authors;title;journal;volume;issue;doi;year;ebv_class;ebv_name;organizational_lvl;model_class;model_type;dynamic;process_evolution;process_env_response;process_physiology;process_demography;process_dispersal;process_interactions;threats;application;prioritisation;species_count;ecosystem;tax_group;spatial_ext;spatial_res;continent;pred_period "Adams, J; MacLeod, C; Suryan, RM; Hyrenbach, KD; Harvey, JT";Summer-time use of west coast US National Marine Sanctuaries by migrating sooty shearwaters (Puffinus griseus);BIOLOGICAL CONSERVATION;156;NA;10.1016/j.biocon.2011.12.032;2012;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);Brownian bridge utilization distributions;0;0;1;0;0;0;0;land/sea use change,overexploitation;spatial prioritization;gap analysis;1;oceans/coasts;birds;1000 km²;1-10 km;north_america;current "Agra, J; Ligeiro, R; Heino, J; Macedo, DR; Castro, DMP; Linares, MS; Callisto, M";Anthropogenic disturbances alter the relationships between environmental heterogeneity and biodiversity of stream insects;ECOLOGICAL INDICATORS;121;NA;10.1016/j.ecolind.2020.107079;2021;community composition;taxonomic/phylogenetic diversity;communities;static macroecological model (e.g. species richness as response);ANOVA;0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;77;freshwaters;invertebrates;10000 km²;< 0.1 km;south_america;current "Ahmadi, M; Balouchi, BN; Jowkar, H; Hemami, MR; Fadakar, D; Malakouti-Khah, S; Ostrowski, S";Combining landscape suitability and habitat connectivity to conserve the last surviving population of cheetah in Asia;DIVERSITY AND DISTRIBUTIONS;23;6;10.1111/ddi.12560;2017;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);Ensemble SDM, Circuit theory model;0;0;1;0;0;0;0;overexploitation;spatial prioritization,connectivity;management scenario;1;grasslands/shrublands/savannahs,farmlands,forests,deserts;mammals;1000000 km²;1-10 km;asia;current "AKCAKAYA, HR; MCCARTHY, MA; PEARCE, JL";LINKING LANDSCAPE DATA WITH POPULATION VIABILITY ANALYSIS - MANAGEMENT OPTIONS FOR THE HELMETED HONEYEATER LICHENOSTOMUS MELANOPS CASSIDIX;BIOLOGICAL CONSERVATION;73;2;10.1016/0006-3207(95)00054-8;1995;species populations;species distributions;populations;dynamic patch occupancy model;metapopulation PVA model;1;0;1;0;1;1;0;land/sea use change;translocation;management scenario;1;freshwaters;birds;1 km²;< 0.1 km;australia;NA "Albert, CH; Rayfield, B; Dumitru, M; Gonzalez, A";Applying network theory to prioritize multispecies habitat networks that are robust to climate and land-use change;CONSERVATION BIOLOGY;31;6;10.1111/cobi.12943;2017;species populations;species distributions;populations;static connectivity models (incl. Circuit theoy, permeability);least cost paths, habitat network;0;0;1;0;0;1;0;climate change,land/sea use change;habitat conservation,spatial prioritization;cost optimisation;14;forests,grasslands/shrublands/savannahs;mammals,birds,amphibians;10 km²;10-100 km;north_america;2025-2050 "Amirkhiz, RG; Frey, JK; Cain, JW; Breck, SW; Bergman, DL";Predicting spatial factors associated with cattle depredations by the Mexican wolf (Canis lupus baileyi) with recommendations for depredation risk modeling;BIOLOGICAL CONSERVATION;224;NA;10.1016/j.biocon.2018.06.013;2018;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;land/sea use change;hunting control;current mapping;4;grasslands/shrublands/savannahs,freshwaters,forests,deserts,farmlands;mammals;1000000 km²;1-10 km;north_america;current "Aparicio, BA; Cascalho, J; Cruz, MJ; Borges, PAV; Azevedo, EB; Elias, RB; Ascensao, F";Assessing the landscape functional connectivity using movement maps: a case study with endemic Azorean insects;JOURNAL OF INSECT CONSERVATION;22;2;10.1007/s10841-018-0059-7;2018;species traits;movement;individuals;dynamic individual-based model;individual base model (Netlogo);1;0;1;0;0;1;0;climate change,land/sea use change;species conservation,habitat conservation;management scenario;5;mountains,forests;invertebrates;100 km²;0.1-1 km;africa;2050-2070 "Apps, CD; McLellan, BN";Factors influencing the dispersion and fragmentation of endangered mountain caribou populations;BIOLOGICAL CONSERVATION;130;1;10.1016/j.biocon.2005.12.004;2006;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;1;0;land/sea use change;habitat conservation;current mapping;1;forests;mammals;1000000 km²;0.1-1 km;north_america;current "Arthur, B; Hindell, M; Bester, M; De Bruyn, PJN; Goebel, ME; Trathan, P; Lea, MA";Managing for change: Using vertebrate at sea habitat use to direct management efforts;ECOLOGICAL INDICATORS;91;NA;10.1016/j.ecolind.2018.04.019;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model (GAM);0;0;1;0;0;0;0;climate change;species conservation;gap analysis;1;oceans/coasts;mammals;10000000 km²;10-100 km;antarctica;1979-2013 "Bai, WK; Huang, QY; Zhang, JD; Stabach, J; Huang, JY; Yang, HB; Songer, M; Connor, T; Liu, JG; Zhou, SQ; Zhang, HM; Zhou, CQ; Hull, V";Microhabitat selection by giant pandas;BIOLOGICAL CONSERVATION;247;NA;10.1016/j.biocon.2020.108615;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);KDE, GLM;0;0;1;0;0;0;0;other;habitat conservation;current mapping;1;forests;mammals;100 km²;< 0.1 km;asia;current "Barrett, K; Nibbelink, NP; Maerz, JC";Identifying Priority Species and Conservation Opportunities Under Future Climate Scenarios: Amphibians in a Biodiversity Hotspot;JOURNAL OF FISH AND WILDLIFE MANAGEMENT;5;2;10.3996/022014-JFWM-015;2014;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;climate change;species conservation;gap analysis;21;mountains,oceans/coasts,wetlands;amphibians;10000000 km²;1-10 km;north_america;2050 "Beale, CM; Hauenstein, S; Mduma, S; Frederick, H; Jones, T; Bracebridge, C; Maliti, H; Kija, H; Kohi, EM";Spatial analysis of aerial survey data reveals correlates of elephant carcasses within a heavily poached ecosystem;BIOLOGICAL CONSERVATION;218;NA;10.1016/j.biocon.2017.11.016;2018;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model, Bayes GAM;0;0;1;0;0;0;0;overexploitation;species conservation,hunting control;current mapping;1;grasslands/shrublands/savannahs;mammals;100000 km²;< 0.1 km;africa;current "Behr, DM; Ozgul, A; Cozzi, G";Combining human acceptance and habitat suitability in a unified socio-ecological suitability model: a case study of the wolf in Switzerland;JOURNAL OF APPLIED ECOLOGY;54;6;10.1111/1365-2664.12880;2017;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);socio-ecological suitability model (linear regression);0;0;1;0;0;0;0;other;species conservation;current mapping;1;forests,grasslands/shrublands/savannahs,farmlands,mountains;mammals;100000 km²;0.1-1 km;europe;current "Bellard, C; Thuiller, W; Leroy, B; Genovesi, P; Bakkenes, M; Courchamp, F";Will climate change promote future invasions?;GLOBAL CHANGE BIOLOGY;19;12;10.1111/gcb.12344;2013;ecosystem function;ecosystem disturbances;species;static species distribution models (incl. Abundance and occupancy models);SDM ensemble (GLM, BRT, MARS, RF, FDA, MAXENT);0;0;1;0;0;0;0;invasive species and disease;disease control;global change scenario;56;grasslands/shrublands/savannahs,farmlands,forests,mountains,wetlands,peatlands,urban areas,freshwaters,oceans/coasts,deserts,islands;invertebrates,amphibians,fishes,birds,reptiles,mammals;10000000 km²;10-100 km;africa, asia, australia, europe, north_america, south_america;2040-2100 "Berger-Tal, O; Bar-David, S; Saltz, D";Effectiveness of Multiple Release Sites in Reintroduction of Persian Fallow Deer;CONSERVATION BIOLOGY;26;1;10.1111/j.1523-1739.2011.01746.x;2012;species populations;species abundances;individuals;dynamic individual-based model;individual-based SEM;1;0;1;0;1;1;0;other;reintroduction;management scenario;1;farmlands,forests;mammals;100 km²;0.1-1 km;asia;NA "Bicknell, JE; Collins, MB; Pickles, RSA; McCann, NP; Bernard, CR; Fernandes, DJ; Miller, MGR; James, SM; William, AU; Struebig, MJ; Davies, ZG; Smith, RJ";Designing protected area networks that translate international conservation commitments into national action;BIOLOGICAL CONSERVATION;214;NA;10.1016/j.biocon.2017.08.024;2017;ecosystem function;ecosystem distribution;ecosystems;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;land/sea use change;spatial prioritization;cost optimisation;NA;farmlands,forests,grasslands/shrublands/savannahs,wetlands,mountains;NA;1000000 km²;1-10 km;south_america;current "Bleyhl, B; Arakelyan, M; Askerov, E; Bluhm, H; Gavashelishvili, A; Ghasabian, M; Ghoddousi, A; Heidelberg, A; Khorozyan, I; Malkhasyan, A; Manvelyan, K; Masoud, M; Moqanaki, EM; Radeloff, VC; Soofi, M; Weinberg, P; Zazanashvili, N; Kuemmerle, T";Assessing niche overlap between domestic and threatened wild sheep to identify conservation priority areas;DIVERSITY AND DISTRIBUTIONS;25;1;10.1111/ddi.12839;2019;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;overexploitation,land/sea use change;habitat conservation;current mapping;1;mountains,forests,grasslands/shrublands/savannahs;mammals;1000000 km²;0.1-1 km;asia;current "Bonnet-Lebrun, AS; Karamanlidis, AA; Hernando, MD; Renner, I; Gimenez, O";Identifying priority conservation areas for a recovering brown bear population in Greece using citizen science data;ANIMAL CONSERVATION;23;1;10.1111/acv.12522;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;land/sea use change;spatial prioritization;gap analysis;1;farmlands,forests,grasslands/shrublands/savannahs,wetlands,mountains;mammals;100000 km²;1-10 km;europe;current "Braunisch, V; Coppes, J; Bachle, S; Suchant, R";Underpinning the precautionary principle with evidence: A spatial concept for guiding wind power development in endangered species' habitats;JOURNAL FOR NATURE CONSERVATION;24;NA;10.1016/j.jnc.2015.01.003;2015;species populations;species distributions;species;static connectivity models (incl. Circuit theoy, permeability);species distribution model + landscape permeability map;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;mountains,forests;birds;10000 km²;1-10 km;europe;current "Brito, JC; Tarroso, P; Vale, CG; Martinez-Freiria, F; Boratynski, Z; Campos, JC; Ferreira, S; Godinho, R; Goncalves, DV; Leite, JV; Lima, VO; Pereira, P; Santos, X; da Silva, MJF; Silva, TL; Velo-Anton, G; Verissimo, J; Crochet, PA; Pleguezuelos, JM; Carvalho, SB";Conservation Biogeography of the Sahara-Sahel: additional protected areas are needed to secure unique biodiversity;DIVERSITY AND DISTRIBUTIONS;22;4;10.1111/ddi.12416;2016;community composition;taxonomic/phylogenetic diversity;communities;static macroecological model (e.g. species richness as response);PCA + Clustering;0;0;1;0;0;0;0;climate change;spatial prioritization;cost optimisation;NA;deserts;amphibians,reptiles,birds,mammals;> 10000000 km²;10-100 km;africa;current "Broome, A; Bellamy, C; Rattey, A; Ray, D; Quine, CP; Park, KJ";Niches for Species, a multi-species model to guide woodland management: An example based on Scotland's native woodlands;ECOLOGICAL INDICATORS;103;NA;10.1016/j.ecolind.2019.04.021;2019;community composition;taxonomic/phylogenetic diversity;populations;static species distribution models (incl. Abundance and occupancy models);Expert-based habitat suitability models;0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;79;forests;invertebrates,birds,mammals,reptiles;100000 km²;10-100 km;europe;current "Brown, ML; Donovan, TM; Schwenk, WS; Theobald, DM";Predicting impacts of future human population growth and development on occupancy rates of forest-dependent birds;BIOLOGICAL CONSERVATION;170;NA;10.1016/j.biocon.2013.07.039;2014;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);occupancy model (without detection);0;0;1;0;0;0;0;land/sea use change;habitat conservation;global change scenario;5;forests,farmlands,urban areas;birds;100000 km²;0.1-1 km;north_america;2050 "Canadas, A; Vazquez, JA";Conserving Cuvier's beaked whales in the Alboran Sea (SW Mediterranean): Identification of high density areas to be avoided by intense man-made sound;BIOLOGICAL CONSERVATION;178;NA;10.1016/j.biocon.2014.07.018;2014;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);occupancy model, abundance model;0;0;1;0;0;0;0;pollution;species conservation,habitat conservation;current mapping;1;oceans/coasts;mammals;100000 km²;> 100 km;europe;current "Canessa, S; Bozzuto, C; Grant, EHC; Cruickshank, SS; Fisher, MC; Koella, JC; Lotters, S; Martel, A; Pasmans, F; Scheele, BC; Spitzen-van der Sluijs, A; Steinfartz, S; Schmidt, BR";Decision-making for mitigating wildlife diseases: From theory to practice for an emerging fungal pathogen of amphibians;JOURNAL OF APPLIED ECOLOGY;55;4;10.1111/1365-2664.13089;2018;species traits;physiology;populations;dynamic population model (but not IBM!);Integral projection model (stage‚Äêstructured population model);1;0;1;0;1;0;0;invasive species and disease;disease control,species conservation;cost optimisation;1;forests,mountains;amphibians;1000 km²;NA;europe;NA "Carpio, AJ; Barasona, JA; Guerrero-Casado, J; Oteros, J; Tortosa, FS; Acevedo, P";An assessment of conflict areas between alien and native species richness of terrestrial vertebrates on a macro-ecological scale in a Mediterranean hotspot;ANIMAL CONSERVATION;20;5;10.1111/acv.12330;2017;community composition;taxonomic/phylogenetic diversity;communities;static macroecological model (e.g. species richness as response);GLM;0;0;1;0;0;0;0;invasive species and disease;disease control;global change scenario;800;wetlands,farmlands,forests,grasslands/shrublands/savannahs;amphibians,reptiles,birds,mammals;1000000 km²;10-100 km;europe;current "Carroll, C; Dunk, JR; Moilanen, A";Optimizing resiliency of reserve networks to climate change: multispecies conservation planning in the Pacific Northwest, USA;GLOBAL CHANGE BIOLOGY;16;3;10.1111/j.1365-2486.2009.01965.x;2010;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);correlative SDM (MaxEnt), prioritization with ZONATION;0;0;1;0;0;0;0;climate change;spatial prioritization;global change scenario;131;mountains,forests;birds,invertebrates,amphibians,mammals;1000000 km²;0.1-1 km;north_america;2011-2090 "Cedric, G; Neha, P; Roshan, P; Uttam, S; Rajendra, G";Assessing and managing the rising rhino population in Kaziranga (India);ECOLOGICAL INDICATORS;66;NA;10.1016/j.ecolind.2016.01.023;2016;species populations;species abundances;populations;dynamic population model (but not IBM!);Matrix population model, Multiscale heterogeneity map;1;0;0;0;1;0;0;overexploitation;species conservation;current mapping;1;grasslands/shrublands/savannahs;mammals;1000 km²;NA;asia;2013 "Chanchani, P; Noon, BR; Bailey, LL; Warrier, RA";Conserving tigers in working landscapes;CONSERVATION BIOLOGY;30;3;10.1111/cobi.12633;2016;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);species occupancy models;0;0;1;0;0;0;0;other;spatial prioritization;current mapping;1;forests;mammals;10000 km²;NA;asia;current "Chaput-Bardy, A; Alcala, N; Secondi, J; Vuilleumier, S";Network analysis for species management in rivers networks: Application to the Loire River;BIOLOGICAL CONSERVATION;210;NA;10.1016/j.biocon.2017.04.003;2017;species populations;species distributions;populations;dynamic patch occupancy model;Stochastic Patch Occupancy model (SPOM);1;0;1;0;0;1;0;invasive species and disease;disease control,species conservation;management scenario;1;freshwaters;mammals;1000000 km²;NA;europe;current "Chyn, K; Lin, TE; Wilkinson, DP; Tracy, JL; Lawing, AM; Fitzgerald, LA";Fine-scale roadkill risk models: understanding the intersection of wildlife and roads;BIODIVERSITY AND CONSERVATION;NA;NA;10.1007/s10531-020-02083-6;2020;community composition;taxonomic/phylogenetic diversity;communities;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;land/sea use change,pollution;species conservation;current mapping;4;farmlands,forests,wetlands,freshwaters;reptiles;100000 km²;< 0.1 km;asia;current "Colchero, F; Conde, DA; Manterola, C; Chavez, C; Rivera, A; Ceballos, G";Jaguars on the move: modeling movement to mitigate fragmentation from road expansion in the Mayan Forest;ANIMAL CONSERVATION;14;2;10.1111/j.1469-1795.2010.00406.x;2011;species traits;movement;individuals;dynamic individual-based model;Bayesian movement model;1;0;1;0;0;1;0;land/sea use change;connectivity;current mapping;1;forests;mammals;100000 km²;1-10 km;north_america;current "Corsi, F; Dupre, E; Boitani, L";A large-scale model of wolf distribution in Italy for conservation planning;CONSERVATION BIOLOGY;13;1;10.1046/j.1523-1739.1999.97269.x;1999;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);discriminant function analysis (DFA);0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation;management scenario;1;forests,mountains;mammals;100 km²;10-100 km;europe;current "Cowled, BD; Aldenhoven, J; Odeh, IOA; Garrett, T; Moran, C; Lapidge, SJ";Feral pig population structuring in the rangelands of eastern Australia: applications for designing adaptive management units;CONSERVATION GENETICS;9;1;10.1007/s10592-007-9331-1;2008;genetic composition;genetic differentiation;individuals;static species distribution models (incl. Abundance and occupancy models);ordination;0;1;1;0;0;0;0;invasive species and disease;disease control,habitat conservation;current mapping;1;grasslands/shrublands/savannahs;mammals;100 km²;NA;australia;current "Crego, RD; Ogutu, JO; Wells, HBM; Ojwang, GO; Martins, DJ; Leimgruber, P; Stabach, JA";Spatiotemporal dynamics of wild herbivore species richness and occupancy across a savannah rangeland: Implications for conservation;BIOLOGICAL CONSERVATION;242;NA;10.1016/j.biocon.2020.108436;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);Bayesian hierarchical model;0;0;1;0;0;0;1;land/sea use change;species conservation;current mapping;15;grasslands/shrublands/savannahs;mammals;10000 km²;1-10 km;africa;current "Critchlow, R; Plumptre, AJ; Driciru, M; Rwetsiba, A; Stokes, EJ; Tumwesigye, C; Wanyama, F; Beale, CM";Spatiotemporal trends of illegal activities from ranger-collected data in a Ugandan national park;CONSERVATION BIOLOGY;29;5;10.1111/cobi.12538;2015;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);Bayesian, spatially explicit occupancy models;0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation,hunting control;current mapping;1;grasslands/shrublands/savannahs,forests;mammals;10 km²;0.1-1 km;africa;1999-2012 "D'Amen, M; Bombi, P";Global warming and biodiversity: Evidence of climate-linked amphibian declines in Italy;BIOLOGICAL CONSERVATION;142;12;10.1016/j.biocon.2009.08.004;2009;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);autoregressive GLM;0;0;1;0;0;0;0;climate change;habitat conservation;current mapping;19;wetlands;amphibians;1000000 km²;10-100 km;europe;current "de Castro, FR; Mamede, N; Danilewicz, D; Geyer, Y; Pizzorno, JLA; Zerbini, AN; Andriolo, A";Are marine protected areas and priority areas for conservation representative of humpback whale breeding habitats in the western South Atlantic?;BIOLOGICAL CONSERVATION;179;NA;10.1016/j.biocon.2014.09.013;2014;species traits;movement;individuals;dynamic individual-based model;Bayesian switching state space model (SSSM) = correlated random walk model (movement model);0;0;1;0;0;1;0;land/sea use change,pollution,overexploitation;species conservation,habitat conservation;gap analysis;1;oceans/coasts;mammals;10000 km²;NA;south_america;current "de Pous, P; Beukema, W; Weterings, M; Dummer, I; Geniez, P";Area prioritization and performance evaluation of the conservation area network for the Moroccan herpetofauna: a preliminary assessment;BIODIVERSITY AND CONSERVATION;20;1;10.1007/s10531-010-9948-0;2011;community composition;taxonomic/phylogenetic diversity;populations;static species distribution models (incl. Abundance and occupancy models);correlative SDM (MaxEnt);0;0;1;0;0;0;0;land/sea use change,climate change;spatial prioritization;cost optimisation;97;oceans/coasts,grasslands/shrublands/savannahs,forests,mountains;amphibians,reptiles;1000000 km²;1-10 km;africa;current "Destro, GFG; de Andrade, AFA; de Fernandes, V; Terribile, LC; De Marco, P";Climate suitability as indicative of invasion potential for the most seized bird species in Brazil;JOURNAL FOR NATURE CONSERVATION;58;NA;10.1016/j.jnc.2020.125890;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution models;0;0;1;0;0;0;0;invasive species and disease;habitat conservation;current mapping;10;forests,grasslands/shrublands/savannahs,farmlands;birds;1000 km²;10-100 km;south_america;current "Destro, GFG; de Fernandes, V; de Andrade, AFA; De Marco, P; Terribile, LC";Back home? Uncertainties for returning seized animals to the source-areas under climate change;GLOBAL CHANGE BIOLOGY;25;10;10.1111/gcb.14760;2019;community composition;taxonomic/phylogenetic diversity;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;climate change;species conservation,restoration;global change scenario;10;NA;birds;10000000 km²;10-100 km;south_america;2050-2070 "Dhanjal-Adams, KL; Klaassen, M; Nicol, S; Possingham, HP; Chades, I; Fuller, RA";Setting conservation priorities for migratory networks under uncertainty;CONSERVATION BIOLOGY;31;3;10.1111/cobi.12842;2017;species populations;species abundances;populations;static connectivity models (incl. Circuit theoy, permeability);maximum-flow problem;0;0;0;0;0;1;0;land/sea use change;connectivity;management scenario;7;oceans/coasts;birds;> 10000000 km²;NA;asia,australia;current "Dunnink, JA; Hartley, R; Rutina, L; Alves, J; Franco, AMA";A socio-ecological landscape analysis of human-wildlife conflict in northern Botswana;ORYX;54;5;10.1017/S0030605318001394;2020;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);regression model;0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation;management scenario;5;grasslands/shrublands/savannahs;mammals;10 km²;NA;africa;current "Egli, L; Meyer, C; Scherber, C; Kreft, H; Tscharntke, T";Winners and losers of national and global efforts to reconcile agricultural intensification and biodiversity conservation;GLOBAL CHANGE BIOLOGY;24;5;10.1111/gcb.14076;2018;community composition;taxonomic/phylogenetic diversity;species;static species distribution models (incl. Abundance and occupancy models);species distribution model + crop production model;0;0;1;0;0;0;0;land/sea use change;species conservation;management scenario;19978;farmlands,forests;mammals,birds,amphibians;> 10000000 km²;> 100 km;africa, asia, australia, europe, north_america, south_america;2040 "Elliot, NB; Bett, A; Chege, M; Sankan, K; de Souza, N; Kariuki, L; Broekhuis, F; Omondi, P; Ngene, S; Gopalaswamy, AM";The importance of reliable monitoring methods for the management of small, isolated populations;CONSERVATION SCIENCE AND PRACTICE;2;7;10.1111/csp2.217;2020;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);spatially‚Äêexplicit capture‚Äìrecapture models;0;0;1;0;1;0;0;land/sea use change,overexploitation;species conservation;current mapping;1;grasslands/shrublands/savannahs;mammals;10 km²;NA;africa;current "Embling, CB; Gillibrand, PA; Gordon, J; Shrimpton, J; Stevick, PT; Hammond, PS";Using habitat models to identify suitable sites for marine protected areas for harbour porpoises (Phocoena phocoena);BIOLOGICAL CONSERVATION;143;2;10.1016/j.biocon.2009.09.005;2010;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);SDM (GAM);0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;oceans/coasts;mammals;100000 km²;1-10 km;europe;current "Epps, CW; Mutayoba, BM; Gwin, L; Brashares, JS";An empirical evaluation of the African elephant as a focal species for connectivity planning in East Africa;DIVERSITY AND DISTRIBUTIONS;17;4;10.1111/j.1472-4642.2011.00773.x;2011;species populations;species distributions;species;static macroecological model (e.g. species richness as response);logistic regression;0;0;1;0;0;0;0;land/sea use change;connectivity;current mapping;49;grasslands/shrublands/savannahs;mammals;100000 km²;NA;africa;current "Epps, CW; Wehausen, JD; Bleich, VC; Torres, SG; Brashares, JS";Optimizing dispersal and corridor models using landscape genetics;JOURNAL OF APPLIED ECOLOGY;44;4;10.1111/j.1365-2664.2007.01325.x;2007;genetic composition;genetic differentiation;populations;static connectivity models (incl. Circuit theoy, permeability);least‚Äêcost connectivity models;0;0;1;0;0;0;0;land/sea use change;habitat conservation,connectivity;management scenario;1;deserts;mammals;1000000 km²;< 0.1 km;north_america;current "Estrada, A; Real, R; Vargas, JM";Assessing coincidence between priority conservation areas for vertebrate groups in a Mediterranean hotspot;BIOLOGICAL CONSERVATION;144;3;10.1016/j.biocon.2010.12.031;2011;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;other;spatial prioritization;gap analysis;304;farmlands,forests,grasslands/shrublands/savannahs;birds,reptiles,mammals,amphibians;100000 km²;10-100 km;europe;current "Evans, DM; Pocock, MJO; Brooks, J; Memmott, J";Seeds in farmland food-webs: Resource importance, distribution and the impacts of farm management;BIOLOGICAL CONSERVATION;144;12;10.1016/j.biocon.2011.08.013;2011;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);regression model (GLM);0;0;1;0;0;0;0;land/sea use change;restoration;management scenario;16;forests,farmlands,grasslands/shrublands/savannahs;plants;1 km²;NA;europe;NA "Fedorca, A; Popa, M; Jurj, R; Ionescu, G; Ionescu, O; Fedorca, M";Assessing the regional landscape connectivity for multispecies to coordinate on-the-ground needs for mitigating linear infrastructure impact in Brasov - Prahova region;JOURNAL FOR NATURE CONSERVATION;58;NA;10.1016/j.jnc.2020.125903;2020;species traits;movement;species;static connectivity models (incl. Circuit theoy, permeability);circuit theory;0;0;1;0;0;0;0;land/sea use change;connectivity;current mapping;6;farmlands,forests,grasslands/shrublands/savannahs;mammals;10000 km²;1-10 km;europe;current "Feio, MJ; Norris, RH; Graca, MAS; Nichols, S";Water quality assessment of Portuguese streams: Regional or national predictive models?;ECOLOGICAL INDICATORS;9;4;10.1016/j.ecolind.2008.09.012;2009;ecosystem function;ecosystem disturbances;communities;static macroecological model (e.g. species richness as response);Classification;0;0;1;0;0;0;0;pollution;habitat conservation;current mapping;NA;freshwaters;invertebrates;100000 km²;NA;europe;current "Fey, SB; Vasseur, DA; Alujevic, K; Kroeker, KJ; Logan, ML; O'Connor, MI; Rudolf, VHW; DeLong, JP; Peacor, S; Selden, RL; Sih, A; Clusella-Trullas, S";Opportunities for behavioral rescue under rapid environmental change;GLOBAL CHANGE BIOLOGY;25;9;10.1111/gcb.14712;2019;species traits;physiology;individuals;static species distribution models (incl. Abundance and occupancy models);Analytical model;0;0;1;1;0;0;0;climate change;species conservation;global change scenario;39;mountains;reptiles,invertebrates;10000 km²;0.1-1 km;africa;2050-2059 "Finnegan, SP; Galvez-Bravo, L; Silveira, L; Torres, NM; Jacomo, ATA; Alves, GB; Dalerum, F";Reserve size, dispersal and population viability of wide ranging carnivores: the case of jaguars in Emas National Park, Brazil;ANIMAL CONSERVATION;NA;NA;10.1111/acv.12608;2020;species populations;species abundances;populations;dynamic population model (but not IBM!);spatially explicit capture‚Äêrecapture model (SECR), matrix population model;1;0;1;0;1;0;0;other;species conservation,connectivity;management scenario;1;grasslands/shrublands/savannahs;mammals;10000 km²;1-10 km;south_america;2060 "Forrest, JL; Wikramanayake, E; Shrestha, R; Areendran, G; Gyeltshen, K; Maheshwari, A; Mazumdar, S; Naidoo, R; Thapa, GJ; Thapa, K";Conservation and climate change: Assessing the vulnerability of snow leopard habitat to treeline shift in the Himalaya;BIOLOGICAL CONSERVATION;150;1;10.1016/j.biocon.2012.03.001;2012;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);hybrid model, habitat suitability + connectivity (empasis on habitat suitability);0;0;1;0;0;1;0;climate change;habitat conservation;global change scenario;1;mountains;mammals;100000 km²;0.1-1 km;asia;2099 "Frederico, RG; Zuanon, J; De Marco, P";Amazon protected areas and its ability to protect stream-dwelling fish fauna;BIOLOGICAL CONSERVATION;219;NA;10.1016/j.biocon.2017.12.032;2018;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;land/sea use change;spatial prioritization;gap analysis;138;freshwaters;fishes;10000000 km²;1-10 km;south_america;current "Galvez, N; Guillera-Arroita, G; St John, FAV; Schuttler, E; Macdonald, DW; Davies, ZG";A spatially integrated framework for assessing socioecological drivers of carnivore decline;JOURNAL OF APPLIED ECOLOGY;55;3;10.1111/1365-2664.13072;2018;species populations;species abundances;populations;dynamic patch occupancy model;Dynamic occupancy models;1;0;1;0;1;1;0;overexploitation;species conservation;management scenario;1;forests;mammals;10000 km²;NA;south_america;current "Gangadharan, A; Vaidyanathan, S; St Clair, CC";Planning connectivity at multiple scales for large mammals in a human-dominated biodiversity hotspot;JOURNAL FOR NATURE CONSERVATION;36;NA;10.1016/j.jnc.2017.02.003;2017;species populations;species abundances;populations;static connectivity models (incl. Circuit theoy, permeability);Resource selection functions, Circuit theory models;0;0;1;0;0;1;0;land/sea use change;connectivity;gap analysis;2;forests,grasslands/shrublands/savannahs,farmlands;mammals;1000 km²;0.1-1 km;asia;current "Gantchoff, MG; Belant, JL";Regional connectivity for recolonizing American black bears (Ursus americanus) in southcentral USA;BIOLOGICAL CONSERVATION;214;NA;10.1016/j.biocon.2017.07.023;2017;species traits;movement;populations;static connectivity models (incl. Circuit theoy, permeability);least-cost corridor analysis, circuit theory;0;0;1;0;0;0;0;land/sea use change;species conservation,spatial prioritization;cost optimisation;1;forests,grasslands/shrublands/savannahs;mammals;1000 km²;1-10 km;north_america;current "Garcia-Baron, I; Giakoumi, S; Santos, MB; Granado, I; Louzao, M";The value of time-series data for conservation planning;JOURNAL OF APPLIED ECOLOGY;NA;NA;10.1111/1365-2664.13790;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);Marxan;0;0;1;0;0;0;0;overexploitation,land/sea use change;species conservation;current mapping;13;oceans/coasts;mammals,birds;100000 km²;1-10 km;europe;current "Gaynor, KM; Daskin, JH; Rich, LN; Brashares, JS";Postwar wildlife recovery in an African savanna: evaluating patterns and drivers of species occupancy and richness;ANIMAL CONSERVATION;NA;NA;10.1111/acv.12661;2020;community composition;taxonomic/phylogenetic diversity;populations;static species distribution models (incl. Abundance and occupancy models);Bayesian multi-species occupancy model, GLMM;0;0;1;0;0;0;0;land/sea use change;restoration;current mapping;38;grasslands/shrublands/savannahs,forests;mammals;10000 km²;< 0.1 km;africa;current "Gehring, TM; McFadden, LM; Prussing, SA; Bickersmith, SA; Buchanan, C; Nelson, E; Swanson, BJ";Spatial Ecology of Re- introduced American Martens in the Northern Lower Peninsula of Michigan;AMERICAN MIDLAND NATURALIST;182;2;10.1674/0003-0031-182.2.239;2019;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation,reintroduction;current mapping;1;forests;mammals;10000 km²;< 0.1 km;north_america;current "Georgiadis, NJ; Olwero, JGN; Ojwang, G; Romanach, SS";Savanna herbivore dynamics in a livestock-dominated landscape: I. Dependence on land use, rainfall, density, and time;BIOLOGICAL CONSERVATION;137;3;10.1016/j.biocon.2007.03.005;2007;community composition;community abundance;communities;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;9;grasslands/shrublands/savannahs;mammals;10000 km²;0.1-1 km;africa;current "Gerber, BD; Converse, SJ; Muths, E; Crockett, HJ; Mosher, BA; Bailey, LL";Identifying Species Conservation Strategies to Reduce Disease-Associated Declines;CONSERVATION LETTERS;11;2;10.1111/conl.12393;2018;species populations;species distributions;populations;dynamic population model (but not IBM!);multistate occupancy model;1;0;1;0;1;0;0;invasive species and disease;disease control,species conservation;management scenario;1;forests,grasslands/shrublands/savannahs;amphibians;100 km²;NA;north_america;current "Grand, J; Saunders, SP; Michel, NL; Elliott, L; Beilke, S; Bracey, A; Gehring, TM; Giese, EEG; Howe, RW; Kasberg, B; Miller, N; Niemi, GJ; Norment, CJ; Tozer, DC; Wu, J; Wilsey, C";Prioritizing coastal wetlands for marsh bird conservation in the US Great Lakes;BIOLOGICAL CONSERVATION;249;NA;10.1016/j.biocon.2020.108708;2020;ecosystem structure;ecosystem distribution;species;static species distribution models (incl. Abundance and occupancy models);BRT, Zonation;0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;14;wetlands;birds;100000 km²;0.1-1 km;north_america;current "Grilo, C; Lucas, PM; Fernandez-Gil, A; Seara, M; Costa, G; Roque, S; Rio-Maior, H; Nakamura, M; Alvares, F; Petrucci-Fonseca, F; Revilla, E";Refuge as major habitat driver for wolf presence in human-modified landscapes;ANIMAL CONSERVATION;22;1;10.1111/acv.12435;2019;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);suitable habitat models (GLM, Maxent);0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;forests,grasslands/shrublands/savannahs;mammals;100 km²;NA;europe;NA "Guizien, K; Belharet, M; Moritz, C; Guarini, JM";Vulnerability of marine benthic metapopulations: implications of spatially structured connectivity for conservation practice in the Gulf of Lions (NW Mediterranean Sea);DIVERSITY AND DISTRIBUTIONS;20;12;10.1111/ddi.12254;2014;species populations;species abundances;populations;dynamic population model (but not IBM!);Spatially explicit metapopulation model;1;0;0;0;1;1;0;land/sea use change;connectivity;cost optimisation;NA;oceans/coasts;invertebrates;10000 km²;NA;europe;NA "Hackney, AD; Baldwin, RF; Jodice, PGR";Mapping risk for nest predation on a barrier island;JOURNAL OF COASTAL CONSERVATION;17;3;10.1007/s11852-013-0260-5;2013;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);logistic regression;0;0;1;0;0;0;0;other;species conservation;current mapping;1;oceans/coasts;reptiles;10 km²;< 0.1 km;north_america;current "Hanley, ZL; Cooley, HS; Maletzke, BT; Wielgus, RB";Cattle depredation risk by gray wolves on grazing allotments in Washington;GLOBAL ECOLOGY AND CONSERVATION;16;NA;10.1016/j.gecco.2018.e00453;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);regression (GLMM);0;0;1;0;0;0;1;other;species conservation;current mapping;2;grasslands/shrublands/savannahs,forests;mammals;100000 km²;< 0.1 km;north_america;current "Heaton, JS; Nussear, KE; Esque, TC; Inman, RD; Davenport, FM; Leuteritz, TE; Medica, PA; Strout, NW; Burgess, PA; Benvenuti, L";Spatially explicit decision support for selecting translocation areas for Mojave desert tortoises;BIODIVERSITY AND CONSERVATION;17;3;10.1007/s10531-007-9282-3;2008;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);Knowledge-based suitability model, Ecosystem Management Decision Support (ArcGIS);0;0;1;0;0;0;0;land/sea use change;translocation;management scenario;1;deserts;reptiles;100000 km²;1-10 km;north_america;NA "Heinrichs, JA; Aldridge, CL; Gummer, DL; Monroe, AP; Schumaker, NH";Prioritizing actions for the recovery of endangered species: Emergent insights from Greater Sage-grouse simulation modeling;BIOLOGICAL CONSERVATION;218;NA;10.1016/j.biocon.2017.11.022;2018;species populations;species abundances;individuals;dynamic individual-based model;spatially explicit IBM (HexSim);1;0;1;0;1;1;0;land/sea use change;restoration;management scenario;1;grasslands/shrublands/savannahs;birds;10000 km²;0.1-1 km;north_america;2000-2025 "Heinrichs, JA; McKinnon, DT; Aldridge, CL; Moehrenschlager, A";Optimizing the use of endangered species in multi-population collection, captive breeding and release programs;GLOBAL ECOLOGY AND CONSERVATION;17;NA;10.1016/j.gecco.2019.e00558;2019;species populations;species distributions;individuals;dynamic individual-based model;spatially explicit, individual-based models;1;0;0;0;1;0;0;land/sea use change;species conservation,reintroduction;management scenario;1;grasslands/shrublands/savannahs,forests;birds;100 km²;NA;north_america;NA "Heurich, M; Schultze-Naumburg, J; Piacenza, N; Magg, N; Cerveny, J; Engleder, T; Herdtfelder, M; Sladova, M; Kramer-Schadt, S";Illegal hunting as a major driver of the source-sink dynamics of a reintroduced lynx population in Central Europe;BIOLOGICAL CONSERVATION;224;NA;10.1016/j.biocon.2018.05.011;2018;species populations;species abundances;individuals;dynamic individual-based model;Spatially-explicit individual-based dispersal and population model;1;0;1;0;1;1;0;overexploitation;species conservation;management scenario;1;forests;mammals;1000 km²;1-10 km;europe;NA "Hiddink, JG; Jennings, S; Kaiser, MJ";Assessing and predicting the relative ecological impacts of disturbance on habitats with different sensitivities;JOURNAL OF APPLIED ECOLOGY;44;2;10.1111/j.1365-2664.2007.01274.x;2007;ecosystem function;ecosystem disturbances;communities;dynamic population model (but not IBM!);spatially explicit competitive Lotka‚ÄìVolterra model;1;0;1;0;1;0;1;overexploitation;habitat conservation;management scenario;NA;oceans/coasts;invertebrates;1000000 km²;1-10 km;europe;NA "Holland, RA; Darwall, WRT; Smith, KG";Conservation priorities for freshwater biodiversity: The Key Biodiversity Area approach refined and tested for continental Africa;BIOLOGICAL CONSERVATION;148;1;10.1016/j.biocon.2012.01.016;2012;ecosystem structure;ecosystem distribution;species;static macroecological model (e.g. species richness as response);mapping;0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation;cost optimisation;NA;freshwaters;fishes,invertebrates;10000 km²;NA;africa;NA "Holzkamper, A; Seppelt, R";Evaluating cost-effectiveness of conservation management actions in an agricultural landscape on a regional scale;BIOLOGICAL CONSERVATION;136;1;10.1016/j.biocon.2006.11.011;2007;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;land/sea use change;habitat conservation;cost optimisation;3;farmlands;birds;10000 km²;< 0.1 km;europe;current "Hosseini, M; Farashi, A; Khani, A; Farhadinia, MS";Landscape connectivity for mammalian megafauna along the Iran-Turkmenistan-Afghanistan borderland;JOURNAL FOR NATURE CONSERVATION;52;NA;10.1016/j.jnc.2019.125735;2019;community composition;taxonomic/phylogenetic diversity;species;static connectivity models (incl. Circuit theoy, permeability);species distribution model & circuit model;0;0;1;0;0;0;0;land/sea use change;habitat conservation;gap analysis;4;mountains,deserts;mammals;1000 km²;NA;asia;current "Jacoby, DMP; Ferretti, F; Freeman, R; Carlisle, AB; Chapple, TK; Curnick, DJ; Dale, JJ; Schallert, RJ; Tickler, D; Block, BA";Shark movement strategies influence poaching risk and can guide enforcement decisions in a large, remote marine protected area;JOURNAL OF APPLIED ECOLOGY;NA;NA;10.1111/1365-2664.13654;2020;species populations;movement;individuals;dynamic individual-based model;IBM;1;0;1;0;0;1;0;overexploitation,land/sea use change;species conservation;current mapping;2;oceans/coasts;fishes;1000000 km²;NA;NA;current "Jantke, K; Schleupner, C; Schneider, UA";Gap analysis of European wetland species: priority regions for expanding the Natura 2000 network;BIODIVERSITY AND CONSERVATION;20;3;10.1007/s10531-010-9968-9;2011;community composition;taxonomic/phylogenetic diversity;populations;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;0;0;land/sea use change,climate change;spatial prioritization;cost optimisation;70;wetlands;amphibians,reptiles,birds,mammals;10000000 km²;10-100 km;europe;current "Jasinska, KD; Zmihorski, M; Krauze-Gryz, D; Kotowska, D; Werka, J; Piotrowska, D; Part, T";Linking habitat composition, local population densities and traffic characteristics to spatial patterns of ungulate-train collisions;JOURNAL OF APPLIED ECOLOGY;56;12;10.1111/1365-2664.13495;2019;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);regression (GAMM);0;0;0;0;0;0;0;other;connectivity;current mapping;4;forests,urban areas,grasslands/shrublands/savannahs;mammals;1000000 km²;0.1-1 km;europe;current "Jenkins, DA; Lecomte, N; Andrews, G; Yannic, G; Schaefer, JA";Biotic interactions govern the distribution of coexisting ungulates in the Arctic Archipelago - A case for conservation planning;GLOBAL ECOLOGY AND CONSERVATION;24;NA;10.1016/j.gecco.2020.e01239;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);correlative SDM (MaxEnt);0;0;1;0;0;0;1;climate change;spatial prioritization;current mapping;2;grasslands/shrublands/savannahs;mammals;1000000 km²;0.1-1 km;north_america;current "Jeong, S; Kim, HG; Thorne, JH; Lee, H; Cho, YH; Lee, DK; Park, CH; Seo, C";Evaluating connectivity for two mid-sized mammals across modified riparian corridors with wildlife crossing monitoring and species distribution modeling;GLOBAL ECOLOGY AND CONSERVATION;16;NA;10.1016/j.gecco.2018.e00485;2018;community composition;taxonomic/phylogenetic diversity;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;land/sea use change;habitat conservation,connectivity;current mapping;2;wetlands;mammals;10000 km²;0.1-1 km;asia;current "Johnson, SA; Ober, HK; Adams, DC";Are keystone species effective umbrellas for habitat conservation? A spatially explicit approach;JOURNAL FOR NATURE CONSERVATION;37;NA;10.1016/j.jnc.2017.03.003;2017;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model (MaxEnt);0;0;1;0;0;0;0;land/sea use change;habitat conservation;gap analysis;2;forests,grasslands/shrublands/savannahs;reptiles,birds;100 km²;< 0.1 km;north_america;current "Jones, EL; Hastie, GD; Smout, S; Onoufriou, J; Merchant, ND; Brookes, KL; Thompson, D";Seals and shipping: quantifying population risk and individual exposure to vessel noise;JOURNAL OF APPLIED ECOLOGY;54;6;10.1111/1365-2664.12911;2017;species populations;species distributions;individuals;static species distribution models (incl. Abundance and occupancy models);modelling of ship/seal co-occurrence and acoustic exposure;0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;2;oceans/coasts;mammals;1000000 km²;1-10 km;europe;current "Kanagaraj, R; Wiegand, T; Kramer-Schadt, S; Goyal, SP";Using individual-based movement models to assess inter-patch connectivity for large carnivores in fragmented landscapes;BIOLOGICAL CONSERVATION;167;NA;10.1016/j.biocon.2013.08.030;2013;species traits;movement;individuals;dynamic individual-based model;Spatially explicit individual-based model;1;0;1;0;0;1;0;land/sea use change;connectivity;management scenario;1;forests,grasslands/shrublands/savannahs,farmlands;mammals;100000 km²;0.1-1 km;asia;current "Kramer-Schadt, S; Revilla, E; Wiegand, T";Lynx reintroductions in fragmented landscapes of Germany: Projects with a future or misunderstood wildlife conservation?;BIOLOGICAL CONSERVATION;125;2;10.1016/j.biocon.2005.02.015;2005;species populations;species abundances;individuals;dynamic individual-based model;spatially explicit IBM;1;0;1;0;1;1;0;other;reintroduction;management scenario;1;forests;mammals;1000000 km²;1-10 km;europe;current "Kshettry, A; Vaidyanathan, S; Sukumar, R; Athreya, V";Looking beyond protected areas: Identifying conservation compatible landscapes in agro-forest mosaics in north-eastern India;GLOBAL ECOLOGY AND CONSERVATION;22;NA;10.1016/j.gecco.2020.e00905;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;2;farmlands,urban areas;mammals;10000 km²;1-10 km;asia;current "Kuehl, HS; Nzeingui, C; Yeno, SLD; Huijbregts, B; Boesch, C; Walsh, PD";Discriminating between village and commercial hunting of apes;BIOLOGICAL CONSERVATION;142;7;10.1016/j.biocon.2009.02.032;2009;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;overexploitation;species conservation;current mapping;2;forests;mammals;100 km²;0.1-1 km;africa;current "Kuemmerle, T; Perzanowski, K; Akcakaya, HR; Beaudry, F; Van Deelen, TR; Parnikoza, I; Khoyetskyy, P; Waller, DM; Radeloff, VC";Cost-effectiveness of strategies to establish a European bison metapopulation in the Carpathians;JOURNAL OF APPLIED ECOLOGY;48;2;10.1111/j.1365-2664.2010.01954.x;2011;species populations;species abundances;populations;dynamic population model (but not IBM!);Spatially explicit metapopulation model;1;0;1;0;1;1;0;overexploitation;species conservation;cost optimisation;1;forests;mammals;1000000 km²;0.1-1 km;europe;NA "Kuhn, A; Copeland, J; Cooley, J; Vogel, H; Taylor, K; Nacci, D; August, P";Modeling Habitat Associations for the Common Loon (Gavia immer) at Multiple Scales in Northeastern North America;AVIAN CONSERVATION AND ECOLOGY;6;1;10.5751/ACE-00451-060104;2011;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);correlative SDM (GLM);0;0;1;0;0;0;0;other;spatial prioritization;current mapping;1;wetlands;birds;100000 km²;< 0.1 km;north_america;current "Lambertucci, SA; Ruggiero, A";Cliff outcrops used as condor communal roosts are local hotspots of occupancy and intense use by other bird species;BIOLOGICAL CONSERVATION;200;NA;10.1016/j.biocon.2016.05.013;2016;community composition;community abundance;communities;static macroecological model (e.g. species richness as response);regression (LLM);0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;54;mountains,grasslands/shrublands/savannahs;birds;100000 km²;1-10 km;south_america;current "Lavers, JL; Miller, MGR; Carter, MJ; Swann, G; Clarke, RH";Predicting the Spatial Distribution of a Seabird Community to Identify Priority Conservation Areas in the Timor Sea;CONSERVATION BIOLOGY;28;6;10.1111/cobi.12324;2014;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;other;habitat conservation;current mapping;21;oceans/coasts;birds;10000 km²;1-10 km;australia;current "Lee, TS; Creech, TG; Martinson, A; Nielsen, SE; Jakes, AF; Jones, PF; Sanderson, K; Ford, AT";Prioritizing human safety and multispecies connectivity across a regional road network;CONSERVATION SCIENCE AND PRACTICE;NA;NA;10.1111/csp2.327;2020;species populations;species distributions;species;static connectivity models (incl. Circuit theoy, permeability);least cost paths (Linkage Mapper);0;0;1;0;0;0;0;other;connectivity;cost optimisation;4;grasslands/shrublands/savannahs,forests,mountains;mammals,reptiles;100000 km²;> 100 km;north_america;current "Leighton, PA; Horrocks, JA; Kramer, DL";Conservation and the scarecrow effect: Can human activity benefit threatened species by displacing predators?;BIOLOGICAL CONSERVATION;143;9;10.1016/j.biocon.2010.05.028;2010;community composition;interaction diversity;species;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;1;invasive species and disease;species conservation;management scenario;2;oceans/coasts;mammals,reptiles;10 km²;< 0.1 km;north_america;current "Li, BBV; Pimm, SL; Li, S; Zhao, LJ; Luo, CP";Free-ranging livestock threaten the long-term survival of giant pandas;BIOLOGICAL CONSERVATION;216;NA;10.1016/j.biocon.2017.09.019;2017;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;1;land/sea use change;habitat conservation;current mapping;1;mountains;mammals;1000 km²;NA;asia;current "Li, C; Connor, T; Bai, WK; Yang, HB; Zhang, J; Qi, DW; Zhou, CQ";Dynamics of the giant panda habitat suitability in response to changing anthropogenic disturbance in the Liangshan Mountains;BIOLOGICAL CONSERVATION;237;NA;10.1016/j.biocon.2019.07.018;2019;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);correlative SDM (MaxEnt);0;0;1;0;0;0;0;land/sea use change;restoration;current mapping;1;forests,mountains;mammals;10000 km²;< 0.1 km;asia;current "Li, J; Wang, DJ; Yin, H; Zhaxi, DJ; Jiagong, ZL; Schaller, GB; Mishra, C; Mccarthy, TM; Wang, H; Wu, L; Xiao, LY; Basang, LM; Zhang, YG; Zhou, YY; Lu, Z";Role of Tibetan Buddhist Monasteries in Snow Leopard Conservation;CONSERVATION BIOLOGY;28;1;10.1111/cobi.12135;2014;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;overexploitation;habitat conservation;current mapping;1;mountains;mammals;100000 km²;1-10 km;asia;current "Lin, HY; Schuster, R; Wilson, S; Cooke, SJ; Rodewald, AD; Bennett, JR";Integrating season-specific needs of migratory and resident birds in conservation planning;BIOLOGICAL CONSERVATION;252;NA;10.1016/j.biocon.2020.108826;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);zero-inflated BRTs + Marxan;0;0;1;0;0;0;0;land/sea use change;spatial prioritization,species conservation;cost optimisation;610;farmlands,forests,grasslands/shrublands/savannahs;birds;> 10000000 km²;1-10 km;north_america;2000-2050 "Linares, C; Coma, R; Zabala, M";Restoration of threatened red gorgonian populations: An experimental and modelling approach;BIOLOGICAL CONSERVATION;141;2;10.1016/j.biocon.2007.10.012;2008;species populations;species abundances;populations;dynamic population model (but not IBM!);size-structured matrix model;1;0;1;0;1;0;1;land/sea use change;restoration;management scenario;1;oceans/coasts;invertebrates;100 km²;NA;europe;NA "Linden, DW; Fuller, AK; Royle, JA; Hare, MP";Examining the occupancy-density relationship for a low-density carnivore;JOURNAL OF APPLIED ECOLOGY;54;6;10.1111/1365-2664.12883;2017;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);Occupancy model;0;0;1;0;0;0;0;other;species conservation;management scenario;1;freshwaters;mammals;100000 km²;1-10 km;north_america;current "Lindenmayer, DB; Possingham, HP";Ranking conservation and timber management options for leadbeater's possum in southeastern Australia using population viability analysis;CONSERVATION BIOLOGY;10;1;10.1046/j.1523-1739.1996.10010235.x;1996;species populations;species abundances;populations;dynamic population model (but not IBM!);ALEX;1;0;1;0;1;1;0;other;species conservation;management scenario;1;forests;mammals;100 km²;NA;australia;1996-2396 "Loesch, CR; Reynolds, RE; Hansen, LT";An Assessment of Re-Directing Breeding Waterfowl Conservation Relative to Predictions of Climate Change;JOURNAL OF FISH AND WILDLIFE MANAGEMENT;3;1;10.3996/032011-JFWM-020;2012;community composition;community abundance;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;climate change;habitat conservation;cost optimisation;5;wetlands,grasslands/shrublands/savannahs;birds;10000 km²;1-10 km;north_america;current "Long, AM; Pierce, BL; Anderson, AD; Skow, KL; Smith, A; Lopez, RR";Integrating citizen science and remotely sensed data to help inform time-sensitive policy decisions for species of conservation concern;BIOLOGICAL CONSERVATION;237;NA;10.1016/j.biocon.2019.07.025;2019;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;grasslands/shrublands/savannahs;birds;1000000 km²;1-10 km;north_america;current "Loveridge, AJ; Valeix, M; Elliot, NB; Macdonald, DW";The landscape of anthropogenic mortality: how African lions respond to spatial variation in risk;JOURNAL OF APPLIED ECOLOGY;54;3;10.1111/1365-2664.12794;2017;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);logistic regression models;0;0;0;0;1;0;0;land/sea use change,overexploitation;species conservation;current mapping;1;grasslands/shrublands/savannahs;mammals;1000 km²;0.1-1 km;africa;current "Lubis, MI; Pusparini, W; Prabowo, SA; Marthy, W; Tarmizi; Andayani, N; Linkie, M";Unraveling the complexity of human-tiger conflicts in the Leuser Ecosystem, Sumatra;ANIMAL CONSERVATION;NA;NA;10.1111/acv.12591;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);occupancy model, resource selection function;0;0;1;0;0;0;1;overexploitation;species conservation;current mapping;1;peatlands,forests,mountains;mammals;100000 km²;1-10 km;asia;current "Lyons, AL; Gaines, WL; Singleton, PH; Kasworm, WF; Proctor, MF; Begley, J";Spatially explicit carrying capacity estimates to inform species specific recovery objectives: Grizzly bear (Ursus arctos) recovery in the North Cascades;BIOLOGICAL CONSERVATION;222;NA;10.1016/j.biocon.2018.03.027;2018;species populations;species abundances;individuals;dynamic individual-based model;IBM;1;0;1;0;1;1;0;other;species conservation;management scenario;1;forests;mammals;100000 km²;NA;north_america;current "Macary, F; Morin, S; Probst, JL; Saudubray, F";A multi-scale method to assess pesticide contamination risks in agricultural watersheds;ECOLOGICAL INDICATORS;36;NA;10.1016/j.ecolind.2013.09.001;2014;ecosystem function;ecosystem disturbances;ecosystems;integrated assessment model;spatialised pixel-based method;0;0;1;0;0;0;0;pollution,land/sea use change;habitat conservation;gap analysis;NA;freshwaters;NA;100 km²;< 0.1 km;europe;NA "MacFadyen, S; Hui, C; Verbug, PH; Van Teeffelen, AJA";Spatiotemporal distribution dynamics of elephants in response to density, rainfall, rivers and fire in Kruger National Park, South Africa;DIVERSITY AND DISTRIBUTIONS;25;6;10.1111/ddi.12907;2019;species populations;species distributions;populations;dynamic population model (but not IBM!);mixed‚Äêeffects multiple point process model;1;0;1;0;0;0;0;other;species conservation,habitat conservation;current mapping;1;grasslands/shrublands/savannahs;mammals;100000 km²;1-10 km;africa;current "Maddock, A; Benn, GA";Identification of conservation-worthy areas in northern Zululand, South Africa;CONSERVATION BIOLOGY;14;1;10.1046/j.1523-1739.2000.98241.x;2000;ecosystem function;ecosystem distribution;communities;static macroecological model (e.g. species richness as response);PCA + SDM;0;0;1;0;0;1;0;other;spatial prioritization;gap analysis;49;grasslands/shrublands/savannahs,forests;invertebrates,mammals,amphibians;100000 km²;0.1-1 km;africa;current "Madsen, EK; Broekhuis, F";Determining multi-species site use outside the protected areas of the Maasai Mara, Kenya, using false positive site-occupancy modelling;ORYX;54;3;10.1017/S0030605318000297;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);site-occupancy model;0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;6;grasslands/shrublands/savannahs,wetlands,forests;mammals;10000 km²;1-10 km;africa;current "Malawska, A; Topping, CJ";Applying a biocomplexity approach to modelling farmer decision-making and land use impacts on wildlife;JOURNAL OF APPLIED ECOLOGY;55;3;10.1111/1365-2664.13024;2018;community composition;taxonomic/phylogenetic diversity;populations;integrated assessment model;spatially-explicit agent-based model;1;0;1;0;1;1;0;land/sea use change;habitat conservation;management scenario;6;farmlands;mammals,birds,invertebrates;100 km²;< 0.1 km;europe;2045 "Manfrin, A; Bombi, P; Traversetti, L; Larsen, S; Scalici, M";A landscape-based predictive approach for running water quality assessment: A Mediterranean case study;JOURNAL FOR NATURE CONSERVATION;30;NA;10.1016/j.jnc.2016.01.002;2016;ecosystem function;ecosystem disturbances;communities;static macroecological model (e.g. species richness as response);regression (GLM);0;0;1;0;0;0;0;pollution;spatial prioritization;gap analysis;NA;freshwaters;invertebrates;100000 km²;1-10 km;europe;current "Marquez, C; Vargas, JM; Villafuerte, R; Fa, JE";Understanding the propensity of wild predators to illegal poison baiting;ANIMAL CONSERVATION;16;1;10.1111/j.1469-1795.2012.00581.x;2013;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;0;0;overexploitation;species conservation;current mapping;36;mountains,grasslands/shrublands/savannahs,farmlands;mammals,birds;100000 km²;10-100 km;europe;current "Martin, G; Espinoza, M; Heupel, M; Simpfendorfer, CA";Estimating marine protected area network benefits for reef sharks;JOURNAL OF APPLIED ECOLOGY;57;10;10.1111/1365-2664.13706;2020;species populations;species distributions;populations;dynamic individual-based model;individual base model (object‚Äêoriented programming);1;0;1;0;1;0;0;overexploitation,land/sea use change,pollution;spatial prioritization;management scenario;3;oceans/coasts;fishes;100 km²;NA;australia;NA "Masiaine, S; Pilfold, N; Moll, RJ; O'connor, D; Larpei, L; Stacy-Dawes, J; Ruppert, K; Glikman, JA; Roloff, G; Montgomery, RA";Landscape-level changes to large mammal space use in response to a pastoralist incursion;ECOLOGICAL INDICATORS;121;NA;10.1016/j.ecolind.2020.107091;2021;species populations;species distributions;species;dynamic patch occupancy model;Bayesian site visitation model;1;0;1;0;0;1;0;other;habitat conservation;current mapping;7;grasslands/shrublands/savannahs;mammals;1000 km²;< 0.1 km;africa;current "Mata, C; Fuentes-Allende, N; Malo, JE; Vielma, A; Gonzalez, BA";The mismatch between location of protected areas and suitable habitat for the Vulnerable taruka Hippocamelus antisensis;ORYX;53;4;10.1017/S0030605317001740;2019;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;other;species conservation;gap analysis;1;grasslands/shrublands/savannahs,mountains;mammals;100000 km²;1-10 km;south_america;current "Mateo-Tomas, P; Olea, PP; Sanchez-Barbudo, IS; Mateo, R";Alleviating human-wildlife conflicts: identifying the causes and mapping the risk of illegal poisoning of wild fauna;JOURNAL OF APPLIED ECOLOGY;49;2;10.1111/j.1365-2664.2012.02119.x;2012;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;overexploitation;species conservation;current mapping;25;forests,farmlands,grasslands/shrublands/savannahs;mammals,birds;100000 km²;1-10 km;europe;current "McFarland, TM; Mathewson, HA; Groce, JE; Morrison, ML; Newnam, JC; Snelgrove, RT; Skow, KL; Collier, BA; Wilkins, RN";Utilization of a Species Occupancy Model for Management and Conservation;WILDLIFE SOCIETY BULLETIN;36;3;10.1002/wsb.106;2012;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);Occupancy model;0;0;1;0;0;0;0;land/sea use change;species conservation;management scenario;1;forests;birds;100000 km²;0.1-1 km;north_america;current "Meier, ES; Dullinger, S; Zimmermann, NE; Baumgartner, D; Gattringer, A; Hulber, K";Space matters when defining effective management for invasive plants;DIVERSITY AND DISTRIBUTIONS;20;9;10.1111/ddi.12201;2014;species populations;species distributions;species;dynamic population model (but not IBM!);dynamic simulation model (GLM, demographic and dispersal model);1;0;1;0;1;1;0;invasive species and disease;disease control;management scenario;3;freshwaters;plants;10000 km²;< 0.1 km;europe;current "Mena, JL; Yagui, H; Tejeda, V; Cabrera, J; Pacheco-Esquivel, J; Rivero, J; Pastor, P";Abundance of jaguars and occupancy of medium- and large-sized vertebrates in a transboundary conservation landscape in the northwestern Amazon;GLOBAL ECOLOGY AND CONSERVATION;23;NA;10.1016/j.gecco.2020.e01079;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);Multi-species occupancy model;0;0;1;0;0;0;0;land/sea use change,climate change;species conservation;management scenario;28;forests;mammals,birds;10000 km²;NA;south_america;current "Mendenhall, CD; Archer, HM; Brenes, FO; Sekercioglu, CH; Sehgal, RNM";Balancing biodiversity with agriculture: Land sharing mitigates avian malaria prevalence;CONSERVATION LETTERS;6;2;10.1111/j.1755-263X.2012.00302.x;2013;species populations;species abundances;individuals;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;invasive species and disease;disease control;management scenario;1;farmlands,forests;birds;100 km²;< 0.1 km;north_america;current "Metzger, KL; Lehnen, SE; Sesnie, SE; Butler, MJ; Pearse, AT; Harris, G";Identifying sustainable winter habitat for whooping cranes;JOURNAL FOR NATURE CONSERVATION;57;NA;10.1016/j.jnc.2020.125892;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;climate change,land/sea use change;habitat conservation;global change scenario;1;oceans/coasts;birds;100000 km²;0.1-1 km;north_america;2100 "Metzger, KL; Sinclair, ARE; Campbell, KLI; Hilborn, R; Hopcraft, JGC; Mduma, SAR; Reich, RM";Using historical data to establish baselines for conservation: The black rhinoceros (Diceros bicornis) of the Serengeti as a case study;BIOLOGICAL CONSERVATION;139;44289;10.1016/j.biocon.2007.06.026;2007;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model + hunting model (distance decay and offtake locations);0;0;1;0;0;0;0;overexploitation;reintroduction;current mapping;1;grasslands/shrublands/savannahs;mammals;100000 km²;1-10 km;africa;current "Metzger, KL; Sinclair, ARE; Hilborn, R; Hopcraft, JGC; Mduma, SAR";Evaluating the protection of wildlife in parks: the case of African buffalo in Serengeti;BIODIVERSITY AND CONSERVATION;19;12;10.1007/s10531-010-9904-z;2010;species populations;species abundances;populations;dynamic population model (but not IBM!);Spatially explicit population model;1;0;0;0;1;1;1;overexploitation;species conservation;management scenario;1;grasslands/shrublands/savannahs;mammals;100000 km²;1-10 km;africa;current "Meyer, BC; Mammen, K; Grabaum, R";A spatially explicit model for integrating species assessments into landscape planning as exemplified by the Corn Bunting (Emberiza calandra);JOURNAL FOR NATURE CONSERVATION;15;2;10.1016/j.jnc.2007.01.001;2007;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);rule-based habitat model;0;0;1;0;0;0;0;other;habitat conservation;current mapping;1;farmlands;birds;100 km²;0.1-1 km;europe;current "Milicic, M; Vujic, A; Jurca, T; Cardoso, P";Designating conservation priorities for Southeast European hoverflies (Diptera: Syrphidae) based on species distribution models and species vulnerability;INSECT CONSERVATION AND DIVERSITY;10;4;10.1111/icad.12232;2017;community composition;taxonomic/phylogenetic diversity;species;static species distribution models (incl. Abundance and occupancy models);correlative SDM (MaxEnt);0;0;1;0;0;0;0;climate change,land/sea use change,pollution;spatial prioritization;current mapping;44;grasslands/shrublands/savannahs,farmlands,forests,mountains,wetlands,peatlands,urban areas,freshwaters,oceans/coasts,deserts,islands;invertebrates;1000000 km²;1-10 km;europe;current "Mills, KL; Harissou, Y; Gnoumou, IT; Abdel-Nasser, YI; Doamba, B; Harris, NC";Comparable space use by lions between hunting concessions and national parks in West Africa;JOURNAL OF APPLIED ECOLOGY;57;5;10.1111/1365-2664.13601;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);occupancy and structural equation modelling;0;0;1;0;0;0;0;land/sea use change;species conservation;gap analysis;1;forests,grasslands/shrublands/savannahs;mammals;100 km²;10-100 km;africa;current "Mohammadi, A; Almasieh, K; Clevenger, AP; Fatemizadeh, F; Rezaei, A; Jowkar, H; Kaboli, M";Road expansion: A challenge to conservation of mammals, with particular emphasis on the endangered Asiatic cheetah in Iran;JOURNAL FOR NATURE CONSERVATION;43;NA;10.1016/j.jnc.2018.02.011;2018;community composition;taxonomic/phylogenetic diversity;species;static connectivity models (incl. Circuit theoy, permeability);MaxEnt SDM, (least cost method for corridors based on habitat suitability in CorridorDesigner Software;0;0;1;0;0;1;0;land/sea use change;connectivity;current mapping;8;grasslands/shrublands/savannahs;mammals;100000 km²;< 0.1 km;asia;current "Morris, LR; Blackburn, JK";Predicting Disease Risk, Identifying Stakeholders, and Informing Control Strategies: A Case Study of Anthrax in Montana;ECOHEALTH;13;2;10.1007/s10393-016-1119-7;2016;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);suitability model (GARP);0;0;1;0;0;0;0;invasive species and disease;disease control;current mapping;1;grasslands/shrublands/savannahs,forests,farmlands;microbes;100 km²;1-10 km;north_america;NA "Mumby, PJ; Hastings, A";The impact of ecosystem connectivity on coral reef resilience;JOURNAL OF APPLIED ECOLOGY;45;3;10.1111/j.1365-2664.2008.01459.x;2008;ecosystem function;ecosystem disturbances;communities;dynamic ecosystem model (e.g. Madingley);spatial simulation model of coral reef dynamics;1;0;1;0;1;1;1;climate change;habitat conservation;global change scenario;NA;oceans/coasts;invertebrates,fishes;1 km²;< 0.1 km;north_america;2005-2055 "Muntifering, JR; Linklater, WL; Naidoo, R; Uri-Khob, S; du Preez, P; Beytell, P; Jacobs, S; Knight, AT";Black rhinoceros avoidance of tourist infrastructure and activity: planning and managing for coexistence;ORYX;55;1;10.1017/S0030605318001606;2021;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);logistic regression with different candidate models (zone of influence models);0;0;1;0;0;0;0;land/sea use change;habitat conservation;management scenario;1;grasslands/shrublands/savannahs;mammals;10000 km²;NA;africa;current "Murdoch, JD; Reading, RP; Amgalanbaatar, S; Wingard, G; Lkhagvasuren, B";Ecological interactions shape the distribution of a cultural ecosystem service: Argali sheep (Ovis ammon) in the Gobi-Steppe of Mongolia;BIOLOGICAL CONSERVATION;209;NA;10.1016/j.biocon.2017.02.035;2017;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;0;0;land/sea use change;habitat conservation;management scenario;1;grasslands/shrublands/savannahs,deserts;mammals;1000 km²;0.1-1 km;asia;current "Murillo, FJ; Kenchington, E; Koen-Alonso, M; Guijarro, J; Kenchington, TJ; Sacau, M; Beazley, L; Rapp, HT";Mapping benthic ecological diversity and interactions with bottom-contact fishing on the Flemish Cap (northwest Atlantic);ECOLOGICAL INDICATORS;112;NA;10.1016/j.ecolind.2020.106135;2020;community composition;taxonomic/phylogenetic diversity;species;static macroecological model (e.g. species richness as response);random forest, GAMs;0;0;1;0;0;0;0;overexploitation;habitat conservation;management scenario;NA;oceans/coasts;invertebrates;100 km²;1-10 km;europe;NA "Murray, JV; Berman, DM; van Klinken, RD";Predictive modelling to aid the regional-scale management of a vertebrate pest;BIOLOGICAL INVASIONS;16;11;10.1007/s10530-014-0673-6;2014;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);Bayesian network (BN);0;0;1;0;0;1;0;invasive species and disease;disease control;management scenario;1;grasslands/shrublands/savannahs;mammals;100 km²;< 0.1 km;australia;NA "Murray, KA; Retallick, RWR; Puschendorf, R; Skerratt, LF; Rosauer, D; McCallum, HI; Berger, L; Speare, R; VanDerWal, J";Assessing spatial patterns of disease risk to biodiversity: implications for the management of the amphibian pathogen, Batrachochytrium dendrobatidis;JOURNAL OF APPLIED ECOLOGY;48;1;10.1111/j.1365-2664.2010.01890.x;2011;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;invasive species and disease;disease control;current mapping;1;wetlands,freshwaters;microbes;10000000 km²;0.1-1 km;australia;current "Nakashima, Y; Hongo, S; Akomo-Okoue, EF";Landscape-scale estimation of forest ungulate density and biomass using camera traps: Applying the REST model;BIOLOGICAL CONSERVATION;241;NA;10.1016/j.biocon.2019.108381;2020;community composition;community abundance;species;static species distribution models (incl. Abundance and occupancy models);random encounter and staying time model (REST);0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;4;grasslands/shrublands/savannahs,forests,mountains;mammals;1000 km²;< 0.1 km;africa;current "Nielsen, SE; McDermid, G; Stenhouse, GB; Boyce, MS";Dynamic wildlife habitat models: Seasonal foods and mortality risk predict occupancy-abundance and habitat selection in grizzly bears;BIOLOGICAL CONSERVATION;143;7;10.1016/j.biocon.2010.04.007;2010;species traits;phenology;populations;dynamic population model (but not IBM!);resource-based habitat model;1;0;1;0;1;0;1;land/sea use change;habitat conservation;current mapping;1;grasslands/shrublands/savannahs,mountains;mammals;100000 km²;1-10 km;north_america;current "Nixon, K; Silbernagel, J; Price, J; Miller, N; Swaty, R";Habitat availability for multiple avian species under modeled alternative conservation scenarios in the Two Hearted River watershed in Michigan, USA;JOURNAL FOR NATURE CONSERVATION;22;4;10.1016/j.jnc.2014.02.005;2014;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);VDDT/TELSA spatial model suite (landscape succession models), habitat assessment;0;0;1;0;0;0;0;land/sea use change;habitat conservation;management scenario;5;forests;birds;1000 km²;NA;north_america;2010-2110 "O'Brien, D; Manseau, M; Fall, A; Fortin, MJ";Testing the importance of spatial configuration of winter habitat for woodland caribou: An application of graph theory;BIOLOGICAL CONSERVATION;130;1;10.1016/j.biocon.2005.12.014;2006;species populations;species distributions;populations;static connectivity models (incl. Circuit theoy, permeability);minimum planar graph;0;0;1;0;0;0;0;land/sea use change;connectivity;current mapping;1;forests;mammals;10000 km²;0.1-1 km;north_america;current "O'Donnell, KM; Fackler, PL; Johnson, FA; Bonneau, MN; Martin, J; Walls, SC";Category count models for adaptive management of metapopulations: Case study of an imperiled salamander;CONSERVATION SCIENCE AND PRACTICE;2;4;10.1111/csp2.180;2020;species populations;species abundances;populations;dynamic patch occupancy model;Markov decision process;1;0;1;0;1;0;0;land/sea use change;habitat conservation,restoration;cost optimisation;1;wetlands;amphibians;1000 km²;NA;north_america;2040 "O'Neil, ST; Coates, PS; Brussee, BE; Jackson, PJ; Howe, KB; Moser, AM; Foster, LJ; Delehanty, DJ";Broad-scale occurrence of a subsidized avian predator: Reducing impacts of ravens on sage-grouse and other sensitive pr;JOURNAL OF APPLIED ECOLOGY;55;6;10.1111/1365-2664.13249;2018;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;2;grasslands/shrublands/savannahs;birds;1000000 km²;1-10 km;north_america;current "Osipova, L; Okello, MM; Njumbi, SJ; Ngene, S; Western, D; Hayward, MW; Balkenhol, N";Fencing solves human-wildlife conflict locally but shifts problems elsewhere: A case study using functional connectivity modelling of the African elephant;JOURNAL OF APPLIED ECOLOGY;55;6;10.1111/1365-2664.13246;2018;species populations;species distributions;populations;static connectivity models (incl. Circuit theoy, permeability);kernel density, circuit theory, least‚Äêcost path (Linkage Mapper);0;0;1;0;0;0;0;other;species conservation;management scenario;1;farmlands,grasslands/shrublands/savannahs;mammals;10000 km²;NA;africa;current "Overton, JM; Barker, GM; Price, R";Estimating and conserving patterns of invertebrate diversity: a test case of New Zealand land snails;DIVERSITY AND DISTRIBUTIONS;15;5;10.1111/j.1472-4642.2009.00589.x;2009;community composition;taxonomic/phylogenetic diversity;communities;static macroecological model (e.g. species richness as response);GRASP + GDM;0;0;1;0;0;0;0;other;species conservation;current mapping;845;grasslands/shrublands/savannahs,forests;invertebrates;1000000 km²;0.1-1 km;asia;current "Patthey, P; Wirthner, S; Signorell, N; Arlettaz, R";Impact of outdoor winter sports on the abundance of a key indicator species of alpine ecosystems;JOURNAL OF APPLIED ECOLOGY;45;6;10.1111/j.1365-2664.2008.01547.x;2008;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation;current mapping;1;forests,mountains;birds;10000 km²;0.1-1 km;europe;current "Pedarros, E; Coetzee, T; Fritz, H; Guerbois, C";Rallying citizen knowledge to assess wildlife occurrence and habitat suitability in anthropogenic landscapes;BIOLOGICAL CONSERVATION;242;NA;10.1016/j.biocon.2020.108407;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;land/sea use change;habitat conservation;current mapping;1;wetlands,oceans/coasts,grasslands/shrublands/savannahs,forests,mountains;mammals;1000 km²;0.1-1 km;africa;current Penteado, HM;Urban open spaces from a dispersal perspective: lessons from an individual-based model approach to assess the effects of landscape patterns on the viability of wildlife populations;URBAN ECOSYSTEMS;NA;NA;10.1007/s11252-020-01074-3;2020;species populations;species abundances;individuals;dynamic individual-based model;HexSim (spatially-explicit, indivudal-based population viability model);1;0;1;0;1;1;0;land/sea use change;habitat conservation;management scenario;3;urban areas;birds,reptiles,mammals;100 km²;< 0.1 km;north_america;2010-2060 "Perez-Garcia, JM; DeVault, TL; Botella, F; Sanchez-Zapata, JA";Using risk prediction models and species sensitivity maps for large-scale identification of infrastructure-related wildlife protection areas: The case of bird electrocution;BIOLOGICAL CONSERVATION;210;NA;10.1016/j.biocon.2017.04.033;2017;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);GLM (risk map), Species Sensitivity Map (habitat);0;0;1;0;0;0;0;land/sea use change;habitat conservation,species conservation;gap analysis;4;forests,grasslands/shrublands/savannahs,farmlands;birds;100000 km²;1-10 km;europe;current "Perkins, NR; Foster, SD; Hill, NA; Marzloff, MP; Barrett, NS";Temporal and spatial variability in the cover of deep reef species: Implications for monitoring;ECOLOGICAL INDICATORS;77;NA;10.1016/j.ecolind.2017.02.030;2017;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);SDM, linear mixed models;0;0;1;0;0;0;0;climate change;species conservation;cost optimisation;5;oceans/coasts;NA;100 km²;NA;australia;2016-2060 "Perrig, PL; Lambertucci, SA; Cruz, J; Alarcon, PAE; Plaza, PI; Middleton, AD; Blanco, G; Sanchez-Zapata, JA; Donazar, JA; Pauli, JN";Identifying conservation priority areas for the Andean condor in southern South America;BIOLOGICAL CONSERVATION;243;NA;10.1016/j.biocon.2020.108494;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);GLM + Zonation;0;0;1;0;0;1;0;pollution;species conservation;gap analysis;1;mountains;birds;1000000 km²;0.1-1 km;south_america;current "Pesendorfer, MB; Baker, CM; Stringer, M; McDonald-Madden, E; Bode, M; McEachern, AK; Morrison, SA; Sillett, TS";Oak habitat recovery on California's largest islands: Scenarios for the role of corvid seed dispersal;JOURNAL OF APPLIED ECOLOGY;55;3;10.1111/1365-2664.13041;2018;community composition;interaction diversity;species;dynamic ecosystem model (e.g. Madingley);ensemble ecosystem modelling;1;0;1;0;1;1;1;land/sea use change;restoration;management scenario;2;forests;birds,mammals;1000 km²;< 0.1 km;north_america;current "Pettorelli, N; Lobora, AL; Msuha, MJ; Foley, C; Durant, SM";Carnivore biodiversity in Tanzania: revealing the distribution patterns of secretive mammals using camera traps;ANIMAL CONSERVATION;13;2;10.1111/j.1469-1795.2009.00309.x;2010;community composition;taxonomic/phylogenetic diversity;communities;static species distribution models (incl. Abundance and occupancy models);Ecological-niche factor analysis;0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation;current mapping;7;forests,grasslands/shrublands/savannahs,farmlands;mammals;100000 km²;0.1-1 km;africa;current "Pierik, ME; Dell'Acqua, M; Confalonieri, R; Bocchi, S; Gomarasca, S";Designing ecological corridors in a fragmented landscape: A fuzzy approach to circuit connectivity analysis;ECOLOGICAL INDICATORS;67;NA;10.1016/j.ecolind.2016.03.032;2016;species traits;movement;communities;static connectivity models (incl. Circuit theoy, permeability);graph theory + fuzzy logic;0;0;1;0;0;0;0;land/sea use change;connectivity;current mapping;NA;wetlands;amphibians,reptiles,mammals,invertebrates;10000 km²;< 0.1 km;europe;current "Pikesley, SK; Agamboue, PD; Bayet, JP; Bibang, JN; Bonguno, EA; Boussamba, F; Broderick, AC; Coyne, MS; Du Plessis, P; Faure, FE; Fay, JM; Formia, A; Godley, BJ; Kema, JRK; Mabert, BDK; Manfoumbi, JC; Asseko, GM; Metcalfe, K; Minton, G; Nelms, S; Ngouessono, S; Nzegoue, J; Ogandanga, C; Oliwina, CKK; Otsagha, F; Parnell, RJ; Gnandji, MS; Sounguet, GP; Wada, M; White, L; Witt, MJ";A novel approach to estimate the distribution, density and at-sea risks of a centrally-placed mobile marine vertebrate;BIOLOGICAL CONSERVATION;221;NA;10.1016/j.biocon.2018.03.011;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;overexploitation;habitat conservation;current mapping;1;oceans/coasts;reptiles;100000 km²;10-100 km;africa;current "Pimenta, NC; Goncalves, ALS; Shepard, GH; Macedo, VW; Barnett, APA";The return of giant otter to the Baniwa Landscape: A multi-scale approach to species recovery in the middle Icana River, Northwest Amazonia, Brazil;BIOLOGICAL CONSERVATION;224;NA;10.1016/j.biocon.2018.06.015;2018;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;overexploitation;habitat conservation;current mapping;1;wetlands;mammals;1000 km²;NA;south_america;current "Piquet, JC; Baumgartner, ES; Medina, FM; Diaz-Luis, N; Sevilla, J; Lopez, H; Nogales, M; Lopez-Darias, M";A resource-efficient procedure to improve planning of invasive cat management on inhabited islets;BIOLOGICAL INVASIONS;21;5;10.1007/s10530-019-01941-x;2019;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);regression model, zero-altered generalized linear models;0;0;1;0;0;0;0;invasive species and disease;habitat conservation,species conservation;current mapping;1;islands;mammals;10 km²;1-10 km;europe;current "Pirotta, E; Thompson, PM; Cheney, B; Donovan, CR; Lusseau, D";Estimating spatial, temporal and individual variability in dolphin cumulative exposure to boat traffic using spatially explicit capture-recapture methods;ANIMAL CONSERVATION;18;1;10.1111/acv.12132;2015;species populations;species distributions;individuals;static species distribution models (incl. Abundance and occupancy models);spatially explicit capture‚Äìrecapture models;0;0;1;0;0;0;0;pollution;species conservation;current mapping;1;oceans/coasts;mammals;1000 km²;1-10 km;europe;current "Poessel, SA; Hagar, JC; Haggerty, PK; Katzner, TE";Removal of cattle grazing correlates with increases in vegetation productivity and in abundance of imperiled breeding birds;BIOLOGICAL CONSERVATION;241;NA;10.1016/j.biocon.2019.108378;2020;community composition;community abundance;populations;static macroecological model (e.g. species richness as response);regression models;0;0;1;0;0;0;0;land/sea use change;spatial prioritization,species conservation,habitat conservation;current mapping;20;wetlands;birds;100 km²;< 0.1 km;north_america;current "Poessel, SA; Uher-Koch, BD; Pearce, JM; Schmutz, JA; Harrison, AL; Douglas, DC; von Biela, VR; Katzner, TE";Movements and habitat use of loons for assessment of conservation buffer zones in the Arctic Coastal Plain of northern Alaska;GLOBAL ECOLOGY AND CONSERVATION;22;NA;10.1016/j.gecco.2020.e00980;2020;species populations;species distributions;individuals;static species distribution models (incl. Abundance and occupancy models);Kernel density;0;0;1;0;0;0;0;overexploitation;species conservation;management scenario;3;wetlands;birds;100 km²;0.1-1 km;north_america;current "Polak, T; Rhodes, JR; Jones, D; Possingham, HP";Optimal planning for mitigating the impacts of roads on wildlife;JOURNAL OF APPLIED ECOLOGY;51;3;10.1111/1365-2664.12243;2014;species traits;movement;individuals;dynamic patch occupancy model;stochastic discrete‚Äêtime metapopulation model;1;0;1;0;1;1;0;land/sea use change;species conservation,connectivity;cost optimisation;1;grasslands/shrublands/savannahs,forests;mammals;10 km²;NA;australia;NA "Polasky, S; Nelson, E; Camm, J; Csuti, B; Fackler, P; Lonsdorf, E; Montgomery, C; White, D; Arthur, J; Garber-Yonts, B; Haight, R; Kagan, J; Starfield, A; Tobalske, C";Where to put things? Spatial land management to sustain biodiversity and economic returns;BIOLOGICAL CONSERVATION;141;6;10.1016/j.biocon.2008.03.022;2008;species populations;species distributions;species;integrated assessment model;optimization model;1;0;1;0;1;1;0;land/sea use change;species conservation;current mapping;267;forests,farmlands,grasslands/shrublands/savannahs;mammals,reptiles,amphibians,birds;100 km²;NA;north_america;NA "Puyravaud, JP; Cushman, SA; Davidar, P; Madappa, D";Predicting landscape connectivity for the Asian elephant in its largest remaining subpopulation;ANIMAL CONSERVATION;20;3;10.1111/acv.12314;2017;species traits;movement;individuals;static connectivity models (incl. Circuit theoy, permeability);movement resistance model;0;0;0;0;0;1;0;land/sea use change,overexploitation;species conservation;gap analysis;1;forests;mammals;1000 km²;< 0.1 km;asia;current "Rainho, A; Palmeirim, JM";Prioritizing conservation areas around multispecies bat colonies using spatial modeling;ANIMAL CONSERVATION;16;4;10.1111/acv.12013;2013;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);logistic regressions;0;0;1;0;0;0;0;land/sea use change;spatial prioritization,species conservation;gap analysis;3;forests,grasslands/shrublands/savannahs;mammals;10 km²;NA;europe;current "Ramp, D; Caldwell, J; Edwards, KA; Warton, D; Croft, DB";Modelling of wildlife fatality hotspots along the snowy mountain highway in New South Wales, Australia;BIOLOGICAL CONSERVATION;126;4;10.1016/j.biocon.2005.07.001;2005;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);regression (GLM);0;0;1;0;0;0;0;other;connectivity;current mapping;NA;grasslands/shrublands/savannahs,forests;mammals,birds;100 km²;< 0.1 km;australia;current "Rayan, DM; Linkie, M";Conserving tigers in Malaysia: A science-driven approach for eliciting conservation policy change;BIOLOGICAL CONSERVATION;184;NA;10.1016/j.biocon.2014.12.024;2015;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);patially explicit capture recapture;0;0;1;0;0;0;0;land/sea use change;connectivity;management scenario;1;forests;mammals;10000 km²;1-10 km;asia;current "Razgour, O; Hanmer, J; Jones, G";Using multi-scale modelling to predict habitat suitability for species of conservation concern: The grey long-eared bat as a case study;BIOLOGICAL CONSERVATION;144;12;10.1016/j.biocon.2011.08.010;2011;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);MaxEnt;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;farmlands,forests;mammals;1000000 km²;1-10 km;europe;current "Recio, MR; Singer, A; Wabakken, P; Sand, H";Agent-based models predict patterns and identify constraints of large carnivore recolonizations, a case study of wolves in Scandinavia;BIOLOGICAL CONSERVATION;251;NA;10.1016/j.biocon.2020.108752;2020;species populations;species distributions;individuals;dynamic individual-based model;Agent-based model;1;0;1;0;1;1;0;overexploitation;reintroduction;management scenario;1;farmlands,forests,grasslands/shrublands/savannahs,wetlands;mammals;100000 km²;10-100 km;europe;2020-2030 "Recio, MR; Zimmermann, B; Wikenros, C; Zetterberg, A; Wabakken, P; Sand, H";Integrated spatially-explicit models predict pervasive risks to recolonizing wolves in Scandinavia from human-driven mortality;BIOLOGICAL CONSERVATION;226;NA;10.1016/j.biocon.2018.07.025;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model (MaxEnt);0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation;gap analysis;1;forests,grasslands/shrublands/savannahs;mammals;1000 km²;NA;europe;current "Reisinger, RR; Raymond, B; Hindell, MA; Bester, MN; Crawford, RJM; Davies, D; de Bruyn, PJN; Dilley, BJ; Kirkman, SP; Makhado, AB; Ryan, PG; Schoombie, S; Stevens, K; Sumner, MD; Tosh, CA; Wege, M; Whitehead, TO; Wotherspoon, S; Pistorius, PA";Habitat modelling of tracking data from multiple marine predators identifies important areas in the Southern Indian Ocean;DIVERSITY AND DISTRIBUTIONS;24;4;10.1111/ddi.12702;2018;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);BRT, Random forest;0;0;1;0;0;0;0;other;habitat conservation;current mapping;14;oceans/coasts;birds,mammals;10000000 km²;NA;NA;current "Rhodes, JR; Wiegand, T; McAlpine, CA; Callaghan, J; Lunney, D; Bowen, M; Possingham, HP";Modeling species' distributions to improve conservation in semiurban landscapes: Koala case study;CONSERVATION BIOLOGY;20;2;10.1111/j.1523-1739.2006.00330.x;2006;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;climate change;species conservation;current mapping;1;forests,urban areas;mammals;10000 km²;< 0.1 km;australia;current "Rich, LN; Furnas, BJ; Newton, DS; Brashares, JS";Acoustic and camera surveys inform models of current and future vertebrate distributions in a changing desert ecosystem;DIVERSITY AND DISTRIBUTIONS;25;9;10.1111/ddi.12952;2019;community composition;community abundance;communities;static species distribution models (incl. Abundance and occupancy models);NA;0;0;1;0;0;0;0;land/sea use change,climate change;habitat conservation;management scenario;83;grasslands/shrublands/savannahs;mammals,birds;100000 km²;1-10 km;north_america;2016-2069 "Rodriguez-Soto, C; Monroy-Vilchis, O; Zarco-Gonzalez, MM";Corridors for jaguar (Panthera onca) in Mexico: Conservation strategies;JOURNAL FOR NATURE CONSERVATION;21;6;10.1016/j.jnc.2013.07.002;2013;species traits;movement;populations;static connectivity models (incl. Circuit theoy, permeability);least-cost paths, suitability model;0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation,connectivity;cost optimisation;1;forests;mammals;100 km²;NA;north_america;NA "Romero-Munoz, A; Benitez-Lopez, A; Zurell, D; Baumann, M; Camino, M; Decarre, J; del Castillo, H; Giordano, AJ; Gomez-Valencia, B; Levers, C; Noss, AJ; Quiroga, V; Thompson, JJ; Torres, R; Velilla, M; Weiler, A; Kuemmerle, T";Increasing synergistic effects of habitat destruction and hunting on mammals over three decades in the Gran Chaco;ECOGRAPHY;43;7;10.1111/ecog.05053;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);suitability habitat models (Maxent);0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation,species conservation;current mapping;56;forests,grasslands/shrublands/savannahs;mammals;1000 km²;1-10 km;south_america;current "Ronka, M; Tolvanen, H; Lehikoinen, E; von Numers, M; Rautkari, M";Breeding habitat preferences of 15 bird species on south-western Finnish archipelago coast: Applicability of digital spatial data archives to habitat assessment;BIOLOGICAL CONSERVATION;141;2;10.1016/j.biocon.2007.10.010;2008;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);correlative SDM (GLM);0;0;1;0;0;0;0;land/sea use change;spatial prioritization;current mapping;15;oceans/coasts;birds;1000 km²;< 0.1 km;europe;current "Russo, LF; Barrientos, R; Fabrizio, M; Di Febbraro, M; Loy, A";Prioritizing road-kill mitigation areas: A spatially explicit national-scale model for an elusive carnivore;DIVERSITY AND DISTRIBUTIONS;26;9;10.1111/ddi.13064;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);BIOMOD2, GLM;0;0;1;0;0;0;0;land/sea use change;habitat conservation,connectivity;cost optimisation;1;forests,grasslands/shrublands/savannahs;mammals;1000000 km²;10-100 km;europe;current "Santos, EAP; Silva, ACCD; Sforza, R; Oliveira, FLC; Weber, MI; Castilhos, JC; Lopez-Mendilaharsu, M; Marcovaldi, MAAG; Ramos, RMA; DiMatteo, A";Olive ridley inter-nesting and post-nesting movements along the Brazilian coast and Atlantic Ocean;ENDANGERED SPECIES RESEARCH;40;NA;10.3354/esr00985;2019;species traits;movement;individuals;dynamic individual-based model;state-space model;1;0;1;0;0;1;0;overexploitation;connectivity;current mapping;1;oceans/coasts;reptiles;10000000 km²;NA;south_america;current "Schivo, F; Kandus, P; Bolkovic, ML; Minotti, PG; Trilla, GG; Quintana, RD";A habitat suitability model for capybara (Hydrochoerus hydrochaeris) at its core area in Argentina;TROPICAL CONSERVATION SCIENCE;8;1;10.1177/194008291500800113;2015;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model, rule-based;0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation;current mapping;1;wetlands;mammals;100000 km²;1-10 km;south_america;current "Schroder, B; Rudner, M; Biedermann, R; Kogl, H; Kleyer, M";A landscape model for quantifying the trade-off between conservation needs and economic constraints in the management of a semi-natural grassland community;BIOLOGICAL CONSERVATION;141;3;10.1016/j.biocon.2007.12.017;2008;ecosystem structure;ecosystem disturbances;species;integrated assessment model;Integrated Grid-based landscape model;1;0;1;0;1;0;0;land/sea use change;habitat conservation;management scenario;54;grasslands/shrublands/savannahs,farmlands;plants;100 km²;< 0.1 km;europe;current "Sergio, F; Pedrini, P";Biodiversity gradients in the Alps: the overriding importance of elevation;BIODIVERSITY AND CONSERVATION;16;12;10.1007/s10531-006-9113-y;2007;species populations;species distributions;populations;static macroecological model (e.g. species richness as response);generalised linear model procedure (GLM);0;0;1;0;0;0;0;land/sea use change;spatial prioritization;gap analysis;189;mountains,forests;amphibians,reptiles,birds;1000 km²;10-100 km;north_america;NA "Shaffer, CA; Yukuma, C; Marawanaru, E; Suse, P";Assessing the sustainability of Waiwai subsistence hunting in Guyana by comparison of static indices and spatially explicit, biodemographic models;ANIMAL CONSERVATION;21;2;10.1111/acv.12366;2018;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);spatially explicit biodemographic model;0;0;1;0;1;0;0;overexploitation;hunting control;management scenario;3;forests;mammals,birds;1000 km²;1-10 km;south_america;2035 "Shen, XL; Li, S; McShea, WJ; Wang, DJ; Yu, JP; Shi, XG; Dong, W; Mi, XC; Ma, KP";Effectiveness of management zoning designed for flagship species in protecting sympatric species;CONSERVATION BIOLOGY;34;1;10.1111/cobi.13345;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);occupancy modeling;0;0;1;0;0;0;0;land/sea use change,overexploitation;spatial prioritization;gap analysis;118;forests,mountains;mammals,birds;10 km²;1-10 km;asia;current "Silva, I; Crane, M; Savini, T";High roadkill rates in the Dong Phayayen-Khao Yai World Heritage Site: conservation implications of a rising threat to wildlife;ANIMAL CONSERVATION;23;4;10.1111/acv.12560;2020;community composition;community abundance;communities;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;1;0;0;other;species conservation;current mapping;NA;forests;reptiles,amphibians,birds,mammals;1000 km²;NA;asia;current "Simon, RN; Fortin, D";Linking habitat use to mortality and population viability to disarm an ecological trap;BIOLOGICAL CONSERVATION;236;NA;10.1016/j.biocon.2019.05.001;2019;species populations;species abundances;populations;dynamic population model (but not IBM!);spatially explicit matrix population model;1;0;0;0;1;0;0;overexploitation;species conservation;management scenario;1;grasslands/shrublands/savannahs,farmlands;mammals;100 km²;< 0.1 km;north_america;2017-2067 "Siren, A; Hamback, P; Machoa, E";Including spatial heterogeneity and animal dispersal when evaluating hunting: a model analysis and an empirical assessment in an Amazonian community;CONSERVATION BIOLOGY;18;5;10.1111/j.1523-1739.2004.00024.x;2004;species populations;species abundances;populations;dynamic population model (but not IBM!);Spatially-explicit hunter-prey interaction model;1;0;0;0;1;1;1;overexploitation;habitat conservation;management scenario;12;forests;mammals;10000 km²;0.1-1 km;south_america;current "Skorka, P; Lenda, M; Moron, D; Martyka, R; Tryjanowski, P; Sutherland, WJ";Biodiversity collision blackspots in Poland: Separation causality from stochasticity in roadkills of butterflies;BIOLOGICAL CONSERVATION;187;NA;10.1016/j.biocon.2015.04.017;2015;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);point process model, regression (GLMM);0;0;1;0;0;0;0;other;connectivity,spatial prioritization;current mapping;36;farmlands;invertebrates;1000 km²;< 0.1 km;europe;current "Snyder, KD; Mneney, PB; Wittemyer, G";IS Predicting the risk of illegal activity and evaluating law enforcement interventions in the western Serengeti;CONSERVATION SCIENCE AND PRACTICE;1;9;10.1111/csp2.81;2019;ecosystem function;ecosystem disturbances;ecosystems;static species distribution models (incl. Abundance and occupancy models);species distribution model (MaxEnt);0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation,spatial prioritization;current mapping;NA;grasslands/shrublands/savannahs;mammals;10 km²;< 0.1 km;africa;current "Soh, YH; Carrasco, LR; Miquelle, DG; Jiang, JS; Yang, J; Stokes, EJ; Tang, JR; Kang, AL; Liu, PQ; Rao, M";Spatial correlates of livestock depredation by Amur tigers in Hunchun, China: Relevance of prey density and implications for protected area management;BIOLOGICAL CONSERVATION;169;NA;10.1016/j.biocon.2013.10.011;2014;community composition;interaction diversity;species;static species distribution models (incl. Abundance and occupancy models);density model (ZINB negative binomial zero inflated);0;0;1;0;0;0;1;land/sea use change,overexploitation;species conservation;current mapping;5;mountains,forests;mammals;10000 km²;1-10 km;asia;current "Soto, CA; Palomares, F";Human-related factors regulate the presence of domestic dogs in protected areas;ORYX;49;2;10.1017/S0030605313000604;2015;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;invasive species and disease;species conservation;current mapping;1;grasslands/shrublands/savannahs;mammals;1000 km²;1-10 km;europe;current "Spanowicz, AG; Teixeira, FZ; Jaeger, JAG";An adaptive plan for prioritizing road sections for fencing to reduce animal mortality;CONSERVATION BIOLOGY;34;5;10.1111/cobi.13502;2020;community composition;community abundance;communities;static species distribution models (incl. Abundance and occupancy models);Ripley's K analysis;0;0;0;0;1;0;0;other;species conservation;management scenario;NA;forests;mammals;1000 km²;NA;north_america,south_america;current "Stahl, AT; Fremier, AK; Cosens, BA";Mapping legal authority for terrestrial conservation corridors along streams;CONSERVATION BIOLOGY;34;4;10.1111/cobi.13484;2020;ecosystem structure;ecosystem distribution;ecosystems;static connectivity models (incl. Circuit theoy, permeability);Least‚ÄêCost Corridors;0;0;1;0;0;0;0;land/sea use change;habitat conservation;management scenario;NA;wetlands,grasslands/shrublands/savannahs;NA;10 km²;< 0.1 km;north_america;NA "Stowe, ES; Wenger, SJ; Freeman, MC; Freeman, BJ";Incorporating spatial synchrony in the status assessment of a threatened species with multivariate analysis;BIOLOGICAL CONSERVATION;248;NA;10.1016/j.biocon.2020.108612;2020;species populations;species abundances;populations;dynamic population model (but not IBM!);Multivariate autoregressive state-space model;1;0;0;0;1;0;0;other;species conservation;current mapping;1;freshwaters;fishes;1000 km²;NA;north_america;1996-2068 "Stralberg, D; Cameron, DR; Reynolds, MD; Hickey, CM; Klausmeyer, K; Busby, SM; Stenzel, LE; Shuford, WD; Page, GW";Identifying habitat conservation priorities and gaps for migratory shorebirds and waterfowl in California;BIODIVERSITY AND CONSERVATION;20;1;10.1007/s10531-010-9943-5;2011;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);Population density allocation algorithm;0;0;1;0;0;0;0;land/sea use change,climate change;habitat conservation;gap analysis;42;farmlands,forests,grasslands/shrublands/savannahs,wetlands,mountains,oceans/coasts;birds;1000000 km²;0.1-1 km;north_america;current "Syartinilia; Tsuyuki, S";GIS-based modeling of Javan Hawk-Eagle distribution using logistic and autologistic regression models;BIOLOGICAL CONSERVATION;141;3;10.1016/j.biocon.2007.12.030;2008;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);logistic regression, autologistic regression;0;0;1;0;0;0;0;land/sea use change,overexploitation;habitat conservation;current mapping;1;forests;birds;1000 km²;< 0.1 km;asia;current "Tedonzong, LRD; Willie, J; Keuko, AMP; Kuenbou, JK; Njotah, G; Tchamba, MN; Tagg, N; Lens, L";Using abundance and habitat variables to identify high conservation value areas for threatened mammals;BIODIVERSITY AND CONSERVATION;27;5;10.1007/s10531-017-1483-9;2018;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);Habitat selection;0;0;1;0;0;0;0;other;species conservation;current mapping;2;forests;mammals;1000 km²;1-10 km;africa;current "Than, KZ; Strine, CT; Sritongchuay, T; Zaw, Z; Hughes, AC";Estimating population status and site occupancy of saltwater crocodiles Crocodylus porosus in the Ayeyarwady delta, Myanmar: Inferences from spatial modeling techniques;GLOBAL ECOLOGY AND CONSERVATION;24;NA;10.1016/j.gecco.2020.e01206;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);occupancy model, N-mixture model;0;0;1;0;0;0;0;overexploitation,land/sea use change;species conservation;current mapping;1;oceans/coasts;reptiles;1000 km²;1-10 km;asia;current "Tian, S; Xu, JL; Wang, Y";Human infrastructure development drives decline in suitable habitat for Reeves's pheasant in the Dabie Mountains in the last 20 years;GLOBAL ECOLOGY AND CONSERVATION;22;NA;10.1016/j.gecco.2020.e00940;2020;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model (MaxEnt);0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;grasslands/shrublands/savannahs,forests;birds;100 km²;< 0.1 km;asia;current "Tilker, A; Abrams, JF; Nguyen, A; Horig, L; Axtner, J; Louvrier, J; Rawson, BM; Nguyen, HAQ; Guegan, F; Nguyen, TV; Le, M; Sollmann, R; Wilting, A";Identifying conservation priorities in a defaunated tropical biodiversity hotspot;DIVERSITY AND DISTRIBUTIONS;26;4;10.1111/ddi.13029;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);Multi-species occupancy model;0;0;1;0;0;0;0;overexploitation;spatial prioritization;current mapping;22;forests;mammals;1000 km²;0.1-1 km;asia;current "Tobler, MW; Hibert, F; Debeir, L; Richard-Hansen, C";Estimates of density and sustainable harvest of the lowland tapir Tapirus terrestris in the Amazon of French Guiana using a Bayesian spatially explicit capture-recapture model;ORYX;48;3;10.1017/S0030605312001652;2014;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);spatially explicit capture‚Äìrecapture models;0;0;1;0;0;0;0;overexploitation;species conservation;management scenario;1;forests;mammals;1000 km²;0.1-1 km;south_america;current "Treves, A; Naughton-Treves, L; Harper, EK; Mladenoff, DJ; Rose, RA; Sickley, TA; Wydeven, AP";Predicting human-carnivore conflict: a spatial model derived from 25 years of data on wolf predation on livestock;CONSERVATION BIOLOGY;18;1;10.1111/j.1523-1739.2004.00189.x;2004;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);discriminant function analysis;0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation;current mapping;1;forests,farmlands,grasslands/shrublands/savannahs;mammals;100 km²;NA;north_america;current "Tyrrell, P; Russell, S; Western, D";Seasonal movements of wildlife and livestock in a heterogenous pastoral landscape: Implications for coexistence and community based conservation;GLOBAL ECOLOGY AND CONSERVATION;12;NA;10.1016/j.gecco.2017.08.006;2017;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);Density Surface Model (GAM);0;0;1;0;0;0;1;land/sea use change;habitat conservation;current mapping;7;farmlands,grasslands/shrublands/savannahs,forests;mammals;1000 km²;0.1-1 km;africa;current "van der Burg, MP; Chartier, N; Drum, R";Implications of Spatially Variable Costs and Habitat Conversion Risk in Landscape-Scale Conservation Planning;JOURNAL OF FISH AND WILDLIFE MANAGEMENT;9;2;10.3996/102016-JFWM-080;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);zero-inflated models. regression models;0;0;1;0;0;0;0;land/sea use change;species conservation,habitat conservation;cost optimisation;1;grasslands/shrublands/savannahs;birds;100 km²;NA;north_america;NA "Vina, A; Tuanmu, MN; Xu, WH; Li, Y; Ouyang, ZY; DeFries, R; Liu, JG";Range-wide analysis of wildlife habitat: Implications for conservation;BIOLOGICAL CONSERVATION;143;9;10.1016/j.biocon.2010.04.046;2010;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;other;species conservation,reintroduction;gap analysis;1;mountains;mammals;100000 km²;0.1-1 km;asia;current "Vu, TT; Tran, DV";Using autonomous recorders and bioacoustics to monitor the globally endangered wildlife in the Annamite mountain landscape: A case study with crested argus in Song Thanh Nature Reserve;JOURNAL FOR NATURE CONSERVATION;56;NA;10.1016/j.jnc.2020.125843;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);occupancy model;0;0;1;0;0;0;0;other;species conservation;gap analysis;1;mountains,forests;birds;1000 km²;0.1-1 km;asia;current "Waggitt, JJ; Evans, PGH; Andrade, J; Banks, AN; Boisseau, O; Bolton, M; Bradbury, G; Brereton, T; Camphuysen, CJ; Durinck, J; Felce, T; Fijn, RC; Garcia-Baron, I; Garthe, S; Geelhoed, SCV; Gilles, A; Goodall, M; Haelters, J; Hamilton, S; Hartny-Mills, L; Hodgins, N; James, K; Jessopp, M; Kavanagh, AS; Leopold, M; Lohrengel, K; Louzao, M; Markones, N; Martinez-Cedeira, J; Cadhla, OO; Perry, SL; Pierce, GJ; Ridoux, V; Robinson, KP; Santos, MB; Saavedra, C; Skov, H; Stienen, EWM; Sveegaard, S; Thompson, P; Vanermen, N; Wall, D; Webb, A; Wilson, J; Wanless, S; Hiddink, JG";Distribution maps of cetacean and seabird populations in the North-East Atlantic;JOURNAL OF APPLIED ECOLOGY;57;2;10.1111/1365-2664.13525;2020;species populations;species distributions;species;static species distribution models (incl. Abundance and occupancy models);hurdle model (species distribution model + abundance model);0;0;1;0;0;0;0;overexploitation,land/sea use change,pollution;species conservation;current mapping;24;oceans/coasts;mammals,birds;10000000 km²;10-100 km;europe;current "Wallace, BP; Heppell, SS; Lewison, RL; Kelez, S; Crowder, LB";Impacts of fisheries bycatch on loggerhead turtles worldwide inferred from reproductive value analyses;JOURNAL OF APPLIED ECOLOGY;45;4;10.1111/j.1365-2664.2008.01507.x;2008;species populations;species abundances;populations;dynamic population model (but not IBM!);matrix model (spatially implicit, for two different populations/areas);1;0;0;0;1;0;0;overexploitation;species conservation;management scenario;1;oceans/coasts;reptiles;10000000 km²;NA;europe;current "Wang, F; Zhao, Q; McShea, WJ; Songer, M; Huang, QY; Zhang, XF; Zhou, LG";Incorporating biotic interactions reveals potential climate tolerance of giant pandas;CONSERVATION LETTERS;11;6;10.1111/conl.12592;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);SDM ensemble (ANN, GLM, BRT, MAXENT, MARS, RF);0;0;1;0;0;0;1;climate change;species conservation;global change scenario;1;forests,mountains;mammals;10000 km²;1-10 km;asia;2100 "Wang, XY; Kittiwattanawong, K; Junchompoo, C; Sakornwimon, W; Chen, M; Wu, FX; Jutapruet, S; Huang, SL";Mapping habitat protection priority over a marine ecoregion under information gaps;DIVERSITY AND DISTRIBUTIONS;NA;NA;10.1111/ddi.13190;2020;community composition;taxonomic/phylogenetic diversity;species;static species distribution models (incl. Abundance and occupancy models);species distribution model;0;0;1;0;0;0;0;overexploitation,land/sea use change;spatial prioritization;cost optimisation;NA;oceans/coasts;mammals,reptiles;1000000 km²;1-10 km;asia;current "Warwick-Evans, V; Atkinson, PW; Walkington, I; Green, JA";Predicting the impacts of wind farms on seabirds: An individual-based model;JOURNAL OF APPLIED ECOLOGY;55;2;10.1111/1365-2664.12996;2018;species populations;species abundances;individuals;dynamic individual-based model;spatially explicit individual-based model;1;0;1;1;1;1;0;land/sea use change;habitat conservation;management scenario;1;oceans/coasts;birds;100000 km²;1-10 km;europe;current "Webb, EL; Choo, YR; Kudavidanage, EP; Amarasinghe, TR; Bandara, UGSI; Wanninay, WACL; Ravindrakumar, P; Nimalrathna, TS; Liang, SH; Chua, MAH";Leopard activity patterns in a small montane protected area highlight the need for integrated, collaborative landscape conservation;GLOBAL ECOLOGY AND CONSERVATION;23;NA;10.1016/j.gecco.2020.e01182;2020;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);spatially-explicit capture-recapture model;0;0;0;0;0;0;0;other;species conservation;gap analysis;1;mountains;mammals;100 km²;0.1-1 km;africa;current "Wemmer, LC; Ozesmi, U; Cuthbert, FJ";A habitat-based population model for the Great Lakes population of the piping plover (Charadrius melodus);BIOLOGICAL CONSERVATION;99;2;10.1016/S0006-3207(00)00173-7;2001;species populations;species abundances;populations;dynamic population model (but not IBM!);stochastic habitat-based population model;1;0;1;0;1;1;0;land/sea use change;species conservation;management scenario;1;freshwaters;birds;100000 km²;NA;north_america;2000-2100 "Wen, CKC; Almany, GR; Williamson, DH; Pratchett, MS; Mannering, TD; Evans, RD; Leis, JM; Srinivasan, M; Jones, GP";Recruitment hotspots boost the effectiveness of no-take marine reserves;BIOLOGICAL CONSERVATION;166;NA;10.1016/j.biocon.2013.06.017;2013;species populations;species abundances;populations;static species distribution models (incl. Abundance and occupancy models);N-mixture models;0;0;1;0;0;0;0;overexploitation;spatial prioritization;management scenario;2;oceans/coasts;fishes;10 km²;NA;australia;current "Willers, N; Berry, O; Roberts, JD";Fine-scale genetic structure and the design of optimal fertility control for an overabundant mammal;CONSERVATION GENETICS;15;5;10.1007/s10592-014-0598-8;2014;genetic composition;intraspecific genetic diversity;populations;static species distribution models (incl. Abundance and occupancy models);Bayesian model-based clustering;0;1;0;0;0;0;0;other;species conservation;current mapping;1;mountains,grasslands/shrublands/savannahs;mammals;1 km²;< 0.1 km;australia;current "Williams, R; Grand, J; Hooker, SK; Buckland, ST; Reeves, RR; Rojas-Bracho, L; Sandilands, D; Kaschner, K";Prioritizing global marine mammal habitats using density maps in place of range maps;ECOGRAPHY;37;3;10.1111/j.1600-0587.2013.00479.x;2014;community composition;taxonomic/phylogenetic diversity;populations;static species distribution models (incl. Abundance and occupancy models);niche envelope models;0;0;1;0;0;0;0;land/sea use change;spatial prioritization;cost optimisation;115;oceans/coasts;mammals;10000000 km²;10-100 km;africa, asia, australia, europe, north_america, south_america;current "Woolf, A; Nielsen, CK; Weber, T; Gibbs-Kieninger, TJ";Statewide modeling of bobcat, Lynx rufus, habitat in Illinois, USA;BIOLOGICAL CONSERVATION;104;2;10.1016/S0006-3207(01)00164-1;2002;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);canonical discriminant function (CDF) /stepwise logistic regression;0;0;1;0;0;0;0;land/sea use change;species conservation;current mapping;1;forests,farmlands,grasslands/shrublands/savannahs;mammals;100 km²;NA;north_america;current "Yeiser, JM; Morgan, JJ; Baxley, DL; Chandler, RB; Martin, JA";Private land conservation has landscape-scale benefits for wildlife in agroecosystems;JOURNAL OF APPLIED ECOLOGY;55;4;10.1111/1365-2664.13136;2018;species populations;species abundances;populations;dynamic patch occupancy model;Open population distance sampling model;1;0;1;0;1;1;0;overexploitation;species conservation;management scenario;1;grasslands/shrublands/savannahs,farmlands;birds;10000 km²;NA;north_america;2015-2035 "Zafra-Calvo, N; Lobo, JM; Prada, C; Nielsen, MR; Burgess, ND";Predictors of elephant poaching in a wildlife crime hotspot: The Ruvuma landscape of southern Tanzania and northern Mozambique;JOURNAL FOR NATURE CONSERVATION;41;NA;10.1016/j.jnc.2017.11.006;2018;species populations;species abundances;species;static species distribution models (incl. Abundance and occupancy models);GLM;0;0;1;0;0;0;0;land/sea use change,overexploitation;spatial prioritization;current mapping;1;grasslands/shrublands/savannahs,forests;mammals;100000 km²;10-100 km;africa;current "Zarrate-Charry, DA; Massey, AL; Gonzalez-Maya, JF; Betts, MG";Multi-criteria spatial identification of carnivore conservation areas under data scarcity and conflict: a jaguar case study in Sierra Nevada de Santa Marta, Colombia;BIODIVERSITY AND CONSERVATION;27;13;10.1007/s10531-018-1605-z;2018;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);species distribution model (MaxEnt);0;0;1;0;0;0;0;land/sea use change,overexploitation;species conservation,spatial prioritization,habitat conservation;gap analysis;1;forests;mammals;100 km²;1-10 km;south_america;current "Zeigler, SL; Thieler, ER; Gutierrez, BT; Plant, NG; Hines, M; Fraser, JD; Catlin, DH; Karpanty, SM";Smartphone Technologies and Bayesian Networks to Assess Shorebird Habitat Selection;WILDLIFE SOCIETY BULLETIN;41;4;10.1002/wsb.820;2017;species populations;species distributions;populations;static species distribution models (incl. Abundance and occupancy models);Bayesian network;0;0;1;0;0;0;0;land/sea use change;spatial prioritization;current mapping;1;oceans/coasts;birds;100 km²;< 0.1 km;north_america;current "Zhang, H; Gorelick, SM";Coupled impacts of sea-level rise and tidal marsh restoration on endangered California clapper rail;BIOLOGICAL CONSERVATION;172;NA;10.1016/j.biocon.2014.02.016;2014;species populations;species abundances;populations;dynamic individual-based model;hybrid model, species distribution model + individual-based model + graph theory;1;0;1;0;1;1;0;climate change,land/sea use change;restoration,connectivity;global change scenario;1;oceans/coasts;birds;10000 km²;NA;north_america;2011-2110