ID;Ecosystem type;EUNIS_group;EUNIS_code;CLempN_min;CLempN_avg;CLempN_max;CLempN_NFC_avg;EUNIS remarks;reliability;Indication of exceedance;org_ID;Remarks
0;No data;NA;NA;0;0;0;0,0;None;none;none;0;No valid receptor
1;Atlantic upper-mid salt marshes;MA;MA223;10;15;20;15,0;MA223;(#);"Increase in dominance of graminoids; decline positive indicator species";1;
2;Atlantic mid-low salt marshes;MA;MA224;10;15;20;15,0;MA224;(#);"Increase in late successional species; decline positive indicator species ";2;
3;Atlantic pioneer salt marshes;MA;MA225;20;25;30;23,0;MA225;(#);"Increase in late successional species; increase in productivity species";3;
4;Shifting coastal dunes;N;N13;10;15;20;12,5;N13;#;"Biomass increase; increased N leaching; reduced root biomass";4;Split N13 and N14
5;Shifting coastal dunes;N;N14;10;15;20;8,3;N14;#;"Biomass increase; increased N leaching; reduced root biomass";4;Split N13 and N14
6;Coastal dune grasslands (grey dunes);N;N15;5;10;15;7,2;N15;##;"Increased biomass and cover of graminoids and mesophilic forbs; decrease in oligotrophic species including lichens; increased tissue N; increased N leaching; soil acidification";5;
7;Coastal dune heaths;N;N18;10;12,5;15;11,0;N18;#;"Increased plant production; increased N leaching; accelerated succession; typical lichen C:N decrease; increased yearly increment Calluna";6;Split N18 and N19
8;Coastal dune heaths;N;N19;10;12,5;15;12,0;N19;#;"Increased plant production; increased N leaching; accelerated succession; typical lichen C:N decrease; increased yearly increment Calluna";6;Split N18 and N19
9;Moist and wet dune slacks;N;N1H;5;10;15;13,3;N1H;#;"Increased cover of graminoids and mesophilic forbs; decrease in oligotrophic species; increased Ellenberg N";7;
10;Dune-slack pools;N;N1H1;10;15;20;10,0;N1H1;(#);Increased biomass and rate of succession;8;Split N1H1 and N1J1
11;Dune-slack pools;N;N1J1;10;15;20;10,0;N1J1;(#);Increased biomass and rate of succession;8;Split N1H1 and N1J1
12;Permanent oligotrophic lakes, ponds and pools;C;C1.1;2;6;10;3,8;C11b;##;"Increased algal productivity and a shift in nutrient limitation of phytoplankton from N to P; shifts in macrophyte community";9;
13;Alpine and sub-Arctic clear water lakes;C;C1.1;2;3;4;3,0;C11;##;Increased algal productivity and a shift in nutrient limitation of phytoplankton from N to P;10;
14;Boreal clear water lakes;C;C1.1;3;4,5;6;3,8;C11;##;Increased algal productivity and a shift in nutrient limitation of phytoplankton from N to P;11;
15;Atlantic soft water bodies;C;C1.2;5;7,5;10;5,0;C11, elements C12;##;Change in species composition of macrophyte communities;12;
16;Permanent dystrophic lakes, ponds and pools;C;C1.4;5;7,5;10;7,0;C14c;(#);Increased algal productivity and a shift in nutrient limitation of phytoplankton from N to P;13;
17;Raised and blanket bogs;Q;Q1;5;7,5;10;6,0;Q1;##;"Increase in vascular plants; decrease in bryophytes; altered growth and species composition of bryophytes; increased N in peat and peat water";14;
18;Valley mires, poor fens and transition mires;Q;Q2;5;10;15;8,0;Q2;##;"Increase in sedges and vascular plants; negative effects on bryophytes";15;
19;Palsa and polygon mires;Q;Q3;3;6,5;10;4,0;Q3;(#);Increase in graminoids, tissue N concentrations and decomposition rate;16;
20;Rich fens;Q;Q41;15;20;25;15,0;Q41;#;"Increase in tall vascular plants (especially graminoids); decrease in bryophytes";17;Split Q41 till Q44
21;Rich fens;Q;Q42;15;20;25;13,3;Q42;#;"Increase in tall vascular plants (especially graminoids); decrease in bryophytes";17;Split Q41 till Q44
22;Rich fens;Q;Q43;15;20;25;15,2;Q43;#;"Increase in tall vascular plants (especially graminoids); decrease in bryophytes";17;Split Q41 till Q44
23;Rich fens;Q;Q44;15;20;25;5,0;Q44;#;"Increase in tall vascular plants (especially graminoids); decrease in bryophytes";17;Split Q41 till Q44
24;Arctic-alpine rich fens;Q;Q45;15;20;25;16,7;Q45;(#);"Increase in vascular plants; decrease in bryophytes";18;
25;Semi-dry Perennial calcareous grassland (basic meadow steppe);R;R1A;10;15;20;13,6;R1A;##;"Increase in tall grasses; decline in diversity; change in species composition; increased mineralisation; N leaching; surface acidification";19;
26;Mediterranean closely grazed dry grasslands;R;R1D;5;10;15;5,0;R1D;(#);"Increased production; dominance by graminoids; changes to soil crusts; changes to soil nutrient cycling";20;
27;Mediterranean tall perennial dry grassland;R;R1E;5;10;15;5,0;R1E;(#);"Increased production; dominance by graminoids; changes to soil crusts; changes to soil nutrient cycling";21;
28;Mediterranean annual-rich dry grassland;R;R1F;5;10;15;5,0;R1F;(#);"Increased production; dominance by graminoids; changes to soil crusts; changes to soil nutrient cycling";22;
29;Lowland to montane, dry to mesic grassland usually dominated by Nardus stricta ;R;R1M ;6;8;10;7,3;R1M ;##;"Increase in graminoids; decline of typical species; decrease in total species richness";23;
30;Oceanic to subcontinental inland sand grassland on dry acid and neutral soils ;R;R1P ;5;10;15;7,9;R1P ;(#);"Decrease in lichens; increase in biomass";24;
31;Inland sanddrift and dune with siliceous grassland;R;R1Q;5;10;15;7,0;R1Q;(#);"Decrease in lichens; increase in biomass";25;
32;Low and medium altitude hay meadows;R;R22;10;15;20;13,6;R22;(#);"Increase in tall grasses; decrease in diversity; decline of typical species";26;
33;Mountain hay meadows;R;R23;10;12,5;15;10,8;R23;#;"Increase in nitrophilous graminoids; changes in diversity; decline of typical species";27;
34;Moist or wet mesotrophic to eutrophic hay meadow;R;R35;15;20;25;15,6;R35;(#);"Increase in tall graminoids; decreased diversity; decrease in bryophytes";28;
35;Temperate and boreal moist and wet oligotrophic grasslands;R;R37;10;15;20;11,0;R37;#;"Increase in tall graminoids; decreased diversity; decrease in bryophytes";29;
36;Moss and lichen dominated mountain summits ;R;R42;5;7,5;10;5,0;(Earlier E4.2);#;"Change in species composition; effects on bryophytes or lichens";30;
37;Temperate acidophilous alpine grasslands;R;R43;5;7,5;10;6,7;R43;#;"Changes in species composition; increase in plant production";31;
38;Arctic-alpine calcareous grassland;R;R44;5;7,5;10;7,5;R44;#;"Changes in species composition; increase in plant production";32;
39;Tundra;S;S1;3;4;5;3,0;S1;#;"Changes in biomass; physiological effects; changes in bryophyte species composition; decrease in lichen species richness";33;
40;Arctic, alpine and subalpine scrub habitats;S;S2;5;7,5;10;5,9;S2;#;"Decline in lichens; bryophytes and evergreen shrubs";34;
41;Lowland to montane temperate and submediterranean Juniperus scrub;S;S31;5;10;15;9,5;S31;(#);"Shift in vegetation community composition; reduced seed viability ";35;
42;Northern wet heath ‘U’ Calluna-dominated wet heath (upland);S;S411;5;10;15;7,5;S411;##;"Decreased heather dominance; decline in lichens and mosses; increased N leaching";36;
43;Northern wet heath ‘L’ Erica tetralix-dominated wet heath (lowland);S;S411;5;10;15;7,5;S411;##;"Transition from heather to grass dominance; decrease in heather cover; shift in vegetation community composition";37;
44;Dry heaths;S;S42;5;10;15;7,4;S42;##;"Transition from heather to grass dominance; decline in lichens; changes in plant biochemistry; increased sensitivity to abiotic stress ";38;
45;Maquis, arborescent matorral and thermo- Mediterranean scrub;S;S5;5;10;15;5,0;S5;(#);"Change in plant species richness and community composition; nitrate leaching; acidification of soil. ";39;
46;Garrigue;S;S6;5;10;15;5,0;S6;#;"Changes in species composition; decline in shrub cover; increased invasion of annual herbs";40;
47;Broadleaved deciduous forest;T;T1;10;12,5;15;12,3;T1;##;"Changes in soil processes; nutrient imbalance; altered composition mycorrhiza and ground vegetation";41;
48;Fagus forest on non-acid and acid soils;T;T17;10;12,5;15;10,5;T17;(#);"Changes in ground vegetation and mycorrhiza; nutrient imbalance; changes in soil fauna";42;Split T17 and T18
49;Fagus forest on non-acid and acid soils;T;T18;10;12,5;15;11,2;T18;(#);"Changes in ground vegetation and mycorrhiza; nutrient imbalance; changes in soil fauna";42;Split T17 and T18
50;Mediterranean Fagus forest on acid soils;T;T18;10;12,5;15;10,0;T18;(#);"Annual height and volume tree growth; analogy to temperate Fagus forest";43;
51;Acidophilous Quercus forest ;T;T1B;10;12,5;15;10,8;T1B;(#);"Decrease in mycorrhiza; loss of epiphytic lichens and bryophytes; changes in ground vegetation";44;
52;Carpinus and Quercus mesic deciduous forest;T;T1E;15;17,5;20;14,7;T1E;(#);Changes in ground vegetation;45;
53;Mediterranean evergreen;T;T21;10;12,5;15;10,0;T21;(#);NO3 in soil water and streams;46;
54;Coniferous forests;T;T3;3;9;15;8,0;T3;##;"Changes in soil processes; nutrient imbalance; altered composition mycorrhiza and ground vegetation; increase in mortality with drought";47;
55;Temperate mountain Picea forest;T;T31;10;12,5;15;10,0;T31;(#);"Decreased biomass of fine roots; nutrient imbalance; decrease in mycorrhiza; changed soil fauna";48;
56;Temperate mountain Abies forest;T;T32;10;12,5;15;9,4;T32;(#);"Decreased biomass of fine roots; nutrient imbalance; decrease in mycorrhiza; changed soil fauna";49;
57;Mediterranean mountain Abies forest;T;T33;10;12,5;15;10,0;T33;(#);"Tree foliar stoichiometry; tree physiology; soil N losses";50;
58;Temperate continental Pinus sylvestris forest;T;T35;5;10;15;9,0;T35;#;"Changes in ground vegetation and mycorrhiza; nutrient imbalances; increased N2O and NO emissions";51;
59;Mediterranean montane;T;T37;5;11;17;5,0;T37;(#);Lichen chemistry and community changes in Mediterranean mixed-conifer forests in USA;54;
60;Mediterranean lowland to submontane Pinus forest;T;T3A;5;11;17;5,0;T3A;(#);"Reduction in fine-root biomass; shift in lichen community";55;
61;Dark taiga;T;T3F;3;4;5;3,7;T3F;##;"Changes in epiphytic lichen and ground-layer bryophyte communities; increase in free-living algae; decline in N-fixation";56;
62;Pinus sylvestris light taiga;T;T3G;2;3,5;5;3,0;T3G;#;"Changes in epiphytic lichen and ground-layer bryophyte communities; increase in free-living algae; decline in N-fixation";57;