UniqueESID,Specific.Service.Name,IndicatorNumber,Indicators,EScomponent
1,Carbon sequestration & storage,1,"carbon storage above and below ground based on Land use type, equation based on national database plant data","C,F"
2,Soil formation,1,organic matter layer thickness in topsoil sampled in the field 3 times over two years,"C,F"
3,Nutrient regulation,1,organic matter content in top soil,F
4,Habitat provision,1,"Riparian quality index, estimated in the field by seven river bank attributes",C
5,Food provision,1,average yield for each land-use,"C,F"
6,Raw material production,1,yearly above ground dry biomass accumulation by land-use type,C
7,Education,1,number of educative pannel per land-use type,C
8,Recreation & tourism,1,Number of area used for social amenity per land-use type,F
9,Fisheries,1,number of lockage events (times the lock was operated),F
10,Nutrient regulation,2,kg nitrogen removed,F
11,River transportation,1,"weight-per-effort (kg/gill net-hour), catch-per-effort (individuals/electrofishing-hour), biomass (kg/gill net summer by year), total commercial landing (kg)",F
12,Biofiltration,1,"mussel mean soft tissue dry mass derived from the number of mussel beds and laboratory derived filtration rates, measure based on the ability of musels to filter water and clear cholorphyll-a","C,F"
13,Nutrient regulation,3,laboratory derived excretion rates of nitrogen and phosphorous by mussels combined with field derived quantities of mussels,F
14,Nutrient regulation,4,"Use of measured mussel biomass and stiochiometric data from the literature to estimate nitrogen, phosphorous and carbon stored in mussel soft tissue",F
15,Fisheries,2,"Modelled fish biomass for each fishery based on secondary field data and landscape predictors (soil permeability, land cover, stream position, bedrock and surficial geology, climate, modeled hydrology, modeled stream temperature and phosphorous concentrations from other publications",C
16,Hydropower,1,"power generated/year, sale price/year, costs","F,D"
17,Irrigated agriculture,1,"hectares under cultivation, average yield /ha, production cost",D
18,Fisheries,3,"catch rate, current market price","F,D"
19,Recreation & tourism,2,"wildlife stock, hunting permit and tourism",F
20,Flood mitigation,1,"area flooded, infrastructure, agrilcultural, housing asset damage",D
21,Water supply,1,modelled water yield from InVEST,C
22,Water quality,1,"modelled concentration of Nitrate, modelled concentration of phosphate, includes land use, climate related variables, slope and altitude derived from secondary data model IHDTM",C
23,Agriculture,1,"farm gross margin (land use and livestock data from census, soil data, calculated travel time for market input, costs)","C,D"
24,Hydropower,2,"modelled hydropower electricity production based on water yield output from SWAT, included unit price from secondary data","C,D"
25,Water supply,2,modelled crop production based on water yield output from SWAT,C
26,Water supply,3,modelled resident water use based on population data,F
27,Water supply,4,modeled water volume (mm/year per km2 cell) obtained directly from national dataset,C
28,Water flow,1,modeled water recharge (mm/year per 350 m2 cell) obtained from water authority,"C,F"
29,Carbon sequestration & storage,2,metric tonnes of CO2 from allometric models from research report,"C,F"
30,Erosion prevention,1,plant density (%) based on RUSLE model,C
31,Soil formation,2,organic carbon content (%) obtained from European Soil Database,"C,F"
32,Recreation & tourism,3,viewsheds from important locations,C
33,Water supply,1,Modeled water volume (InVEST),C
34,Hydropower,3,Modelled hydropower (Invest),C
35,Water quality,2,tonnes of nitrogen retained,C
36,Flood mitigation,2,"Flood regulation supply index (STREAM model-determines response of hydrograph), flood regulation demand (ratio of flood damage-using Damages Scanner Model-to upstream contributing area)","F,D"
37,Water supply,4,"water yield (mm per watershed per year), water scarcity (mm per watershed per year)",C
38,Food provision,2,grazing area (%),C
39,Irrigated agriculture,2,agricultural water use (GL/year),F
40,Carbon sequestration & storage,2,carbon storage capacity (tonnes of carbon stored/ha),"C,F"
41,Natural hazard mitigation,1,native vegetation (%),C
42,Heritage,13,wetlands with cultural significance (ha),"C,F"
43,Recreation & tourism,4,recreational opportunities (counts),C
44,Aesthethics,1,residential properties near rivers (counts),"F,D"
45,Fisheries,4,"Number and total weight of catches of river fish (N_ and Kg), Salmon catch (N_, Kg and �), Trout catch (N_, Kg and �), Crayfish catch (N_, Kg and �), Value of river fish production (�),Number and type of aquaculture facilities (N_), Total aquaculture production (N_ and Kg), Value of aquaculture production (�),Total number and weight of fish caught in rivers come from aquaculture (N_ and Kg), Sturgeon and caviar production (Kg and �), Employment in aquaculture (Number of people)","F,D"
46,Water supply,5,"Total renewable water resources (mm), Runoff (mm), Provision of water for drinking (litters/person/day), Provision and origin of water for agriculture (Hm3), Water produced by desalination (Hm3), Total water consumption (Hm3), Water consumption by drinking (Hm3), Water consumption by irrigation (Hm3), Water consumption by industry (Hm3), Hydropower water use (Hm3), Water consumed in cooling of thermal and nuclear power (Hm3), Aquaculture water use (Hm3), Water exploitation index (%), Water consumption index (%),Value of water (�/m3), VAB and water consumption by irrigation (M3/ha crop and Million �), PIB and provision of water for drinking and agriculture (Hm3 and Million �)","C,F"
47,Raw material production,2,"Area occupied by riparian forests (Has), Wood produced by riparian forests (M3), Firewood produced by riparian forests (Tonnes and m3), Handicrafts with fibers from riparian plant species (�)","C,F"
48,Raw material production,3,"Number and location gravel pits (N_), Production of sand and gravel (Million tonnes and �), Aggregates consumption (Million tonnes), Employment generated by the aggregates sector (Number of people), Number exploitation inland saline (N_), Salt production (Thousand tonnes), Value of salt (Thousand �), Employment generated by inland saline (Number of people), Production of mineral waters and spring waters (Million litters), Value of mineral waters and spring waters (Thousand �)","C,F,D"
49,Hydropower,4,"Total production of hydroelectricity (GWh), Annual net consumption of electricity / Annual hydroelectric production (%), Hydraulic potential of Spanish hydrological basins (MW), Hydroelectricity production of Spanish hydrological basins (GWh), installed power and production of small hydroelectric power (MW)",F
50,Medicinal plants,1,Importance of natural medicines rated based on expert opinion,D
51,Climate regulation,1,"Annual precipitation (mm), Annual average temperature (_C), Evapotranspiration (mm), Evaporation from reservoirs (Hm3, Hm3/m2), Humidity Index (unitless), CO2 emissions from wastewater (Giga-grams), CH4 emissions from wastewater (Giga-grams), N2O emissions from wastewater (Giga-grams)",F
52,Carbon sequestration & storage,3,"Carbon sequestered by plantations of Populus (tonnes CO2/ha/yr), Annual increase in carbon sequestration in living biomass of riparian forest (Tonnes C/ha/yr and Giga-grams CO2/ha/year), Organic carbon stored in fluvisols (tonnes C/ha)","C,F"
53,Water quality,3,"Snow (Hm3), Number and area of glaciers (N_, Has), Ground-water recharge (m), Soil water (Litters/m2), Hydrological state index (unitless), Regulated water in reservoirs (Hm3), Water stored in reservoirs / total water generated in Spanish watersheds (%), Water losses in distribution channels (Hm3 /yr), Recycled water (Hm3), Number of effluent sewage (N_), Number and efficiency of the treatment plants (N_), Waste treatment (M3/person/day), Sludge produced in treatment plants (Tonnes of dry matter), Point source pollution and diffuse pollution (N_), Fertilizer consumed (Kg/ha), BOD5 (Mg/l), Phosphorus concentration in surface water (�g/l P-PO4), Nitrate concentration in surface water (Mg/l), Salinity in surface water (�S/cm), General Quality Index (0-100), Ecological status of Spanish rivers (EU Water Framework Directive) (unitless), Chlorides in groundwater (Mg/l), Nitrate concentration in groundwater (Mg/l), Public financial investment in water quality (Million �)",C
54,Erosion prevention,2,"risk of gully erosion (Tonnes/ha/yr), Sediments accumulate in reservoirs (Tonnes.yr), Specific degradation Index ( average annual of solid input x sediment density / surface catchment) (Tonnes/km2/yr)","F,D"
55,Soil formation,3,"Fluvisols surface (has), sludge produced in treatment plants used in agriculture (Thousand tonnes dry matter)","C,F"
56,Natural hazard mitigation,2,"number of floods (N_), Number of dry periods (N_), Hydrological State Index in terms of the incidence of the drought (0-1), Deaths caused by natural disasters (N_), Economic losses from natural disasters (�), Conservation status of riverbanks (unitless), Urbanized land surface (has)","C,F"
57,Biological control,1,"Number of introduced vertebrates in rivers and riparian (N_), Coefficient of integrity zoogeographic for inland fish (N_), Number of introduced aquatic invertebrates (N_), Introduced riparian and aquatic plants (N_), Economic cost of invasive species and eradication (�)","F,D"
58,Education,2,"Number of references on _ecosystem services�, _Spain� and _water� in ISI web knowledge (N_), Scientific articles published in Limnetica (Journal of the Limnology Iberian Society) (N_), Number of Congress relating to water (N_), Number of courses relating to water (N_), PhD theses relating to water and aquatic ecosystems, Number of public and private organizations that develop research on water (N_), Projects about Research + Development on water and aquatic ecosystems (N_)",F
59,Education,3,"Traditional hydraulic systems (unitless), Occupations linked to rivers and riparian (unitless), Rivers and riparian plants used in gastronomy (unitless), Rivers and riparian plants used in other productive activities and recreation (unitless)",F
60,Aesthethics,2,"Average age of human population (unitless), Linguistic richness: words related to water use, proverbs sayings and riddles (N_), Folklore: festivals and dances related to water (unitless), Legal and social organizations (unitless)","F,D"
61,Spiritual & religious spaces,1,"Rites and beliefs related to water (unitless), religious places related to rivers and riparian: Las Romerias (N_), proverbs of water and religious cult (unitless), catastrophic events and religious cult",F
62,Aesthethics,3,"Scenic rivers (N_ y km), Number of visitors to National Parks including rivers (N_), Length of river altered by dams (km), Length of riparian affected by change of use (km)","C,F"
63,Recreation & tourism,5,"River fishing preserves (N_ y km), Quality Spanish river water for fishing (unitless), Number river fishing licenses (N_), Number river beaches (N_), Hot mineral spring water and users (N_), water sports unitless)","C,F"
64,Education,4,Environmental Education Programs on water and aquatic ecosystems (unitless),"C,F"
65,Gas regulation,1,NA *see comment section,NA
66,Climate regulation,2,NA *see comment section,NA
67,Water supply,6,NA *see comment section,NA
68,Soil formation,4,NA *see comment section,NA
69,Waste treatment,1,NA *see comment section,NA
70,Food provision,3,NA *see comment section,NA
71,Raw material production,4,NA *see comment section,NA
72,Recreation & tourism,6,NA *see comment section,NA
73,Waste treatment,2,Interview use of direct sanity use of the river (yes/no),F
74,Recreation & tourism,7,Interview use of the river for recreation (yes/no),F
75,Food provision,4,Interview use of the river for harvesting plants (yes/no),F
76,Water supply,7,Interview use of groundwater (yes/no),F
77,Waste treatment,3,Interview use of the river for solid waste disposal (yes/no),F
78,Waste treatment,4,Interview use of the river for sewage disposal (yes/no),F
79,Water supply,1,modelled water provision (InVEST),C
80,Erosion prevention,3,modelled erosion control (InVEST),"C,F"
81,Recreation & tourism,8,"number of visitor particpating in fishing, playing walking or sports (field observations)",F
82,Habitat provision,2,"river habitat stucture (% alteration, % forest vs. grass vs. gravel vs. sand, # of recreational sites)",C
83,Water quality,4,"water quality (BOD, SS)",C
84,Fisheries,5,Market price for fish (fish biomass per surface are of fish age 3-4 years old x market price of fish),"C,D"
85,Recreation & tourism,9,Market price for fishing permit,D
86,Water quality,5,"avoided treatment cost for pollutant of interest (updatke rate, annual loading of pollutant, cumulative pollutant loading, discharge-field measure)","F,D"
87,Erosion prevention,4,avoided cost (amount of particulate matter that can be retained in a river multipled by marginal cost of removal),"C,D"
88,Flood mitigation,3,"Flow: single-event rainfall, storm days, the curve number (a coefficient taking a value between 0-100 modified based on land use, permiability, soil moisture before rain, and topography), Capacity: average storm preceipitation reduced by the ecosystem in one year (mm)/ annual storm precipitation generating flooding, Value: Totlal number of storms, flood damage (RMB Yuan)","F,D"
89,Hydropower,5,Monthly discharge (m3s-1) (before and after dam building),C
90,Fisheries,6,CPUE (mass per mtre of net per night),"C,F,D"
91,Water supply,8,"River Water available for cooling over a regional domain (available discharge, available discharge when power plants are operational, available discharge considering temperature requirements for cooling), water availability analyzed at 345 power plants that require river water",C
92,Water quality,6,"mussel filtration capacity, measured experimentally in-situ",C
93,Recreation & tourism,10,"Cameras to record boating activity, and an acoustic doppler velocimeter used during experimental boating to obtain information waves (this was used to estimate impact of boating on mussel filtration capacity)",F
94,Regulation of water temperature,1,"stream hydrology (segment inflow,temperature inflow, Segment outflow, accretion temperature), stream geometry (node latitude, node elevation, width of node, terms, Manning's N), meteorology (mean daily air temp, relative humidity, wind speed, solar radioation, ground temperature thermal gradient) and assessment of field shading conditions (Topographic shade, vegetation shade) to determine stream temperature at the intake for the drinking water plant","C,F"
95,Erosion prevention,5,Universal Soil Loss Equation (exported and retained sediment) in InVEST,F
96,Water quality,7,Universal Soil Loss Equation (exported and retained sediment) in InVEST,C
97,Food provision,5,Cultivated land %,C
98,Water supply,9,Water area %,C
99,Timber,1,Forestry area %,C
100,Climate regulation,3,"Air temperature, precipidation, sunshine hours",F
101,Soil formation,5,"Loam proportion %, slope derived from DEM","C,F"
102,Nutrient regulation,5,Soil phosphorus content %,"C,F"
103,Primary production,1,Net primary production (details on calculation NA),"C,F"
104,Flood mitigation,4,"Water storage capacity based on land-cover analyses asssessing soil, hydrology and climatic data",C
105,Recreation & tourism,11,Documented and field identified runable paddling routes,C
106,Agriculture,2,"Land cover type, census data from the government, and values of individual crops from another publication","C,F,D"
107,Food provision,6,"Land cover type, census data from the government, and values of livestock from another publication","C,F"
108,Carbon sequestration & storage,1,"Carbon storage in vegetation and soil based on land cover type, derived from previously conducted study, value estimated based on governmental carbon prices","C,F"
109,Timber,2,land cover and local yield data from a Forestry Commission,"C,F"
110,Flood mitigation,5,"Index in relative change of flood risk by land use which uses land cover, soil types, rainfall, slope characteristics (developed by the Environmental Agency)",C
111,Aesthethics,4,Mapping-participants identify places of aesthetic value,F
112,Recreation & tourism,7,Mapping- participants identify of up to 5 areas used for recreation and rate their importance,"F,D"
113,Heritage,1,Mapping- participants identify of up to 5 areas that they value for their cultural heritage and rate their importance,"F,D"
114,Water supply,2,"Modeled with SWAT using: land cover, hydrologic network type, soil and vegetation type, precipitation, air temperature, solar radiation, wind speed, relative humidity",C
115,Water supply,2,"Modeled with SWAT using: Daily rainfall & temperature, river discharge, land-cover",C
116,Gas regulation,2,land-use (as in Xie et al. 2003),"C,F"
117,Climate regulation,4,land-use (as in Xie et al. 2003),"C,F"
118,Water supply,10,land-use (as in Xie et al. 2003),C
119,Soil formation,6,land-use (as in Xie et al. 2003),"C,F"
120,Waste treatment,5,land-use (as in Xie et al. 2003),C
121,Food provision,7,land-use (as in Xie et al. 2003),C
122,Raw material production,1,land-use (as in Xie et al. 2003),C
123,Recreation & tourism,12,land-use (as in Xie et al. 2003),C
124,Water quality,8,"Taxa of invertebrates observed/taxa of invertebrates expected in an unstressed site, calculated using an Average Score per Taxon and the River Invertebrate Prediction and Classification System, average created for 10 x 10 km grid cells & River",C
125,Habitat provision,3,Habitat Quality Assessment (frequency of channel features known to be of value to wildlife) & Habitat modification index (measure of extent of channel modification) (as in Raven et al. 1988) using GIS,C
126,Carbon sequestration & storage,1,soil and vegetation carbon based on land-cover at a 1 x 1 km grid resolution,"C,F"
127,Agriculture,1,"Summed gross margin of major crops, timber and livestock, raw yields obtained from national database","F,D"
128,Recreation & tourism,13,Number of leisure visits from the National survey of leisure trips,F
129,Erosion prevention,6,"Modeled with SWAT using: Land use, soil infiltration (Universal Soil Loss Equation)","C,F"
130,Water flow,2,"Modeled with SWAT using: precipitation, air temperature, air relative humidity, hours of sunshine, wind speed, stream flow from gages","C,F"
131,Fisheries,7,Fishery catch in annual tonnes,F
132,River transportation,2,# of waterway passengers and annual transport capacity in tonnes,"C,F"
133,Irrigated agriculture,2,Mean water volume used for farmland irrigation and land cover,F
134,Recreation & tourism,12,size of area and monetary value estimate from Costanza et al. (1997),"C,D"
135,Education,5,Funds given to rescue by-catch & Support funds given to researchers,"C,F"
136,Aesthethics,5,size of area & value from Costanza et al (1997),"C,D"
137,Water quality,9,Tonnes of sediment transported,C
138,Habitat provision,4,Size of area & monetary value from Costanza et al (1997),"C,D"
139,Water supply,1,"Modeled with InVEST (Water yield: Average annual precipitation, annual reference evapotranspiration, correction factor for vegetation type, soil depth, plant available water content, land use and cover, root depth and elevation + Water scarcity: saturated hydraulic conductivity and consumptive water use)",C
140,Water supply,1,"Modeled with InVEST (Root restricting layer depth, precipitation (comparison between gauges data and various satellite data as precipitation input to the model), plant available water content, reference evapotranspiration, land-use and cover, watersheds, subwatershed, root depth, plant evapotranspiration coefficient, seasonality factor (Z))",C
141,Water quality,1,"Physicochemical (e.g. PhD, nitrate, conductivity, turbidity etc.) and geographic (e.g. proportion of watershet with agricultural land cover in 30m adjacent to stream, etc.) features",C
142,Water quality,10,"pH, concudtivity, temperature, depth, dissolved solids, dissolved oxygen, ammonia, nitrates, total nitrogen, total phophorus, total organic carbon, total coliform, fecal coliform, streptococci, diatoms & diatomological indexes",C
143,Water supply,11,"topography, vegetation, precipitation, temperature, and geology using the Thornthwaite-matter method to estimate water balance-Data came from meteorological stations",C
144,Water quality,11,"river salinity caused by irrigation, measured by the sum of changes in drainage following land conversion, changes in salinity and dollar benefit of salinity avoided","C,F"
145,Carbon sequestration & storage,4,carbon sequestration capacity for native tree plantation coverage using 3-PG tree productivity simulations model,C
146,Agriculture,1,"Profit at full equity for each agricultural land use (includes price, yield & costs)","F,D"
147,Water flow,3,Net present value of increased flows for improving health of a predominant ecological community (as measured in previous publication),"C,F"
148,Aesthethics,6,Willingness to pay for landscape aesthetics changes (as documented in previous local study),D
149,Recreation & tourism,14,"questionnaire distributed by mulitiple means assessing activities undertaken and expenditures related to this, in addition to the use of existing regional data sets on campfire places, nature tourism, recreational fishing, harbours, beaches, canoeing routes, ski trails, snowmobile tracks, hiking routes, green infrastructure","C,F,D"
150,Heritage,2,"Questionnaire regarding visits to the local chamber music festival and other historical sites, sites were documented based on secondary data",F
151,Water quality,12,Turbidity,C
152,Fisheries,6,"Fish yield & value, as well as, fishing effort from public reports","C,F,D"
153,Water quality,13,"Followed APHA method (Collected field data on conductivity, total suspended solids, alkalinity, nitrates, choride, calcum, sodium, magnisium & potassium only a monthly basis for a year)","C,F"
154,Carbon sequestration & storage,1,Satellite land use & transfer valuation,"C,F,D"
155,Water supply,10,Satellite land use & transfer valuation,"C,D"
156,Erosion prevention,14,Satellite land use & transfer valuation,"C,F,D"
157,Biological control,2,Satellite land use & transfer valuation,"C,D"
158,Food provision,7,Satellite land use & transfer valuation,"C,D"
159,Recreation & tourism,12,Satellite land use & transfer valuation,"C,D"
160,Water supply,1,"Modelled water provisionning using InVEST (Difference between rainfall and evapotranspiration in the basin, resulting in net remaining water supply)",C
161,Nutrient regulation,6,Modelled Waste Treatment using InVEST (Total nitrogen and phosphorus removed from water in the basin),"C,F"
162,Erosion prevention,5,Modelled erosion protection using InVEST (Amount of sediments retained based on soil erosion rates),"C,F"
163,Habitat provision,5,Modelled provision of habitat for species using InVEST (Suitability of land use type to provide habitat for biodiversity and anthropogenic threats that can impair habitat quality),C
164,Erosion prevention,6,"Modeled with SWAT using the Uniserval Soil Loss Equation (using information on land use, topography, soils, climate)","C,F"
165,Agriculture,2,"area under production, yield and prices via surveys & aerial photographs","C,F,D"
166,Habitat provision,6,Surveys with anglers of good fishing locations and derived fish presence,C
167,Fisheries,6,Surverys on fishing effort and catch,"F,D"
168,Water supply,12,Daily Streamflow data from gauges and precipitation from weather stations,C
169,Timber,1,Forest cover change over time based on temporal Landsat imagery and field validataion,C
170,Water supply,13,River runoff and storage volume of reservoir,C
171,Food provision,8,Fish product and aquatic vegetables assessed by market value,D
172,Raw material production,5,"market value of food and raw materials (lumber, firewood, fiber, medicine, gene resources)",D
173,Erosion prevention,1,Amount of soil covered by riparian plants,C
174,Nutrient regulation,7,Deposited nitrogen and phosphorous in the riparian zone,F
175,Habitat provision,7,Protection expenses of providing habitat,D
176,Flood mitigation,6,Riparian vegetation seing as how the reservoir on the river regulates flooding,C
177,Water quality,14,Release of volume of Nitrogen and Phosphorous into river segment,"C,F"
178,Nutrient regulation,8,rehabilitation expenses saved by flowing water removing sand and nutrient substances to maintain an unblocked channel,"F,D"
179,Gas regulation,3,fixation of CO2 and release of O2 by riparian forest and grassland,"C,F"
180,Erosion prevention,7,"Canopy coverage measured by crown projection and Leaf area index, and normalized difference vegetation index (categorization of vegetation cover) , and vegetation density (basal area and herb abundance), erosion intensity (rill and spash pedestal)","C,F"
181,Primary production,2,Annual crop production from land use data and field data and annual biomass increment,"C,F"
182,Hydropower,6,"Annual hydroelectric production in kWh from two years for production, variation modelled for dry and wet seasons using the total amount of water flow per year, the temporal distribution of water flow and the water level difference in the dam","C,F"
183,Erosion prevention,4,"Modelled difference in soil erion between forestlands and non-forestlands and cost of cleaning sediment, includes data from an 'in situ' survey","C,F,D"
184,Water flow,4,"Modelled cpacaity of river water flow regulation by varying tree, soil and slope land use complexes (takes into account canopy interception, litter absorption, storage in soil and underground and groundwater discharge as well as the intensity of rainfall)","C,F"
185,Agriculture,3,"Hay, grass and fodder (crops/year)",F
186,Food provision,9,Dairy and meat (production/year),F
187,Timber,3,"Wood harvested for construction, paper or fuel (production/year)",F
188,Raw material production,6,Reed crop (crops/year),F
189,Water supply,4,Drinking water production after bank or deep infiltration (m3/year),C
190,Flood mitigation,7,"Avoided in-reach and downstream flood damage-calculated as area flooded times the crops lost, the reduced forest growth and property damage",F
191,Nutrient regulation,9,Phosphorous or nitrogen mass removed during flooding (k/ha/year),F
192,Carbon sequestration & storage,5,Conservative estimates of above ground accumulation in C/ha/year for wetlands and woodlands),"C,F"
193,Recreation & tourism,15,"Hunting, fishing, kayaking number of issued liscences or rentals",F
194,Aesthethics,6,"value of scenic beautiful, biodiversity, having a better water quality and existence by various wtp questionaires that were compiled",D
195,Water supply,2,"SWAT modeled water yield (net amount of surface and ground water that leaves the watershed and contributes to stream flow), authors mention that water supply is locally used for hydropower, agriculgural irrigation and resident daily usage",C
196,Nutrient regulation,10,SWAT estimate of removal of fertilizer inorganic and organic N and P by vegetation and soil cover,F
197,Erosion prevention,6,"SWAT estimated sediment retention (Different with vegetation and bare soil vs actual Soil and vegetation retention, which is modeled)","C,F"
198,Water quality,15,"physico-chemical parameters (DO, BOD, pH, NO3, P) and macro-invertebrates (Number of taxa, EPT, Average score per taxon, total number of individuals, and South Invertebrate portugese index","C,F"
199,Recreation & tourism,16,"Willingness to pay for outings, boating, fishing and swimming, relationship curves estimated by Van Houtven et al. (2007) & number of issued recreational fishing permits, and number of guests at the local hotel as well as downloaded trail maps","F,D"
200,Aesthethics,6,"Willingness to pay for water appearance, clarity, colour, odour, algae, diversity, wildlife and ecology, relationship curves estimated by Van Houtven et al. (2007)",D
201,Water quality,16,SWAT modeled water quality (Nitrate concentration and Nitrogen export),"C,F"
202,Water supply,2,"SWAT modeled water quantity (Total annual water yield, also included measures of water timing)",C
203,Erosion prevention,6,SWAT modeled erosion control (soil erosion % of the basin under soil erosion risk),C
204,Flood mitigation,8,SWAT modeled flood regulation (flow duration curve and soil water content),"C,F"
205,Water supply,1,"Water yield and scarcity modeled with InVEST (input data includes soil depth, precipitation, plant-available water content, average annual potential evapotranspiration and land-cover, and, water consumption)",C
206,Nutrient regulation,11,"InVEST modeled water purification nitrogen retention model (accounts for water yield, land use, nitrogen loading and filtration rates and water quality standards)",F
207,Water flow,5,"rate of canopy interception of rain, rate or water absorbed by litter, ground water storage, slope","C,F"
208,Hydropower,6,Mean annual kWh,"C,F"
209,Water supply,14,"Water quantity in a local source over time (from other publications) and water consumption for industrial, agricultural and household uses in m3","C,D"
210,Nutrient regulation,12,"measures of Diaphaneity (m), Total nitrogen (mg/L), Total phosphorous (mg/L), COD, Chlorophyll-a in one lake over time","F,D"
211,Fisheries,7,Fish catch in tons over time (Three lakes in the study area),F
212,Habitat provision,8,"Zooplankton and Invertebrate sampling in one lake, compared to a reference lake",F
213,Flood mitigation,9,Occurence of floods over time and change in depth of rivers over the past 20 years (caused by silting),F
214,Water quality,17,water clarity (estimated by expert ecologist judgment in discussion groups),"C,F"
215,Habitat provision,9,fish habitat and wildlife habitat in river buffer zones (estimated by expert ecologist judgment in discussion groups),C
216,Recreation & tourism,17,"Allowable water uses (estimated by expert ecologist judgment in discussion groups, specific attributes not listed)",C
217,Aesthethics,7,Index of ecosystem naturalness (estimated by expert ecologist judgment in discussion groups),C
218,Timber,4,"Stem wood volume (m3)/above ground biomass that can be produced by poplars, based on previous study collecting information for 9 years",C
219,Carbon sequestration & storage,6,"C, N and P stored in biomass, based on previous study results","C,F"
220,Energy,1,"Number of houses that could be heated by the energy derived from poplar woody biomass, based on a combination of local historical average energy requirements and woody biomass was adjusted for average moisture",C
221,Water quality,7,"InVEST: Discharge of dissolved phosphorous into local watershed estimated using slope, soil depth and surface permeability","C,F"
222,Water flow,6,"InVEST: Volume and timing of water flow from area to catchment outlet based on water retention characteristics of land use, areas that contribute less to water retention have higher storm peak retention (water flow)","C,F"
223,Soil formation,7,"InVEST: USLE to predict annual rate of soil erosion, which is a function of land use, soil type, rainfall intensity, and topography","C,F"
224,Carbon sequestration & storage,7,"InVEST: carbon in above ground and belowground biomass, soil and harvested wood products using carbon accounting models, considred stored and harvested carbon","C,F"
225,Habitat provision,10,"Value based on land use and cover and review of values found in other studies, presence of service estimated based on expert judgement","C,D"
226,Erosion prevention,8,"Value based on land use and cover and review of values found in other studies, presence of service estimated based on expert judgement","C,D"
227,Flood mitigation,10,"Value based on land use and cover and review of values found in other studies, presence of service estimated based on expert judgement","C,D"
228,Food provision,7,"Value based on land use and cover and review of values found in other studies, presence of service estimated based on expert judgement","C,D"
229,Water quality,19,"Water temperature, pH, conductivity, NO3-N, NO2-N, NH4-N, PO4 (all in mg/L)","C,F"
230,Nutrient regulation,13,"Residual N (MgN) calculated as the difference between nitrogen input (manure, chemical fertilizer, nitrate from rain, irrigation, and nitrogen-fixation) and output (crop harvest, crop by products and denitrification) of farmland, using a mass balance model and secondary data",F
231,Nutrient regulation,3,"Mussel bed excretion of Nitrogen, calculted by NH3, P, molar N:P excretion and biodeposition rate of mussels subject to different temperature treatment, results were extrapolated to mussel beds by measuring mussel densities in the field",F
232,Recreation & tourism,18,"Observations, interviews and household surveys to determine if the service was a promenent ES for the community, including WTP",D
233,Aesthethics,6,"Observations, interviews and household surveys to determine if the service was a promenent ES for the community, including WTP",D
234,Heritage,3,"Observations, interviews and household surveys to determine if the service was a promenent ES for the community, including WTP",D
235,Raw material production,7,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can obtain building materials'",C
236,Energy,2,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can find sources of energy'",C
237,Food provision,10,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can obtain food'",C
238,Water supply,7,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can obtain fresh water'",C
239,Aesthethics,4,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can experience beauty'",C
240,Medicinal plants,2,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can find what you need to stay healthy or to become healthy when you are sick'",C
241,Education,6,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can learn something'",C
242,Heritage,1,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can go for physical exercise and training' or 'places where you can be heard it you have an announcement to make' or 'places where you feel at home and experience a sense of belonging' or 'places where you can meet people and have a good time with them'",C
243,Spiritual & religious spaces,2,"Ethonographic particpant observations, semistructured interviews, and participatory mapping of landscape values asking about 'places where you can go to pray and express your spirituality and religion'",C
244,Water supply,4,Map of water yield of Columbia (mean annual conditions) produced by IDEAM which was at a 2km resolution calculated superficial water quantity per unit catchement surface area as precipitaiton - real evapotranspiration,C
245,Water flow,7,Rentention and hydrological regulation index (area below the mean flow linea and area below the daily flow duration curve,"C,F"
246,Erosion prevention,9,"Use of national landslipe susceptibility map as a proxy, map analysed geological geomorphologic, edaphic variables and vegetation cover to identify areas that should be managed for hazard prevention in the face of erosion- the map establishes 5 degrees of suceptibility",C
247,Carbon sequestration & storage,1,"capacity of land cover type to fix carbon above ground, estimates derived from allometric models of Above ground carbon storage, all estimates derived from previous work","C,F"
248,Carbon sequestration & storage,8,"Map of organic carbon distribution in columbian soils (incorporated geomorphology, climate, physical and chemical soil properties and soil taxonomic classes for each soil unit in the country)","C,F"
249,Water supply,15,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
250,Water flow,8,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
251,Water quality,20,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
252,Air quality,1,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
253,Habitat provision,11,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
254,Recreation & tourism,19,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
255,Heritage,4,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
256,Heritage,4,"Invertiew participants throughout the watershed asked to rank the relative importance/presence of the ES currently, over the past 10 years and under multiple alternative water flow scenarios",D
257,Water supply,7,"Interviews with local farmers that live on the river or one of its tributaries to ask them about how they use and benefit from the water and forest on their property, some mentioned that they drink water from groundwater and others from the rivers,Field assessment of the ecological integrity of the river using the Stream Visual Assessment Protocol (SVAP) which visually looks at up to 15 elements and is used as a proxy for this ES (In this study these included: channel condition, hydrological alteration, riparian zone condition, bank statibility, water appearance, nutrient enrichment, barriers to fish movement, fish cover in the stream, pools, intertebrate habitat, canopy cover, presence of manure, riffle, embeddedness and presence of macroinverts)","C,F"
258,Water supply,16,"Interviews with local farmers that live on the river or one of its tributaries to ask them about how they use and benefit from the water and forest on their property, some mentioned that they saw a change in the water level of the river over time, Field assessment of the ecological integrity of the river using the Stream Visual Assessment Protocol (SVAP) which visually looks at up to 15 elements (In this study these included: channel condition, hydrological alteration, riparian zone condition, bank statibility, water appearance, nutrient enrichment, barriers to fish movement, fish cover in the stream, pools, intertebrate habitat, canopy cover, presence of manure, riffle, embeddedness and presence of macroinverts)",C
259,Flood mitigation,11,"Interviews with local farmers that live on the river or one of its tributaries to ask them about how they use and benefit from the water and forest on their property, some mentioned that that noticed a change in the flood line of the river",F
260,Regulation of water temperature,2,"Interviews with local farmers that live on the river or one of its tributaries to ask them about how they use and benefit from the water and forest on their property, some mentioned that the forest was an important cooler of the environment",F
261,Soil formation,8,"Interviews with local farmers that live on the river or one of its tributaries to ask them about how they use and benefit from the water and forest on their property, some mentioned that the forest played a role in the enrichement of soil organic matter",F
262,Agriculture,4,Number of job associated with agricultureal land use and survey of willingness to pay for alternative values under different scenarios,"F,D"
263,Habitat provision,12,Quantitative macroinvertebrate community index and survey of willingness to pay for alternative values under different scenarios,"F,D"
264,Water quality,21,Quantitative macroinvertebrate community index (used as a proxy for water quality due to invertebrate sensitivity to pollution and changes in surrouding environment) and survey ofwillingness to pay for alternative values under different scenarios,"C,F,D"
265,Recreation & tourism,20,Proportion of popular sites in the region suitable for swimming (based on the suitability for recreation grade assessment published annually by the government) and survey ofwillingness to pay for alternative values under different scenarios,"C,D"
266,Heritage,5,"Cultural health index, an index developed for using Maori communitities' in-depth knowledge about how cultural values are assocaited with freshwater and environmental management, this index includes traditional associations, cultural stream health and a composite that assesses species availability, ongoing abilities to harves and access sites and perception and use of sites, willingness to pay for this form of service under different scenarios was also assessed","F,D"
267,Food provision,10,Group participatory identification of major ecosystem services in the basin,C
268,Water supply,16,Group participatory identification of major ecosystem services in the basin,C
269,Energy,3,Group participatory identification of major ecosystem services in the basin,C
270,Raw material production,8,Group participatory identification of major ecosystem services in the basin,C
271,Water supply,15,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (rainfall) in relation to the 10 other ES selected for assessment in this study,D
272,Aesthethics,8,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Opportunities for enjoying silence) in relation to the 10 other ES selected for assessment in this study,D
273,Carbon sequestration & storage,2,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Carbon dioxide uptake by growing trees/plants) in relation to the 10 other ES selected for assessment in this study,D
274,Nutrient regulation,14,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Wetlands' plant nutrient reduction) in relation to the 10 other ES selected for assessment in this study,D
275,Soil formation,9,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Contribution of weathering to soil fertility) in relation to the 10 other ES selected for assessment in this study,D
276,Recreation & tourism,21,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Opportunities for hunting) in relation to the 10 other ES selected for assessment in this study,D
277,Recreation & tourism,22,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Opportunities for fishing) in relation to the 10 other ES selected for assessment in this study,D
278,Recreation & tourism,23,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Other opportunities for enjoying nature) in relation to the 10 other ES selected for assessment in this study,D
279,Biological control,3,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Predation by birds of vermin insects) in relation to the 10 other ES selected for assessment in this study,D
280,Nutrient regulation,15,Questionnaire answered by 58 randomly selected farmers in which they were asked to rank the importance of this ES (Nitrogen uptake by legumious plants and alders) in relation to the 10 other ES selected for assessment in this study,D
281,Water quality,22,Survey of willingness to pay a higher water bill to obtain a better water quality,D
282,Erosion prevention,10,Survey of willingness to pay a higher water bill to obtain improved control of erosion into the river,D
283,Habitat provision,13,Survey of willingness to pay a higher water bill to provide more habitat to wildlife and fishes,D
284,Waste treatment,6,Survey of willingness to pay a higher water bill in order for the river to do a better job at diluting wastewater,D
285,Recreation & tourism,24,Survey of willingness to pay a higher water bill to obtain more areas to do recreational activities in,D
286,Nutrient regulation,16,Supply of nutrients that preserve the coastal ecosystem (This ES was identified by interviewees as benefits people obtain from ecosystems),F
287,Erosion prevention,11,Supply of nutrients that can help preserve coastal ecosystems (This ES was identified by interviewees as benefits people obtain from ecosystems),F
288,Water flow,9,"Supply of a variable flow regime, maintenance of aquifer levels, maintenance of the walk wedge away which all contribute to the preservation of wetlands (This ES was identified by interviewees as benefits people obtain from ecosystems)",F
289,Raw material production,9,Supply of sand and gravel that allow for extraction (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
290,Water supply,7,Supply of a minimum water flow to generate artificial snow production (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
291,Water supply,7,the supply and storage of clearn water and the maintenance of salt wedge away (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
292,Food provision,11,provisioning of otters for their skin and meat (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
293,Water supply,7,supply of water to maintain a grazing location for livestock (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
294,Water supply,7,supply of water for industry (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
295,Irrigated agriculture,3,Supply of water for intensive farming (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
296,Timber,5,"the extraction of timber to provide wicker, alder, poplar timber for basketry, turnery and shoddy wood (This ES was identified by interviewees as a benefit people obtain from ecosystems)",F
297,Hydropower,7,Supply of water flow sufficient to generate hydropower (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
298,Flood mitigation,12,"security against floods through the transport of flood flows, the maintenance of a river channel clean of vegetation, the maintenance of a natural riparian forest in the floodplain (This ES was identified by interviewees as a benefit people obtain from ecosystems)",F
299,Water supply,7,Water supply and flow of clean water to be able to wash clothes with (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
300,Recreation & tourism,25,"Angling, the production of healthy and edible species for recreation (This ES was identified by interviewees as a benefit people obtain from ecosystems)",F
301,Aesthethics,4,Appreciation of the natural environment (contribution to the beauty and support of biodiversity) (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
302,Recreation & tourism,26,water flow with right conditions for boating (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
303,Education,6,Education and research (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
304,Aesthethics,4,relaxing to the sound of a flowing stream and having inspiration (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
305,Heritage,6,river-related cultural heritage (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
306,Recreation & tourism,27,swimming (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
307,Recreation & tourism,28,tourism (This ES was identified by interviewees as a benefit people obtain from ecosystems),F
308,Recreation & tourism,29,"walking, jogging and cycling (This ES was identified by interviewees as a benefit people obtain from ecosystems)",F
309,Agriculture,5,"cultivated land, cereal production",F
310,Water supply,9,area of oases,C
311,Erosion prevention,12,"artificial markers (clay pads), tree-ring (dendrogeomorphic) techniques, and pollen analyses",F
312,Habitat provision,14,"focus group (5-20 people) prompted with questions, What contributes most to your happiness?The river provides habitat for iconic species (like barramundi, black bream, long-neck turtles, sawfish)",D
313,Habitat provision,15,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? The catchment provides habitat for a variety of plants and animals",D
314,Aesthethics,4,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? A place where the river flows naturally and there are no dams",D
315,Heritage,7,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? A place for natural heritage (e.g., important National Parks and unique environments)",D
316,Raw material production,10,"focus group (5-20 people) prompted with questions, What contributes most to your happiness?A place for development and intensified production",D
317,Recreation & tourism,28,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? The tourism industry in the catchment provides jobs and income",D
318,Agriculture,4,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? The agricultural industry in the catchment provides jobs and income",D
319,Raw material production,11,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? The mining industry in the catchment provides jobs and income",D
320,Food provision,12,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? The cattle industry in the catchment provides jobs and income",D
321,Timber,5,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? The forestry industry in the catchment provides jobs and income",D
322,Aesthethics,4,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? A place that is relatively free from congestion and major development",D
323,Heritage,8,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? A place that supports families and communities",D
324,Heritage,9,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? A place to preserve traditional (e.g. Indigenous) cultural values",D
325,Education,6,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? A place for research, teaching, and learning",D
326,Heritage,10,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? It is important to keep the area in good condition for future generations",D
327,Heritage,11,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? Even if I could never visit ANY part of the Daly, I would still like to know _it is there�",D
328,Recreation & tourism,30,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? Fishing and hunting for fun",D
329,Recreation & tourism,31,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? Swimming, camping, boating, being in country",D
330,Food provision,13,"focus group (5-20 people) prompted with questions, What contributes most to your happiness? Fishing and hunting for fresh food",D
331,Habitat provision,16,relative importance and present status consultation with local experts and stakeholders,"C,D"
332,Habitat provision,17,relative importance and present status consultation with local experts and stakeholders,"C,D"
333,Flood mitigation,13,relative importance and present status consultation with local experts and stakeholders,"C,D"
334,Water quality,23,relative importance and present status consultation with local experts and stakeholders,"C,D"
335,Raw material production,8,relative importance and present status consultation with local experts and stakeholders,"C,D"
336,Water supply,15,relative importance and present status consultation with local experts and stakeholders,"C,D"
337,Agriculture,6,relative importance and present status consultation with local experts and stakeholders,"C,D"
338,Heritage,12,relative importance and present status consultation with local experts and stakeholders,"C,D"
339,Recreation & tourism,32,relative importance and present status consultation with local experts and stakeholders,"C,D"
340,Recreation & tourism,33,relative importance and present status consultation with local experts and stakeholders,"C,D"
341,Water supply,2,"SWAT-discharge/recharge, replacement costs for water treatment-benefits transfer, williness to pay survey",C
342,Habitat provision,18,terrestrial vertebrate species richness quantified using maps and model,F
343,Hydropower,8,replacement cost of hydropower based on other study,D
344,Irrigated agriculture,4,replacement cost of irrigated agriculture based on other study,D
345,Fisheries,8,"replacement cost of reservoir fisheries, aquaculture and capture fisheries based on other study",D
346,Water supply,17,replacement cost of wetland area based on other study,D
347,Flood mitigation,14,replacement cost of wetland area based on other study,D
348,Waste treatment,7,replacement cost of wetland area based on other study,D
349,Flood mitigation,15,replacement cost of wetland area based on other study,D
350,Food provision,14,replacement cost of wetland area based on other study,D
351,Raw material production,12,replacement cost of wetland area based on other study,D
352,Habitat provision,19,replacement cost of wetland area based on other study,D
353,Education,7,replacement cost of wetland area based on other study,D
354,Aesthethics,9,replacement cost of wetland area based on other study,D
355,Carbon sequestration & storage,9,replacement cost of wetland area based on other study,D
356,Gas regulation,4,replacement cost of wetland area based on other study,D
357,Habitat provision,20,replacement cost of forest area based on other study,D
358,Agriculture,7,"replacement cost, not clearly identified",D
359,Flood mitigation,16,replacement cost of flood damage mitigation based on other study,D
360,Water quality,24,replacement cost of mitigation of salinity for water quality based on other study,D
361,Erosion prevention,13,replacement cost of losses in bank erosion based on other study,D
362,River transportation,3,replacement cost of navigation based on other study,D
363,Nutrient regulation,17,"replacement cost of N retention with MONERIS, replacement cost of P retention with MONERIS",D
364,Nutrient regulation,18,rate of NO2 production (DEA0),C
365,Recreation & tourism,34,"Bathing in freshwater' interview with head of Kristianstad tourist office, municipality website with data on location and status of water quality for outdoor bathing facilities run by the municipality (trying to determine if ES is affected by brownification)","C,F"
366,Recreation & tourism,35,"Bathing in the sea'Interviews with owner of largest shorefront Hotel, head of Kristianstad tourist office, managers Biosphere Office (trying to determine if ES is affected by brownification)","C,F"
367,Recreation & tourism,36,"Recreational fishing' Interviews with chair of regional recreational fishing association, two reports from the Biosphere Office on status of freshwater fish (trying to determine if ES is affected by brownification)","C,F"
368,Recreation & tourism,37,"Bird watching'Interview with manager from Biosphere Office, two reports from the Biosphere Office on bird populations","C,F"
369,Aesthethics,7,"Attractiveness of shoreline', Interview with owner of largest shorefront Hotel, head of Kristianstad tourist office, municipality data on level of tourism in the region (trying to determine if ES is affected by brownification)","C,F"
370,Agriculture,8,Grazing and haymaking on the meadows' interview with two farmers (trying to determine if ES is affected by brownification),"C,F"
371,Irrigated agriculture,3,"Irrigation for crops' Interviews with former chair of the largest irrigation system in the area (and Sweden), maps on irrigation systems (trying to determine if ES is affected by brownification)","C,F"
372,Recreation & tourism,33,"ecotourism' Interviews with manager from Biosphere Office, head of Kristianstad tourist office, owner of largest shorefront Hotel, web search (trying to determine if ES is affected by brownification)","C,F"
373,Recreation & tourism,38,"""eel fishing"" map of placement of fishing gear, interviews with two eel fishers (trying to determine if ES is affected by brownification)","C,F"
374,Water quality,23,"""drinking water"" Interview with municipality representative responsible for water, municipality website on water (trying to determine if ES is affected by brownification)","C,F"
375,Water supply,18,monetary valuation of provisioning services based on a literature review,D
376,Water quality,26,monetary valuation of water treatement based on a literature review,D
377,Erosion prevention,13,monetary valuation of erosion protection based on a literature review,D
378,Habitat provision,21,monetary valuation of habitat for species based on a literature review,D
379,Gas regulation,5,"wtp survey for methane gas emissions from pastoral
farming",D
380,Irrigated agriculture,5,wtp survey for water usage for irriation of pastoral farms,D
381,Water quality,22,wtp survey for nitrate leaching to water from pastoral farming,D
382,Aesthethics,6,wtp for scenic view for pastoral farms,D
383,Water supply,19,WTP survey for average water flow per year,D
384,Habitat provision,13,WTP survey for compsation of riparian vegetation by condition class and major vegetative species,D
385,Recreation & tourism,39,"WTP for breeding bird by nest heght and water dependency, WTP for average number of migratory birds",D
386,Climate regulation,5,Mean of daily temeprature range by sampled land use type,"C,F"
387,Gas regulation,6,"Annual CO2 sequestration, includes above and below ground biomass of different present plant species","C,F"
388,Soil formation,1,depth of organic matter on topsoil,"C,F"
389,Nutrient regulation,19,total nitrogen in soil samples,F
390,Habitat provision,1,"Riparian Quality Index developed by Gonzalez del Tanago et al, 2006",C
391,Raw material production,13,Annual growth rate per plant species,C
392,Food provision,1,Yield values of crops growing within the area (kilocalories per hectare),"C,F"
393,Recreation & tourism,40,Available fishing stretches on river for reacreational use obtained from local fishing regulatory policy,C
394,Recreation & tourism,41,Tracks of post-signed and user designed paths obtained from local tourist office website and wikilocs,"C,F"
395,Recreation & tourism,1,"Number of areas for social amenity per land use and municipatlity counted in the field, summed to the average number of rest areas per hectare for each land use","C,F"
396,Education,1,"The number of notice boards with information about the ecosystem of the study area, counted on the ground and averaged to each land use type",C
397,Education,8,Number of local associations related to the use of nature counted,"C,F"
398,Fisheries,9,"sinuosity, secondary channel, no. of tribuary, active channel complexity, riparian woodland, floodplain forest, instrability/naturalness",C
399,Agriculture,9,"agriculture, floodplain lake, naturalness",C
400,Timber,1,woodland plantation,C
401,Water supply,20,"no. of tributaries, wetlands, floodplain lakes, naturalness",C
402,Flood mitigation,17,"sinuosity, seconday channels, active channel complexity, slope, river/river corridor ratio, floodplain forest, woodland plantation, naturalness",C
403,Carbon sequestration & storage,10,"paleochannels, wetlands, floodplain forest, floodplain lakes, naturalness","C,F"
404,Water quality,25,"slope, river'riverine channel ratio, paleochannel, wetlands, floodplain forest, floodplain lakes, naturalness","C,F"