4.0,798 ,164 ,4.0,0.120 ,0.024 ,0.225 ,0.0173 ,0.344 ,0.042 
51_Ndun,3,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,No,Number of species,kg/ha,7.60 ,NA,4.0,6.75 ,NA,4.0,1200 ,166 ,4.0,801 ,166 ,4.0,0.120 ,0.024 ,0.404 ,0.0155 ,0.523 ,0.040 
51_Ndun,4,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,No,Number of species,kg/ha,8.70 ,NA,4.0,5.92 ,NA,4.0,1095 ,166 ,4.0,1095 ,166 ,4.0,0.386 ,0.026 ,0.000 ,0.0115 ,0.386 ,0.037 
51_Ndun,5,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,Yes,Number of species,kg/ha,7.90 ,NA,4.0,6.89 ,NA,4.0,3413 ,396 ,4.0,3810 ,396 ,4.0,0.137 ,0.015 ,-0.110 ,0.0061 ,0.027 ,0.021 
51_Ndun,6,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,Yes,Number of species,kg/ha,7.60 ,NA,4.0,6.75 ,NA,4.0,4206 ,396 ,4.0,5206 ,396 ,4.0,0.120 ,0.009 ,-0.213 ,0.0037 ,-0.094 ,0.013 
51_Ndun,7,Minjingu phosphate rock applications increase the population of phosphate solubilising microorganisms with a positive impact on crop yields in a Kenyan Ferralsol,Ndungu-Magiroi K.W. et al,2015,"Sidada location, Siaya County, Western Kenya","WE34.424, NS0.144",Kenya,Af,0.83 ,not mentioned,NA,Minjingu PR,Medium,yes,Microbe,Yes,Number of species,kg/ha,8.70 ,NA,4.0,5.92 ,NA,4.0,4698 ,396 ,4.0,3587 ,396 ,4.0,0.386 ,0.025 ,0.270 ,0.0048 ,0.655 ,0.030 
52_Li ,1,"Effects of intercropping with Atractylodes lancea and application of bio-organic fertiliser on soil invertebrates, disease control and peanut productivity in continuous peanut cropping field in subtropi",Li X. et al,2014,"Chinese Academy of Sciences, Yujiang, Jiangxi province, China","WE116.917, NS28.217",China,Cfa,0.49 ,Glyphosate(herbcide),Low,rice straw+cow manure+endophytic fungi,Medium,yes,Invertebrate,No,Number of species,kg/ha,10.00 ,2.31 ,9.0,6.67,1.528 ,9.0,2428 ,371 ,3.0,1912 ,161 ,3.0,0.405 ,0.012 ,0.239 ,0.0101 ,0.644 ,0.022 
53_Bona,1,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,compost manure Start,Medium,yes,Microbe,No,Number of species,kg/m2,21387 ,2161.24 ,3.0,17637 ,1687 ,3.0,0.091,0.002,3.0,0.034,0.005,3.0,0.193 ,0.006 ,0.984 ,0.0074 ,1.177 ,0.014 
53_Bona,2,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,compost manure+wood biochar Start,Medium,yes,Microbe,No,Number of species,kg/m2,28888 ,1051.59 ,3.0,17637 ,1687 ,3.0,0.09,0.016,3.0,0.034,0.005,3.0,0.493 ,0.003 ,0.973 ,0.0177 ,1.467 ,0.021 
53_Bona,3,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,glucose+alfalfa straw Start,Medium,yes,Microbe,No,Number of species,kg/m2,22296 ,1799.03 ,3.0,17637 ,1687 ,3.0,0.141,0.029,3.0,0.034,0.005,3.0,0.234 ,0.005 ,1.422 ,0.0213 ,1.657 ,0.027 
53_Bona,4,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,glucose+alfalfa straw+biochar Start,Medium,yes,Microbe,No,Number of species,kg/m2,20159 ,2014.08 ,3.0,17637 ,1687 ,3.0,0.152,0.016,3.0,0.034,0.005,3.0,0.134 ,0.006 ,1.498 ,0.0109 ,1.631 ,0.017 
53_Bona,5,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,compost manure Weekly,Medium,yes,Microbe,No,Number of species,kg/m2,20207 ,2036.49 ,3.0,17637 ,1687 ,3.0,0.064,0.01,3.0,0.034,0.005,3.0,0.136 ,0.006 ,0.633 ,0.0153 ,0.769 ,0.022 
53_Bona,6,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,compost manure Weekly+wood biochar Start,Medium,yes,Microbe,No,Number of species,kg/m2,23819 ,1714.22 ,3.0,17637 ,1687 ,3.0,0.081,0.003,3.0,0.034,0.005,3.0,0.300 ,0.005 ,0.868 ,0.0077 ,1.169 ,0.012 
53_Bona,7,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,glucose+alfalfa straw Weekly,Medium,yes,Microbe,No,Number of species,kg/m2,26193 ,3262.47 ,3.0,17637 ,1687 ,3.0,0.077,0.005,3.0,0.034,0.005,3.0,0.396 ,0.008 ,0.817 ,0.0086 ,1.213 ,0.017 
53_Bona,8,"Repeated applications of organic amendments promote beneficial microbiota, improve soil fertility and increase crop yield",Bonanom G. et al,2020,"Salerno, Southern Italy","WE14.956, NS40.554",EU,Csa,NA,no application,Low,glucose+alfalfa straw Weekly+biochar Start,Medium,yes,Microbe,No,Number of species,kg/m2,20113 ,2873.38 ,3.0,17637 ,1687 ,3.0,0.09,0.011,3.0,0.034,0.005,3.0,0.131 ,0.010 ,0.973 ,0.0122 ,1.105 ,0.022 
54_Mass,1,Soil functions are affected by transition from conventional to organic mulch-based cropping system,Massaccesi L. et al,2020,"University of Perugia, Papiano, Perugia, Central Italy","WE12.367, NS42.95",EU,Cfa,0.86 ,not mentioned,NA,traditional organic management (organic fertilizer),Medium,yes,Invertebrate,No,Number of species,kg/ha,7,1.41 ,4.0,4,4.243 ,4.0,1445 ,263 ,2.0,1656 ,263 ,2.0,0.560 ,0.291 ,-0.136 ,0.0292 ,0.423 ,0.321 
54_Mass,2,Soil functions are affected by transition from conventional to organic mulch-based cropping system,Massaccesi L. et al,2020,"University of Perugia, Papiano, Perugia, Central Italy","WE12.367, NS42.95",EU,Cfa,0.86 ,not mentioned,NA,organic fertilzier,Medium,yes,Invertebrate,No,Number of species,kg/ha,7.5,2.12 ,4.0,4,4.243 ,4.0,592 ,347 ,2.0,1656 ,263 ,2.0,0.629 ,0.301 ,-1.030 ,0.1842 ,-0.401 ,0.485 
55_Liu ,1,Long-term organic fertilization improves the productivity of kiwifruit (Actinidia chinensis Planch.) through increasing rhizosphere microbial diversity and network complexity,Liu Z. et al,2020,"Meixian Kiwifruit Experimental Station, Meixian, Shaanxi Province, China","WE107.75, NS34.067",China,Cwa,NA,not mentioned,NA,10 Mg pig+sheep dung,Medium,yes,Microbe,No,Number of species,kg/ha,2759 ,NA,6.0,2482 ,NA,6.0,2686 ,427 ,6.0,1732 ,301 ,6.0,0.106 ,0.017 ,0.439 ,0.0092 ,0.544 ,0.026 
55_Liu ,2,Long-term organic fertilization improves the productivity of kiwifruit (Actinidia chinensis Planch.) through increasing rhizosphere microbial diversity and network complexity,Liu Z. et al,2020,"Meixian Kiwifruit Experimental Station, Meixian, Shaanxi Province, China","WE107.75, NS34.067",China,Cwa,NA,not mentioned,NA,20 Mg pig+sheep dung,Medium,yes,Microbe,No,Number of species,kg/ha,2891 ,NA,6.0,2482 ,NA,6.0,5172 ,251 ,6.0,1732 ,301 ,6.0,0.153 ,0.013 ,1.094 ,0.0054 ,1.246 ,0.018 
55_Liu ,3,Long-term organic fertilization improves the productivity of kiwifruit (Actinidia chinensis Planch.) through increasing rhizosphere microbial diversity and network complexity,Liu Z. et al,2020,"Meixian Kiwifruit Experimental Station, Meixian, Shaanxi Province, China","WE107.75, NS34.067",China,Cwa,NA,not mentioned,NA,40 Mg pig+sheep dung,Medium,yes,Microbe,No,Number of species,kg/ha,2894 ,NA,6.0,2482 ,NA,6.0,5297 ,452 ,6.0,1732 ,301 ,6.0,0.153 ,0.012 ,1.118 ,0.0063 ,1.271 ,0.018 
56_Tong,1,Response of organic carbon fractions and microbial community composition of soil aggregates to long-term fertilizations in an intensive greenhouse system,Tong L. et al,2020,"Quzhou County, Hebei Province, China","WE115.017, NS36.867",China,BSk,0.52 ,unified management,Medium,cow dung+chicken dropping+cotton cake+crop stalk,Medium,yes,Microbe,No,Number of species,kg/ha,3557 ,142.78 ,3.0,3430 ,188 ,3.0,137010 ,1715 ,3.0,84430 ,5265 ,3.0,0.036 ,0.002 ,0.484 ,0.0013 ,0.520 ,0.003 
56_Tong,2,Response of organic carbon fractions and microbial community composition of soil aggregates to long-term fertilizations in an intensive greenhouse system,Tong L. et al,2020,"Quzhou County, Hebei Province, China","WE115.017, NS36.867",China,BSk,0.52 ,unified management,Medium,cow dung+chicken dropping+cotton cake+crop stalk,Medium,yes,Microbe,No,Number of species,kg/ha,3557 ,142.78 ,3.0,3430 ,188 ,3.0,105080 ,7586 ,3.0,86120 ,7448 ,3.0,0.036 ,0.002 ,0.199 ,0.0042 ,0.235 ,0.006 
57_Gabr,1,Scale matters: the impact of organic farming on biodiversity at different spatial scales,Gabriel D. et al,2010,England,"WE-1.839, NS53.557",EU,Cfb,0.39 ,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,no,Plant,Yes,Number of species,kg/ha,10.82,0.78 ,24.0,5.33,0.470 ,24.0,4200 ,1560 ,16.0,9300 ,1320 ,16.0,0.708 ,0.001 ,-0.795 ,0.0099 ,-0.087 ,0.010 
57_Gabr,2,Scale matters: the impact of organic farming on biodiversity at different spatial scales,Gabriel D. et al,2010,England,"WE-1.839, NS53.557",EU,Cfb,0.43 ,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,no,Plant,Yes,Number of species,kg/ha,11.09 ,0.65 ,24.0,5.13,0.479 ,24.0,4300 ,1160 ,16.0,9400 ,1560 ,16.0,0.771 ,0.001 ,-0.782 ,0.0063 ,-0.011 ,0.007 
57_Gabr,3,Scale matters: the impact of organic farming on biodiversity at different spatial scales,Gabriel D. et al,2010,England,"WE-1.839, NS53.557",EU,Cfb,0.39 ,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,yes,Bird,Yes,Number of species,kg/ha,4.99,2.80 ,8.0,7.28,2.263 ,8.0,4200 ,1560 ,16.0,9300 ,1320 ,16.0,-0.378 ,0.051 ,-0.795 ,0.0099 ,-1.173 ,0.061 
57_Gabr,4,Scale matters: the impact of organic farming on biodiversity at different spatial scales,Gabriel D. et al,2010,England,"WE-1.839, NS53.557",EU,Cfb,0.43 ,rotations+mechanical weeding+intercropping,Low,livestock manure+nitrogen-fixing legumes,Medium,yes,Bird,Yes,Number of species,kg/ha,5.25,2.69 ,8.0,7.57,2.828 ,8.0,4300 ,1160 ,16.0,9400 ,1560 ,16.0,-0.366 ,0.050 ,-0.782 ,0.0063 ,-1.148 ,0.056 
58_Fisc,1,Mixed effects of landscape structure and farming practice on bird diversity,Fischer C. et al,2011,"Göttingen, Germany","WE9.906, NS51.546",EU,Cfb,0.70 ,no chemical plant protections,Low,no synthetic fertilizer,Low,no,Bird,Yes,Number of species,kg/ha,7.36,3.24 ,15.5,5.81,2.262 ,14.5,3470 ,960 ,16.0,7143 ,1689 ,15.0,0.236 ,0.023 ,-0.722 ,0.0085 ,-0.485 ,0.031 
58_Fisc,2,Mixed effects of landscape structure and farming practice on bird diversity,Fischer C. et al,2011,"Bad Langensalza, Germany","WE10.633, NS51.1",EU,Cfb,0.86 ,no chemical plant protections,Low,no synthetic fertilizer,Low,no,Bird,Yes,Number of species,kg/ha,6.21,3.90 ,6.0,4.92,3.422 ,24.0,4249 ,691 ,6.0,7021 ,652 ,24.0,0.233 ,0.086 ,-0.502 ,0.0048 ,-0.269 ,0.091 
59_Fisc,1,Small mammals in agricultural landscapes: Opposing responses to farming practices and landscape complexity,Fischer C. et al,2011,"Göttingen, Germany","WE9.906, NS51.546",EU,Cfb,0.17 ,no chemical plant protections,Low,no synthetic fertilizer,Low,yes,Mammal,Yes,Number of species,kg/ha,4,1.26 ,11.0,4.09,0.929 ,11.0,4019 ,1476 ,11.0,8136 ,1874 ,11.0,-0.022 ,0.014 ,-0.705 ,0.0171 ,-0.728 ,0.031 
60_Hawe,1,Arable plant communities as indicators of farming practice,Hawes C. et al,2010,east of Scotland,"WE-2.891, NS56.275",EU,Cfb,0.30 ,no herbicide,Low,FYM,Medium,yes,Plant,Mixed,Number of species,NA,14.2,4.75 ,24.0,8.5,4.150 ,53.0,0.4,0.147 ,24.0,0.8,0.291 ,53.0,0.513 ,0.009 ,-0.693 ,0.0081 ,-0.180 ,0.017 
61_Hesl,1,Arthropod Fauna of Conventional and Organic Rice Fields in California,Hesler L.S. et al,1993,"Sacramento Valley of California, USA","WE-122.021, NS39.36",USA,Csa,0.45 ,no agrochemical,Low,cover crops,Low,yes,Invertebrate,Yes,Number of species,kg/ha,16.5,0.71 ,2.0,16,5.657 ,2.0,6636 ,673 ,2.0,8339 ,863 ,2.0,0.031 ,0.063 ,-0.228 ,0.0105 ,-0.198 ,0.074 
62_Holz,1,"Diversity of flower-visiting bees in cereal fields: effects of farming system, landscape composition and regional context",Holzschuh A. et al,2007,"Soester Boerde, Leine Bergland, and Lahn-Dill-Bergland in Germany","WE8.939, NS51.311",EU,Cfb,0.46 ,harrow/hoe weed,Low,organic fertilizer+legumes rotation,Medium,no,Invertebrate,Yes,Number of species,kg/ha,6.95 ,2.99 ,21.0,2.35,1.817 ,21.0,4590 ,1020 ,21.0,7590 ,1840 ,21.0,1.084 ,0.037 ,-0.503 ,0.0052 ,0.581 ,0.042 
62_Holz,2,"Diversity of flower-visiting bees in cereal fields: effects of farming system, landscape composition and regional context",Holzschuh A. et al,2007,"Soester Boerde, Leine Bergland, and Lahn-Dill-Bergland in Germany","WE8.939, NS51.311",EU,Cfb,0.46 ,harrow/hoe weed,Low,organic fertilizer+legumes rotation,Medium,no,Plant,Yes,Number of species,kg/ha,12.79 ,3.78 ,21.0,5.61 ,4.004 ,21.0,4590 ,1020 ,21.0,7590 ,1840 ,21.0,0.823 ,0.028 ,-0.503 ,0.0052 ,0.320 ,0.034 
63_Pelo,1,"Earthworm community in conventional, organic and direct seeding with living mulch cropping systems",Pelosi C. et al,2009,"southwest of Paris, France","WE2.133, NS48.8",EU,Cfb,0.97 ,harrow/hoe weed,Low,straw restitution,Medium,yes,Invertebrate,Yes,Number of species,kg/ha,4.81 ,0.62 ,6.0,4.81 ,0.817 ,6.0,5600 ,NA,5.0,9300 ,NA,5.0,0.000 ,0.008 ,-0.507 ,0.0082 ,-0.507 ,0.016 
64_Ulbe,1,An on-farm approach to investigate the impact of diversified crop rotations on weed species richness and composition in winter wheat,Ulber L. et al,2009,"Northeim in Lower Saxony, Germany","WE9.996, NS51.7",EU,Cfb,0.37 ,mechanical weed control,Low,legume rotation+organic N,Medium,yes,Plant,Yes,Number of species,kg/m2,23.38,7.64 ,8.0,9.17,2.800 ,8.0,0.203,NA,8.0,0.414,NA,8.0,0.936 ,0.025 ,-0.713 ,0.0074 ,0.223 ,0.032 
64_Ulbe,2,An on-farm approach to investigate the impact of diversified crop rotations on weed species richness and composition in winter wheat,Ulber L. et al,2009,"Northeim in Lower Saxony, Germany","WE9.996, NS51.7",EU,Cfb,0.37 ,harrow weed,Low,legume rotation+organic N,Medium,yes,Plant,Yes,Number of species,kg/m2,22.93,7.64 ,8.0,18.26,2.772 ,8.0,0.193,NA,8.0,0.323,NA,8.0,0.228 ,0.017 ,-0.515 ,0.0086 ,-0.287 ,0.025 
64_Ulbe,3,An on-farm approach to investigate the impact of diversified crop rotations on weed species richness and composition in winter wheat,Ulber L. et al,2009,"Northeim in Lower Saxony, Germany","WE9.996, NS51.7",EU,Cfb,0.37 ,mechanical weed control,Low,legume rotation+organic N,Medium,yes,Plant,Yes,Number of species,kg/m2,23.38,7.64 ,8.0,11.51,5.855 ,8.0,0.203,NA,8.0,0.423,NA,8.0,0.709 ,0.046 ,-0.734 ,0.0110 ,-0.026 ,0.057 
64_Ulbe,4,An on-farm approach to investigate the impact of diversified crop rotations on weed species richness and composition in winter wheat,Ulber L. et al,2009,"Northeim in Lower Saxony, Germany","WE9.996, NS51.7",EU,Cfb,0.37 ,harrow weed,Low,legume rotation+organic N,Medium,yes,Plant,Yes,Number of species,kg/m2,22.93,7.64 ,8.0,17.36,4.073 ,8.0,0.193,NA,8.0,0.351,NA,8.0,0.278 ,0.021 ,-0.598 ,0.0100 ,-0.320 ,0.031 
65_Winq,1,Mixed effects of organic farming and landscape complexity on farmland biodiversity and biological control potential across Europe,Winqvist C. et al,2011,"Sweden, Estonia, the Netherlands,Western Germany and Eastern Germany","WE17.633, NS59.85; WE26.567, NS58.35; WE5.717, NS52.533; WE9.936, NS1.534; WE10.647, NS51.108",EU,Dfb&Cfb,0.69 ,Council Regulation (EC) No 834/2007,Low,Council Regulation (EC) No 834/2007,Medium,no,Plant,Yes,Number of species,kg/ha,14.5,4.20 ,4.5,6.3,4.109 ,4.4,3559 ,3370 ,51.0,6273 ,4640 ,100.0,0.834 ,0.116 ,-0.567 ,0.0231 ,0.267 ,0.139 
65_Winq,2,Mixed effects of organic farming and landscape complexity on farmland biodiversity and biological control potential across Europe,Winqvist C. et al,2011,"Sweden, Estonia, the Netherlands,Western Germany and Eastern Germany","WE17.633, NS59.85; WE26.567, NS58.35; WE5.717, NS52.533; WE9.936, NS1.534; WE10.647, NS51.108",EU,Dfb&Cfb,0.69 ,Council Regulation (EC) No 834/2008,Low,Council Regulation (EC) No 834/2007,Medium,no,Invertebrate,Yes,Number of species,kg/ha,7.4,2.52 ,4.6,6.7,2.426 ,4.5,3559 ,3370 ,51.0,6273 ,4640 ,100.0,0.099 ,0.054 ,-0.567 ,0.0231 ,-0.467 ,0.078 
65_Winq,3,Mixed effects of organic farming and landscape complexity on farmland biodiversity and biological control potential across Europe,Winqvist C. et al,2011,"Sweden, Estonia, the Netherlands,Western Germany and Eastern Germany","WE17.633, NS59.85; WE26.567, NS58.35; WE5.717, NS52.533; WE9.936, NS1.534; WE10.647, NS51.108",EU,Dfb&Cfb,0.69 ,Council Regulation (EC) No 834/2009,Low,Council Regulation (EC) No 834/2007,Medium,no,Bird,Yes,Number of species,kg/ha,9,3.29 ,5.0,6,2.965 ,4.3,3559 ,3370 ,51.0,6273 ,4640 ,100.0,0.405 ,0.083 ,-0.567 ,0.0231 ,-0.161 ,0.107 
66_Berb,1,Organic but Also Low-Input Conventional Farming Systems Support High Biodiversity of Weed Species in Winter Cereals,Berbec A.K. et al,2020,"Lublin, Poland","WE22.568, NS51.247",EU,Dfb,0.78 ,mechanical+harrowing weed control,Low,organic fertilizer,Medium,yes,Plant,Yes,Number of species,kg/ha,15.5,3.12 ,3.0,10.67 ,2.887 ,3.0,2000 ,NA,38.0,3100 ,NA,38.0,0.374 ,0.038 ,-0.438 ,0.0130 ,-0.065 ,0.051 
67_Görz,1,The Potential to Save Agrestal Plant Species in an Intensively Managed Agricultural Landscape through Organic Farming—A Case Study from Northern Germany,Görzen E. et al,2021,"Duchy of Lauenburg, southeastern part of Schleswig-Holstein, Germany","WE10.557, NS53.372",EU,Cfb,NA,harrow weed,Low,manure+compost+Fabaceae,Medium,yes,Plant,Yes,Number of species,kg/ha,8.3,0.39 ,35.0,3.8,0.400 ,78.0,4500 ,765 ,8.0,10000 ,510 ,19.0,0.781 ,0.000 ,-0.799 ,0.0038 ,-0.017 ,0.004 
67_Görz,2,The Potential to Save Agrestal Plant Species in an Intensively Managed Agricultural Landscape through Organic Farming—A Case Study from Northern Germany,Görzen E. et al,2021,"Duchy of Lauenburg, southeastern part of Schleswig-Holstein, Germany","WE10.557, NS53.372",EU,Cfb,NA,harrow weed,Low,manure+compost+Fabaceae,Medium,yes,Plant,Yes,Number of species,kg/ha,11.4,0.50 ,102.0,3.8,0.400 ,78.0,4500 ,765 ,50.0,10000 ,510 ,19.0,1.099 ,0.000 ,-0.799 ,0.0007 ,0.300 ,0.001 
68_Batá,1,Landscape-moderated importance of hedges in conserving farmland bird diversity of organic vs. conventional croplands and grasslands,Batáry P. et al ,2010,"Göttingen, Lower Saxony, Germany","WE9.906, NS51.546",EU,Cfb,0.87 ,no pesticide,Low,no chemical fertilizer,Low,no,Bird,Yes,Number of species,kg/ha,4.475,3.16 ,19.0,3.10 ,1.689 ,18.0,42000 ,5000 ,20.0,86000 ,8000 ,20.0,0.368 ,0.043 ,-0.717 ,0.0011 ,-0.349 ,0.044 
69_Asig,1,"Biomass and carbon stocks of organic and conventional cocoa agroforests, Ghana",Asigbaase M. et al,2021,"Suhum Municipality, Eastern Ghana","WE0.45, NS6.041",Ghana,Aw,0.85 ,not mentioned,NA,shade trees,Low,yes,Plant,No,Number of species,kg/ha,5.1,2.46 ,42.0,3.48,2.527 ,42.0,7240 ,3846 ,42.0,7834 ,3077 ,42.0,0.382 ,0.018 ,-0.079 ,0.0104 ,0.303 ,0.029 
70_Cere,1,"Reduced tillage, cover crops and organic amendments affect soil microbiota and improve soil health in Uruguayan vegetable farming systems",Cerecetto V. et al,2021,"Canelones, Southern Uruguay","WE-56.333, NS-34.667",Uruguay,Cfa,0.79 ,not mentioned,NA,poultry manure,Medium,yes,Microbe,No,Number of species,kg/ha,816 ,93.71 ,4.0,726.4,81.135 ,4.0,44919 ,4042 ,4.0,26905 ,2079 ,4.0,0.116 ,0.006 ,0.513 ,0.0035 ,0.628 ,0.010 
71_Gaye,1,"Flowering fields, organic farming and edge habitats promote diversity of plants and arthropods on arable land",Gayer C. et al,2021,"Swabian Alb Biosphere Reserve, Baden-Württemberg, Germany","WE8.243, NS48.758",EU,Cfb,0.57 ,mechanical weeding,Low,no mineral fertilizer,Low,no,Plant,Yes,Number of species,kg/ha,32.09,8.31 ,34.0,13.53,6.020 ,34.0,31500 ,1400 ,34.0,70300 ,2700 ,34.0,0.864 ,0.008 ,-0.803 ,0.0001 ,0.061 ,0.008 
71_Gaye,2,"Flowering fields, organic farming and edge habitats promote diversity of plants and arthropods on arable land",Gayer C. et al,2021,"Swabian Alb Biosphere Reserve, Baden-Württemberg, Germany","WE8.243, NS48.758",EU,Cfb,0.57 ,mechanical weeding,Low,no mineral fertilizer,Low,no,Invertebrate,Yes,Number of species,kg/ha,43.70 ,5.63 ,34.0,37.94,4.294 ,34.0,31500 ,1400 ,34.0,70300 ,2700 ,34.0,0.141 ,0.001 ,-0.803 ,0.0001 ,-0.662 ,0.001 
72_Kund,1,"Effects of simulated drought on biological soil quality, microbial diversity and yields under long-term conventional and organic agriculture",Kundel D. et al,2020,"Therwil, Switzerland","WE7.539, NS47.503",EU,Cfb,0.55 ,biological pest and mechanical weed control,Low,"slurry, composted animal manure",Medium,yes,Microbe,Yes,Number of species,kg/ha,913 ,32.73 ,12.0,828 ,32.732 ,12.0,17809 ,1446 ,12.0,17685 ,1446 ,12.0,0.097 ,0.000 ,0.007 ,0.0011 ,0.104 ,0.001 
73_Lazc,1,Soil management induced shifts in nematode food webs within a Mediterranean vineyard in the Central Coast of California (USA),Lazcano C. et al,2021,"Edna Valley district, San Luis Obispo County, California, USA","WE-120.607, NS35.217",USA,Csb,NA,foliar-applied fungicides+insecticides+mechanical weeding,Medium,poultry manure+feather meal+rock phosphate+potassium sulfate,Medium,yes,Invertebrate,No,Number of species,kg/vine,14,2.13 ,6.0,17,7.432 ,6.0,3.83,0.1,6.0,4.23,0.17,6.0,-0.194 ,0.036 ,-0.099 ,0.0004 ,-0.293 ,0.036 
74_Qiu ,1,Organic Fertilization Assembles Fungal Communities of Wheat Rhizosphere Soil and Suppresses the Population Growth of Heterodera avenae in the Field,Qiu W. et al,2020,"Kai-Feng Experimental Station of China Agricultural University, Henan Province, North China","WE114.45, NS35.267",China,Cwa,0.80 ,not mentioned,NA,chicken manure,Medium,yes,Microbe,Yes,Number of species,kg/ha,614,71.01 ,3.0,537,67.550 ,3.0,7857 ,191 ,3.0,7066 ,298 ,3.0,0.134 ,0.010 ,0.106 ,0.0008 ,0.240 ,0.011 
75_Wahd,1,Organic agricultural practice enhances arbuscular mycorrhizal symbiosis in correspondence to soil warming and altered precipitation patterns,Wahdan S.F.M. et al,2021,"Bad Lauchstädt, Saxony-Anhalt, Germany","WE11.85, NS51.383",EU,Cfb,0.91 ,mechanical weeding,Low,legumes and rock phosphate,Medium,no,Microbe,Yes,Number of species,kg/ha,16.3,6.85 ,10.0,13.37,7.060 ,10.0,78715 ,6496 ,10.0,76245 ,10552 ,10.0,0.198 ,0.046 ,0.032 ,0.0026 ,0.230 ,0.048