{"acronym":"EDGE","method_name":"Evolutionarily distinct and globally endangered","fit_strict":94.1,"fit_inclusive":35.3,"authors":["Isaac, Nick J.B.","Turvey, Samuel T.","Collen, Ben","Waterman, Carly","Baillie, Jonathan E.M."],"publication_date":"2007-03-14","title":"Mammals on the {EDGE}: Conservation Priorities Based on Threat and Phylogeny","joutnal":"PLoS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0000296"}
{"acronym":"LCEH","method_name":"Phylogenetic diversity, evolutionary distinctiveness","fit_strict":88.2,"fit_inclusive":35.3,"authors":["Veron, S.","Clergeau, P.","Pavoine, S."],"publication_date":"2016-12","title":"Loss and conservation of evolutionary history in the Mediterranean Basin","joutnal":"BMC} Ecology","doi_or_link":"https://doi.org/10.1186/s12898-016-0099-3"}
{"acronym":"Rarest","method_name":"ecoPD","fit_strict":88.2,"fit_inclusive":29.4,"authors":["Cadotte, Marc W.","Jonathan Davies, T."],"publication_date":"2010-04-13","title":"Rarest of the rare: advances in combining evolutionary distinctiveness and scarcity to inform conservation at biogeographical scales: Conservation phylo-biogeography","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/j.1472-4642.2010.00650.x"}
{"acronym":"ExtPlants","method_name":"random forest","fit_strict":88.2,"fit_inclusive":29.4,"authors":["Darrah, Sarah E.","Bland, Lucie M.","Bachman, Steven P.","Clubbe, Colin P.","Trias-Blasi, Anna"],"publication_date":"2017-04","title":"Using coarse-scale species distribution data to predict extinction risk in plants","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/ddi.12532"}
{"acronym":"SGRID","method_name":"Endemism, rarity, richness, and phylogenetic distance","fit_strict":88.2,"fit_inclusive":29.4,"authors":["Sánchez de Dios, Rut","Cabal Ruano, Ciro","Domínguez Lozano, Felipe","Sainz Ollero, Helios","Moreno Saiz, Juan Carlos"],"publication_date":"2017-04","title":"The role of criteria in selecting important areas for conservation in biodiversity-rich territories","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/ddi.12535"}
{"acronym":"DBI","method_name":"Dragonfly Biotic Index","fit_strict":88.2,"fit_inclusive":29.4,"authors":["Simaika, John P.","Samways, Michael J."],"publication_date":"2009-03","title":"Reserve selection using Red Listed taxa in three global biodiversity hotspots: Dragonflies in South Africa","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2008.11.012"}
{"acronym":"UCI","method_name":"Unit Contribution Index","fit_strict":82.4,"fit_inclusive":29.4,"authors":["Aagaard, Kevin","Lyons, James E.","Thogmartin, Wayne E."],"publication_date":"2017-01","title":"Quantifying the relative contribution of an ecological reserve to conservation objectives","joutnal":"Global Ecology and Conservation","doi_or_link":"https://doi.org/10.1016/j.gecco.2017.01.002"}
{"acronym":"I-HEDGE","method_name":"iteratively calculated, version of HEDGE (heightened evolutionary distinctiveness and globally endangered)","fit_strict":82.4,"fit_inclusive":29.4,"authors":["Jensen, Evelyn L.","Mooers, Arne Ø.","Caccone, Adalgisa","Russello, Michael A."],"publication_date":"2016-08-23","title":"I-{HEDGE}: determining the optimum complementary sets of taxa for conservation using evolutionary isolation","joutnal":"PeerJ","doi_or_link":"https://doi.org/10.7717/peerj.2350"}
{"acronym":"ExtPar","method_name":"CHAID","fit_strict":82.4,"fit_inclusive":29.4,"authors":["Jones, Martin J.","Fielding, Alan","Sullivan, Matthew"],"publication_date":"2006-06","title":"Analysing Extinction Risk in Parrots using Decision Trees","joutnal":"Biodiversity and Conservation","doi_or_link":"https://doi.org/10.1007/s10531-005-4316-1"}
{"acronym":"PDBioGeoPrim","method_name":"PD rankings","fit_strict":82.4,"fit_inclusive":29.4,"authors":["McGoogan}, Keriann","Kivell, Tracy","Hutchison, Matthew","Young, Hilary","Blanchard, Sean","Keeth, Margaret","Lehman, Shawn M."],"publication_date":"2007-11","title":"Phylogenetic diversity and the conservation biogeography of African primates","joutnal":"Journal of Biogeography","doi_or_link":"https://doi.org/10.1111/j.1365-2699.2007.01759.x"}
{"acronym":"EDGETraits","method_name":"Evolutionarily distinct and globally endangered","fit_strict":82.4,"fit_inclusive":29.4,"authors":["Redding, David W.","Mooers, Arne O."],"publication_date":"2015-12-02","title":"Ranking Mammal Species for Conservation and the Loss of Both Phylogenetic and Trait Diversity","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0141435"}
{"acronym":"NeighborNet","method_name":"NeighborNet network","fit_strict":82.4,"fit_inclusive":29.4,"authors":["Volkmann, Logan","Martyn, Iain","Moulton, Vincent","Spillner, Andreas","Mooers, Arne O."],"publication_date":"2014-02-28","title":"Prioritizing populations for conservation using phylogenetic networks","joutnal":"PLoS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0088945"}
{"acronym":"SCP","method_name":"systematic conservation planning","fit_strict":82.4,"fit_inclusive":29.4,"authors":["Zhang, Yin-bo","Liu, Ying-li","Fu, Jing-xuan","Phillips, Nathan","Zhang, Ming-gang","Zhang, Feng"],"publication_date":"2016-06","title":"Bridging the “gap† in systematic conservation planning","joutnal":"Journal for Nature Conservation","doi_or_link":"http://dx.doi.org/10.1016/j.jnc.2016.03.003"}
{"acronym":"red","method_name":"IUCN Red Listing Tools","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Cardoso, Pedro"],"publication_date":"2017-10-19","title":"red - an R package to facilitate species red list assessments according to the {IUCN} criteria","joutnal":"Biodiversity Data Journal","doi_or_link":"https://doi.org/10.3897/BDJ.5.e20530"}
{"acronym":"MADIS","method_name":"Richness and diversity","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Carrara, Rodolfo","San Blas, Germán","Agrain, Federico","Roig-Juñent, Sergio"],"publication_date":"2017-01","title":"Towards biodiversity hotspots effective for conserving mammals with small geographic ranges","joutnal":"Acta Oecologica","doi_or_link":"https://doi.org/10.1016/j.actao.2016.11.001"}
{"acronym":"PDCECA","method_name":"Phygenetic diversity, complemetarity, endemism","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Faith, Daniel P.","Reid, C. A. M.","Hunter, James"],"publication_date":"2004-02","title":"Integrating phylogenetic diversity, complementarity, and endemism for conservation assessment","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.2307/3589136"}
{"acronym":"WEGE","method_name":"Weighted Endemism and Globally Endangered","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Farooq, Harith","Azevedo, Josué","Belluardo, Francesco","Nanvonamuquitxo, Cristóvão","Bennett, Dominic","Moat, Justin","Soares, Amadeu","Faurby, Søren","Antonelli, Alexandre"],"publication_date":"2020-08-26","title":"WEGE}: A new metric for ranking locations for biodiversity conservation","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/ddi.13148"}
{"acronym":"BCC","method_name":"biodiversity conservation concern (BCC)","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Fattorini, S."],"publication_date":"2006-02","title":"A new method to identify important conservation areas applied to the butterflies of the Aegean Islands (Greece)","joutnal":"Animal Conservation","doi_or_link":"https://doi.org/10.1111/j.1469-1795.2005.00009.x"}
{"acronym":"EDGEmis","method_name":"Evolutionarily distinct and globally endangered correcting for missing species","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Gumbs, Rikki","Gray, Claudia L.","Wearn, Oliver R.","Owen, Nisha R."],"publication_date":"2018-04-11","title":"Tetrapods on the {EDGE}: Overcoming data limitations to identify phylogenetic conservation priorities","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0194680"}
{"acronym":"downscale","method_name":"Downscaling Species Occupancy","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Marsh, Charles J.","Barwell, Louise J.","Gavish, Yoni","Kunin, William E."],"publication_date":"2018","title":"downscale: An R package for downscaling species occupancy from coarse-grain data to predict occupancy at fine-grain sizes","joutnal":"Journal of Statistical Software","doi_or_link":"https://doi.org/10.18637/jss.v086.c03"}
{"acronym":"CANAPE","method_name":"categorical analysis of neo- and paleoendemism","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Mishler, Brent D.","Knerr, Nunzio","González-Orozco, Carlos E.","Thornhill, Andrew H.","Laffan, Shawn W.","Miller, Joseph T."],"publication_date":"2014-12","title":"Phylogenetic measures of biodiversity and neo- and paleo-endemism in Australian Acacia","joutnal":"Nature Communications","doi_or_link":"https://doi.org/10.1038/ncomms5473"}
{"acronym":"ADEPD","method_name":"prioritization metric","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Nunes, Laura A.","Turvey, Samuel T.","Rosindell, James"],"publication_date":"2015-02-19","title":"The price of conserving avian phylogenetic diversity: a global prioritization approach","joutnal":"Philosophical Transactions of the Royal Society B: Biological Sciences","doi_or_link":"http://dx.doi.org/10.1098/rstb.2014.0004"}
{"acronym":"HEDGE","method_name":"heightened evolutionary distinctiveness and globally endangered","fit_strict":82.4,"fit_inclusive":23.5,"authors":["Steel, Mike","Mimoto, Aki","Mooers, Arne Ø"],"publication_date":"2007-01","title":"Hedging our bets: The expected contribution of species to future phylogenetic diversity","joutnal":"Evolutionary Bioinformatics","doi_or_link":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2684137/"}
{"acronym":"ICUTS","method_name":"Index of Cumulative Threat Status","fit_strict":76.5,"fit_inclusive":29.4,"authors":["Herrando, Sergi","Brotons, Lluís","Guallar, Santi","Quesada, Javier"],"publication_date":"2010-03","title":"Assessing regional variation in conservation value using fine-grained bird atlases","joutnal":"Biodiversity and Conservation","doi_or_link":"https://doi.org/10.1007/s10531-009-9741-0"}
{"acronym":"EVPR","method_name":"Endemic vascular plant richness","fit_strict":76.5,"fit_inclusive":23.5,"authors":["Cañadas, Eva M.","Fenu, Giuseppe","Peñas, Julio","Lorite, Juan","Mattana, Efisio","Bacchetta, Gianluigi"],"publication_date":"2014-02","title":"Hotspots within hotspots: Endemic plant richness, environmental drivers, and implications for conservation","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2013.12.007"}
{"acronym":"Gbm.auto","method_name":"statistica modelling","fit_strict":76.5,"fit_inclusive":23.5,"authors":["Dedman, Simon","Officer, Rick","Clarke, Maurice","Reid, David G.","Brophy, Deirdre"],"publication_date":"2017-12-07","title":"Gbm.auto: A software tool to simplify spatial modelling and Marine Protected Area planning","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0188955"}
{"acronym":"LQGraph","method_name":"Landscape Quality Graph","fit_strict":76.5,"fit_inclusive":23.5,"authors":["Fuller, Trevon","Sarkar, Sahotra"],"publication_date":"2006-05","title":"LQGraph}: A software package for optimizing connectivity in conservation planning","joutnal":"Environmental Modelling \\& Software","doi_or_link":"https://doi.org/10.1016/j.envsoft.2006.01.005"}
{"acronym":"EcoNiche","method_name":"Ecological niche modeling","fit_strict":76.5,"fit_inclusive":23.5,"authors":["Mirzaei, R.","Hemami, M.R.","Esmaili Sari, A.","Rezaei, H.R.","Peterson, A.T."],"publication_date":"2017-04","title":"Using ecological niche modeling to determine avian richness hotspots","joutnal":"Global Journal of Environmental Science and Management","doi_or_link":"https://doi.org/10.22034/gjesm.2017.03.02.002"}
{"acronym":"BRT","method_name":"Boosted Regression Tree","fit_strict":76.5,"fit_inclusive":23.5,"authors":["Ramesh, Vijay","Gopalakrishna, Trisha","Barve, Sahas","Melnick, Don J."],"publication_date":"2017-06","title":"IUCN} greatly underestimates threat levels of endemic birds in the Western Ghats","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/J.BIOCON.2017.03.019"}
{"acronym":"MicrosDiv","method_name":"LM Genetic diversity and IUCN list","fit_strict":76.5,"fit_inclusive":23.5,"authors":["Willoughby, Janna R.","Sundaram, Mekala","Wijayawardena, Bhagya K.","Kimble, Steven J.A.","Ji, Yanzhu","Fernandez, Nadia B.","Antonides, Jennifer D.","Lamb, Maureen C.","Marra, Nicholas J.","{DeWoody}, J. Andrew"],"publication_date":"2015-11","title":"The reduction of genetic diversity in threatened vertebrates and new recommendations regarding {IUCN} conservation rankings","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2015.07.025"}
{"acronym":"GeoCAT","method_name":"GeoCAT","fit_strict":76.5,"fit_inclusive":17.6,"authors":["Bachman, Steven","Moat, Justin","Hill, Andrew","de la Torre, Javier","Scott, Ben"],"publication_date":"2011-11-28","title":"Supporting Red List threat assessments with {GeoCAT}: geospatial conservation assessment tool","joutnal":"ZooKeys","doi_or_link":"https://doi.org/10.3897/zookeys.150.2109"}
{"acronym":"ConR","method_name":"ConR","fit_strict":76.5,"fit_inclusive":17.6,"authors":["Dauby, Gilles","Stévart, Tariq","Droissart, Vincent","Cosiaux, Ariane","Deblauwe, Vincent","Simo-Droissart, Murielle","Sosef, Marc S. M.","Lowry, Porter P.","Schatz, George E.","Gereau, Roy E.","Couvreur, Thomas L. P."],"publication_date":"2017-12","title":"textit{{ConR}} : An R package to assist large-scale multispecies preliminary conservation assessments using distribution data","joutnal":"Ecology and Evolution","doi_or_link":"https://doi.org/10.1002/ece3.3704"}
{"acronym":"PSRGMF","method_name":"Potential species richness, geometric mean of favorabilities","fit_strict":76.5,"fit_inclusive":17.6,"authors":["Estrada, Alba","Barbosa, A Márcia","Real, Raimundo"],"publication_date":"2018-01-09","title":"Changes in potential mammal diversity in national parks and their implications for conservation","joutnal":"Current Zoology","doi_or_link":"https://doi.org/10.1093/cz/zoy001"}
{"acronym":"divCCP","method_name":"integer linear programming","fit_strict":70.6,"fit_inclusive":29.4,"authors":["Chernomor, Olga","Minh, Bui Quang","Forest, Félix","Klaere, Steffen","Ingram, Travis","Henzinger, Monika","von Haeseler, Arndt"],"publication_date":"2015-01","title":"Split diversity in constrained conservation prioritization using integer linear programming","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.12299"}
{"acronym":"R-rank","method_name":"NatureServe","fit_strict":70.6,"fit_inclusive":29.4,"authors":["White, Erin L.","Hunt, Pamela D.","Schlesinger, Matthew D.","Corser, Jeffrey D.","{deMaynadier}, Phillip G."],"publication_date":"2015-09","title":"Prioritizing Odonata for conservation action in the northeastern {USA","joutnal":"Freshwater Science","doi_or_link":"https://doi.org/10.1086/682287"}
{"acronym":"PAI","method_name":"Population Adaptive Index","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Bonin, Aurelie","Nicole, Florence","Pompanon, François","Miaud, Claude","Taberlet, Pierre"],"publication_date":"2007-06","title":"Population Adaptive Index: a new method to help measure intraspecific genetic diversity and prioritize populations for conservation","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/j.1523-1739.2007.00685.x"}
{"acronym":"WildLifeHab","method_name":"remote sensing (OIF)","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Chen, Guobin","Chen, Zhongsheng","Kamruzzaman, M M"],"publication_date":"2019","title":"Monitoring of wildlife suitability habitat changes in nature reserves","joutnal":"Revista Científica","doi_or_link":"none"}
{"acronym":"ConsNet","method_name":"ConsNet","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Ciarleglio, Michael","Wesley Barnes, J.","Sarkar, Sahotra"],"publication_date":"2009-04","title":"ConsNet}: new software for the selection of conservation area networks with spatial and multi-criteria analyses","joutnal":"Ecography","doi_or_link":"https://doi.org/10.1111/j.1600-0587.2008.05721.x"}
{"acronym":"FRAGSTAT","method_name":"spatial pattern analysis","fit_strict":70.6,"fit_inclusive":23.5,"authors":["McGarigal}, K","Marks, {BJ"],"publication_date":"1995","title":"Fragstats. Spatial pattern analysis program for quantifying landscape structure. Online available at https://www.fs.usda.gov/treesearch/pubs/3064","doi_or_link":"none"}
{"acronym":"GSCD","method_name":"MaxEnt","fit_strict":70.6,"fit_inclusive":23.5,"authors":["McPherson}, Tsitsi Y."],"publication_date":"2014-07","title":"Landscape scale species distribution modeling across the Guiana Shield to inform conservation decision making in Guyana","joutnal":"Biodiversity and Conservation","doi_or_link":"https://doi.org/10.1007/s10531-014-0696-4"}
{"acronym":"IIC","method_name":"Integral Index of Connectivity","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Pascual-Hortal, Lucía","Saura, Santiago"],"publication_date":"2006-10","title":"Comparison and development of new graph-based landscape connectivity indices: towards the priorization of habitat patches and corridors for conservation","joutnal":"Landscape Ecology","doi_or_link":"https://doi.org/10.1007/s10980-006-0013-z"}
{"acronym":"CentLandGraph","method_name":"Landscape connectivity","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Pereira, Juliana","Saura, Santiago","Jordán, Ferenc"],"publication_date":"2017-11","title":"Single†node vs. multi†node centrality in landscape graph analysis: key habitat patches and their protection for 20 bird species in {\\textless}span style=\"font-variant:small-caps;\"{\\textgreater}{NE}{\\textless}/span{\\textgreater} Spain","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.12783"}
{"acronym":"spProt","method_name":"responsibility, rarity and vulnerability","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Schatz, Bertrand","Gauthier, Perrine","Debussche, Max","Thompson, John D."],"publication_date":"2014-02","title":"A decision tool for listing species for protection on different geographic scales and administrative levels","joutnal":"Journal for Nature Conservation","doi_or_link":"http://dx.doi.org/10.1016/j.jnc.2013.09.003"}
{"acronym":"BioCPS","method_name":"Conservation Priority Setting","fit_strict":70.6,"fit_inclusive":23.5,"authors":["Shi, Hua","Singh, Ashibindu","Kant, Shashi","Zhu, Zhiliang","Waller, Eric"],"publication_date":"2005-08","title":"Integrating Habitat Status, Human Population Pressure, and Protection Status into Biodiversity Conservation Priority Setting: \\textit{Integrating Social Factors into Priority Setting","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/j.1523-1739.2005.00225.x"}
{"acronym":"PRWR","method_name":"Rarity weight richness","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Albuquerque, Fábio","Beier, Paul"],"publication_date":"2016-11","title":"Predicted rarity-weighted richness, a new tool to prioritize sites for species representation","joutnal":"Ecology and Evolution","doi_or_link":"https://doi.org/10.1002/ece3.2544"}
{"acronym":"iTUPA","method_name":"Topograpfic-Unit Parsimony Analysis","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Hammoud, Muhsen","Santos, Charles Morphy D","Gois, João Paulo"],"publication_date":"2019-11-01","title":"iTUPA}: an online automated application to perform Topographic-Unit Parsimony Analysis","joutnal":"Bioinformatics","doi_or_link":"https://doi.org/10.1093/bioinformatics/btz487"}
{"acronym":"Zonation","method_name":"Zonation","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Lehtomäki, Joona","Moilanen, Atte"],"publication_date":"2013-09","title":"Methods and workflow for spatial conservation prioritization using Zonation","joutnal":"Environmental Modelling \\& Software","doi_or_link":"https://doi.org/10.1016/j.envsoft.2013.05.001"}
{"acronym":"MacKinnon","method_name":"MacKinnon list technique","fit_strict":70.6,"fit_inclusive":17.6,"authors":["MacLeod}, Ross","Herzog, Sebastian K.","Maccormick, Aidan","Ewing, Steven R.","Bryce, Rosalind","Evans, Karl L."],"publication_date":"2011-05","title":"Rapid monitoring of species abundance for biodiversity conservation: Consistency and reliability of the {MacKinnon} lists technique","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2010.12.008"}
{"acronym":"costMPA","method_name":"Marxan","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Mazor, Tessa","Giakoumi, Sylvaine","Kark, Salit","Possingham, Hugh P."],"publication_date":"2014-07","title":"Large-scale conservation planning in a multinational marine environment: cost matters","joutnal":"Ecological Applications","doi_or_link":"https://doi.org/10.1890/13-1249.1"}
{"acronym":"ECOMORPH","method_name":"Ecomorphological originality","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Oikonomou, Anthi","Leprieur, Fabien","Leonardos, Ioannis D."],"publication_date":"2018-07","title":"Ecomorphological diversity of freshwater fishes as a tool for conservation priority setting: a case study from a Balkan hotspot","joutnal":"Environmental Biology of Fishes","doi_or_link":"https://doi.org/10.1007/s10641-018-0759-6"}
{"acronym":"FUSE","method_name":"Functionally Unique Specialized and Endangered species","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Pimiento, C.","Leprieur, F.","Silvestro, D.","Lefcheck, J. S.","Albouy, C.","Rasher, D. B.","Davis, M.","Svenning, J.-C.","Griffin, J. N."],"publication_date":"2020-04","title":"Functional diversity of marine megafauna in the Anthropocene","joutnal":"Science Advances","doi_or_link":"https://doi.org/10.1126/sciadv.aay7650"}
{"acronym":"MWP","method_name":"multi-scale Modified Whittaker plot","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Rüter, Stefan","Matthies, Sarah A.","Zoch, Lotta"],"publication_date":"2017-01","title":"Applicability of Modified Whittaker plots for habitat assessment in urban forests: Examples from Hannover, Germany","joutnal":"Urban Forestry \\& Urban Greening","doi_or_link":"https://doi.org/10.1016/j.ufug.2016.11.008"}
{"acronym":"UpscalingPA","method_name":"UpscalingPA","fit_strict":70.6,"fit_inclusive":17.6,"authors":["Tovo, Anna","Formentin, Marco","Suweis, Samir","Stivanello, Samuele","Azaele, Sandro","Maritan, Amos"],"publication_date":"2019-11","title":"Inferring macro†ecological patterns from local presence/absence data","joutnal":"Oikos","doi_or_link":"https://doi.org/10.1111/oik.06754"}
{"acronym":"OBIS","method_name":"absence estimation","fit_strict":70.6,"fit_inclusive":11.8,"authors":["Coro, Gianpaolo","Magliozzi, Chiara","Vanden Berghe, Edward","Bailly, Nicolas","Ellenbroek, Anton","Pagano, Pasquale"],"publication_date":"2016-03-10","title":"Estimating absence locations of marine species from data of scientific surveys in {OBIS","joutnal":"Ecological Modelling","doi_or_link":"https://doi.org/10.1016/j.ecolmodel.2015.12.008"}
{"acronym":"NRTBiomass","method_name":"remote sensing","fit_strict":70.6,"fit_inclusive":11.8,"authors":["Jansen, Vincent","Kolden, Crystal","Schmalz, Heidi"],"publication_date":"2018-07-04","title":"The development of near real-time biomass and cover estimates for adaptive rangeland management using Landsat 7 and Landsat 8 surface reflectance products","joutnal":"Remote Sensing","doi_or_link":"https://doi.org/10.3390/rs10071057"}
{"acronym":"TreeLiDAR","method_name":"wheith of evidence (WofE)","fit_strict":70.6,"fit_inclusive":11.8,"authors":["Wu, Jianwei","Yao, Wei","Polewski, Przemyslaw"],"publication_date":"2018-09-03","title":"Mapping individual tree species and vitality along urban road corridors with {LiDAR} and imaging sensors: point density versus view perspective","joutnal":"Remote Sensing","doi_or_link":"https://doi.org/10.3390/rs10091403"}
{"acronym":"VECC","method_name":"vulnerability index","fit_strict":64.7,"fit_inclusive":29.4,"authors":["Cabrelli, Abigail L.","Stow, Adam J.","Hughes, Lesley"],"publication_date":"2014-11","title":"A framework for assessing the vulnerability of species to climate change: a case study of the Australian elapid snakes","joutnal":"Biodiversity and Conservation","doi_or_link":"https://doi.org/10.1007/s10531-014-0760-0"}
{"acronym":"IUC-NN","method_name":"IUC-NN","fit_strict":64.7,"fit_inclusive":29.4,"authors":["Zizka, Alexander","Silvestro, Daniele","Vitt, Pati","Knight, Tiffany M."],"publication_date":"2020-08-25","title":"Automated conservation assessment of the orchid family with deep learning","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/cobi.13616"}
{"acronym":"CarnRoads","method_name":"remote sensing","fit_strict":64.7,"fit_inclusive":23.5,"authors":["Ceia-Hasse, Ana","Borda-de-à gua, Luís","Grilo, Clara","Pereira, Henrique M."],"publication_date":"2017-05","title":"Global exposure of carnivores to roads: Exposure of carnivores to roads","joutnal":"Global Ecology and Biogeography","doi_or_link":"https://doi.org/10.1111/geb.12564"}
{"acronym":"SCI","method_name":"Species conservation importance index","fit_strict":64.7,"fit_inclusive":23.5,"authors":["Halmy, Marwa Waseem A.","Salem, Boshra B."],"publication_date":"2015-12","title":"Species conservation importance index ({SCI}) for comparing sites’ conservation value at landscape level","joutnal":"Brazilian Journal of Botany","doi_or_link":"https://doi.org/10.1007/s40415-015-0197-z"}
{"acronym":"SCV","method_name":"Site conservation value","fit_strict":64.7,"fit_inclusive":23.5,"authors":["Halmy, Marwa Waseem A.","Salem, Boshra B."],"publication_date":"2015-12","title":"Species conservation importance index ({SCI}) for comparing sites’ conservation value at landscape level","joutnal":"Brazilian Journal of Botany","doi_or_link":"https://doi.org/10.1007/s40415-015-0197-z"}
{"acronym":"PopBodyMass","method_name":"density-dependent population dynamics models","fit_strict":64.7,"fit_inclusive":23.5,"authors":["Hilbers, Jelle P.","Santini, Luca","Visconti, Piero","Schipper, Aafke M.","Pinto, Cecilia","Rondinini, Carlo","Huijbregts, Mark A.J."],"publication_date":"2017-04","title":"Setting population targets for mammals using body mass as a predictor of population persistence: {MVP} Targets","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/cobi.12846"}
{"acronym":"ConsevNet","method_name":"Landscape corridors","fit_strict":64.7,"fit_inclusive":23.5,"authors":["Hofman, Maarten P.G.","Hayward, Matthew W.","Kelly, Marcella J.","Balkenhol, Niko"],"publication_date":"2018-10","title":"Enhancing conservation network design with graph-theory and a measure of protected area effectiveness: Refining wildlife corridors in Belize, Central America","joutnal":"Landscape and Urban Planning","doi_or_link":"https://doi.org/10.1016/j.landurbplan.2018.05.013"}
{"acronym":"HabSuit","method_name":"Habitat suitability index","fit_strict":64.7,"fit_inclusive":23.5,"authors":["Zhang, Yue","Wang, Zongming","Ren, Chunying","Yu, Hao","Dong, Zhangyu","Lu, Chunyan","Mao, Dehua"],"publication_date":"2017-12-21","title":"Changes in habitat suitability for waterbirds of the Momoge nature reserve of China during the 1990-2014","joutnal":"Journal of Environmental Engineering and Landscape Management","doi_or_link":"https://doi.org/10.3846/16486897.2017.1316982"}
{"acronym":"mesofilter","method_name":"mesofilter","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Crous, Casparus J.","Samways, Michael J.","Pryke, James S."],"publication_date":"2013","title":"Exploring the mesofilter as a novel operational scale in conservation planning","joutnal":"Journal of Applied Ecology","doi_or_link":"https://doi.org/10.1111/1365-2664.12012"}
{"acronym":"DipSCP","method_name":"Simulated anneling algorithm","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Diniz-Filho, José Alexandre Felizola","Melo, Dayane Borges","de Oliveira, Guilherme","Collevatti, Rosane Garcia","Soares, Thannya Nascimento","Nabout, João Carlos","Lima, Jacqueline de Souza","Dobrovolski, Ricardo","Chaves, Lázaro José","Naves, Ronaldo Veloso","Loyola, Rafael Dias","Telles, Mariana Pires de Campos"],"publication_date":"2012-08","title":"Planning for optimal conservation of geographical genetic variability within species","joutnal":"Conservation Genetics","doi_or_link":"https://doi.org/10.1007/s10592-012-0356-8"}
{"acronym":"EDf","method_name":"ED-based functional diversity measure (EDf)","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Faith, Daniel P."],"publication_date":"2015-05","title":"The unimodal relationship between species’ functional traits and habitat gradients provides a family of indices supporting the conservation of functional trait diversity","joutnal":"Plant Ecology","doi_or_link":"https://doi.org/10.1007/s11258-015-0454-z"}
{"acronym":"MapSpDist","method_name":"MAXENT","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Fourcade, Yoan","Engler, Jan O.","Rödder, Dennis","Secondi, Jean"],"publication_date":"2014-05-12","title":"Mapping species distributions with {MAXENT} using a geographically biased sample of presence data: A performance assessment of methods for correcting sampling bias","joutnal":"PLoS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0097122"}
{"acronym":"HSI","method_name":"habitat suitability index","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Gunson, K E","Ireland, D","Schueler, F"],"publication_date":"2012","title":"A tool to prioritize high-risk road mortality locations for wetland-forest herpetofauna in southern Ontario, Canada","joutnal":"North-Western Journal of Zoology","doi_or_link":"https://www.semanticscholar.org/paper/A-tool-to-prioritize-high-risk-road-mortality-for-Gunson-Ireland/a468048a9ee03fb1bf75db471eb71a7944fa5f36"}
{"acronym":"EcoEvoSCP","method_name":"Marxan","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Klein, Carissa","Wilson, Kerrie","Watts, Matthew","Stein, Janet","Berry, Sandra","Carwardine, Josie","Smith, Mark Stafford","Mackey, Brendan","Possingham, Hugh"],"publication_date":"2009-01","title":"Incorporating ecological and evolutionary processes into continental-scale conservation planning","joutnal":"Ecological Applications","doi_or_link":"https://doi.org/10.1890/07-1684.1"}
{"acronym":"INSPAN","method_name":"indicator species analysis","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Koyanagi, Tomoyo","Kusumoto, Yoshinobu","Hiradate, Syuntaro","Morita, Sayaka","Yokogawa, Masashi","Takahashi, Yoshitaka","Sato, Chiyoshi"],"publication_date":"2013-01","title":"New method for extracting plant indicators based on their adaptive responses to management practices: application to semi-natural and artificial grassland data","joutnal":"Applied Vegetation Science","doi_or_link":"http://doi.org/10.1111/j.1654-109X.2012.01204.x"}
{"acronym":"CPPA","method_name":"LUPOlib, Marxan","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Lin, Yu-Pin","Huang, Chun-Wei","Ding, Tzung-Su","Wang, Yung-Chieh","Hsiao, Wei-Te","Crossman, Neville D.","Lengyel, Szabolcs","Lin, Wei-Chih","Schmeller, Dirk S."],"publication_date":"2014-10","title":"Conservation planning to zone protected areas under optimal landscape management for bird conservation","joutnal":"Environmental Modelling \\& Software","doi_or_link":"https://doi.org/10.1016/j.envsoft.2014.06.009"}
{"acronym":"ExtRisk","method_name":"Species trades and extinction risk","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Luiz, Osmar J.","Woods, Rachael M.","Madin, Elizabeth M.P.","Madin, Joshua S."],"publication_date":"2016-09","title":"Predicting {IUCN} Extinction Risk Categories for the World's Data Deficient Groupers (Teleostei: Epinephelidae): Threatened status of data deficient groupers","joutnal":"Conservation Letters","doi_or_link":"https://doi.org/10.1111/conl.12230"}
{"acronym":"StDM","method_name":"stochastic dynamic methodology","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Morinha, Francisco","Bastos, Rita","Carvalho, Diogo","Travassos, Paulo","Santos, Mário","Blanco, Guillermo","Bastos, Estela","Cabral, João A."],"publication_date":"2017-06","title":"A spatially-explicit dynamic modelling framework to assess habitat suitability for endangered species: The case of Red-billed Chough under land use change scenarios in Portugal","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2017.04.013"}
{"acronym":"CAR","method_name":"Comprehensiveness, Adequacy, Representativeness","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Sharafi, Seyedeh Mahdieh","White, Matt","Burgman, Mark"],"publication_date":"2012-07","title":"Implementing comprehensiveness, adequacy and representativeness criteria ({CAR}) to indicate gaps in an existing reserve system: A case study from Victoria, Australia","joutnal":"Ecological Indicators","doi_or_link":"https://doi.org/10.1016/j.ecolind.2011.11.023"}
{"acronym":"LandCon","method_name":"Euclidean distance; least-cost paths (LCP) length and cost; and circuit theory’s resistance distance","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Simpkins, Craig E.","Dennis, Todd E.","Etherington, Thomas R.","Perry, George L.W."],"publication_date":"2018-01","title":"Assessing the performance of common landscape connectivity metrics using a virtual ecologist approach","joutnal":"Ecological Modelling","doi_or_link":"https://doi.org/10.1016/j.ecolmodel.2017.11.001"}
{"acronym":"InVest","method_name":"modified habitat quality module of InVEST","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Terrado, Marta","Sabater, Sergi","Chaplin-Kramer, Becky","Mandle, Lisa","Ziv, Guy","Acuña, Vicenç"],"publication_date":"2016-01","title":"Model development for the assessment of terrestrial and aquatic habitat quality in conservation planning","joutnal":"Science of The Total Environment","doi_or_link":"https://doi.org/10.1016/j.scitotenv.2015.03.064"}
{"acronym":"CBI","method_name":"composite biodiversity indicator, MaxEnt","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Valerio, Francesco","Basile, Marco","Balestrieri, Rosario","Posillico, Mario","Di Donato, Sergio","Altea, Tiziana","Matteucci, Giorgio"],"publication_date":"2016-12","title":"The reliability of a composite biodiversity indicator in predicting bird species richness at different spatial scales","joutnal":"Ecological Indicators","doi_or_link":"https://doi.org/10.1016/j.ecolind.2016.07.043"}
{"acronym":"EEM","method_name":"environmental envelope modelling","fit_strict":64.7,"fit_inclusive":17.6,"authors":["van Zonneveld, Maarten","Castañeda, Nora","Scheldeman, Xavier","van Etten, Jacob","Van Damme, Patrick"],"publication_date":"2014-07","title":"Application of consensus theory to formalize expert evaluations of plant species distribution models","joutnal":"Applied Vegetation Science","doi_or_link":"https://doi.org/10.1111/AVSC.12081"}
{"acronym":"ZCPA","method_name":"Zonation conservation prioritization algorithm","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Veloz, Samuel","Salas, Leonardo","Altman, Bob","Alexander, John","Jongsomjit, Dennis","Elliott, Nathan","Ballard, Grant"],"publication_date":"2015-08","title":"Improving effectiveness of systematic conservation planning with density data","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/cobi.12499"}
{"acronym":"seascapeNet","method_name":"Marxan","fit_strict":64.7,"fit_inclusive":17.6,"authors":["Weeks, Rebecca"],"publication_date":"2017-07-28","title":"Incorporating seascape connectivity in conservation prioritisation","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0182396"}
{"acronym":"RiversCons","method_name":"General track (GT) to identify nodes (areas where two or more GT intersect are superimposed)","fit_strict":64.7,"fit_inclusive":11.8,"authors":["Arzamendia, Vanesa","Giraudo, Alejandro R."],"publication_date":"2012-02","title":"A panbiogeographical model to prioritize areas for conservation along large rivers: Conservation priorities in large rivers","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/j.1472-4642.2011.00829.x"}
{"acronym":"RarBetaDiv","method_name":"singularity index and richness","fit_strict":64.7,"fit_inclusive":11.8,"authors":["Carlos†Júnior, Lélis A.","Spencer, Matthew","Neves, Danilo Mesquita","Moulton, Timothy Peter","Pires, Débora de Oliveira","e Castro, Clovis Barreira","Ventura, Carlos Renato Rezende","Ferreira, Carlos Eduardo Leite","Serejo, Cristiana Silveira","Oigman†Pszczol, Simone","Casares, Fernanda Araújo","Mantelatto, Marcelo Checoli","Creed, Joel Christopher"],"publication_date":"2019-05","title":"Rarity and beta diversity assessment as tools for guiding conservation strategies in marine tropical subtidal communities","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/ddi.12896"}
{"acronym":"PIECES","method_name":"PIECES","fit_strict":64.7,"fit_inclusive":11.8,"authors":["Larkin, Daniel J.","Jacobi, Sarah K.","Hipp, Andrew L.","Kramer, Andrea T."],"publication_date":"2016-06-03","title":"Keeping All the {PIECES}: Phylogenetically Informed Ex Situ Conservation of Endangered Species","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0156973"}
{"acronym":"MarNet","method_name":"siting algorithms","fit_strict":64.7,"fit_inclusive":11.8,"authors":["Leslie, Heather","Ruckelshaus, Mary","Ball, Ian R.","Andelman, Sandy","Possingham, Hugh P."],"publication_date":"2003-02","title":"Using siting algorithms in the design of marine reserve networks","joutnal":"Ecological Applications","doi_or_link":"https://doi.org/10.1890/1051-0761(2003)013[0185:USAITD]2.0.CO;2"}
{"acronym":"GenAnaly","method_name":"conservation genetic analytical methods","fit_strict":64.7,"fit_inclusive":11.8,"authors":["Ottewell, Kym M.","Bickerton, Doug C.","Byrne, Margaret","Lowe, Andrew J."],"publication_date":"2016-02","title":"Bridging the gap: a genetic assessment framework for population-level threatened plant conservation prioritization and decision-making","joutnal":"Diversity and Distributions","doi_or_link":"https://doi.org/10.1111/ddi.12387"}
{"acronym":"Redlistr","method_name":"Redlistr","fit_strict":58.8,"fit_inclusive":29.4,"authors":["Lee, Calvin K. F.","Keith, David A.","Nicholson, Emily","Murray, Nicholas J."],"publication_date":"2019-05","title":"Redlistr: tools for the {IUCN} Red Lists of ecosystems and threatened species in R","joutnal":"Ecography","doi_or_link":"https://doi.org/10.1111/ecog.04143"}
{"acronym":"EBSA identification method","method_name":"Ecologically or Biologically Significant Areas","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Clark, Malcolm R.","Rowden, Ashley A.","Schlacher, Thomas A.","Guinotte, John","Dunstan, Piers K.","Williams, Alan","O'Hara, Timothy D.","Watling, Les","Niklitschek, Edwin","Tsuchida, Shinji"],"publication_date":"2014-04","title":"Identifying Ecologically or Biologically Significant Areas ({EBSA}): A systematic method and its application to seamounts in the South Pacific Ocean","joutnal":"Ocean \\& Coastal Management","doi_or_link":"https://doi.org/10.1016/j.ocecoaman.2014.01.016"}
{"acronym":"prioritize","method_name":"prioritize: Systematic Conservation Prioritization in R","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Hanson, {JO}","Schuster, R","Morrell, N","Strimas-Mackey, M","Watts, {ME}","Arcese, P","Bennett, J","Possingham, {HP"],"publication_date":"2020","title":"prioritizr: Systematic conservation prioritization in R. R package version 5.0.2. Available at https://{CRAN}.R-project.org/package=prioritizr.","doi_or_link":"https://prioritizr.net/"}
{"acronym":"habConnec","method_name":"least-cost model","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Liu, Shiliang","Dong, Yuhong","Cheng, Fangyan","Zhang, Yueqiu","Hou, Xiaoyun","Dong, Shikui","Coxixo, Ana"],"publication_date":"2017-07","title":"Effects of road network on Asian elephant habitat and connectivity between the nature reserves in Xishuangbanna, Southwest China","joutnal":"Journal for Nature Conservation","doi_or_link":"10.1016/J.JNC.2017.05.001"}
{"acronym":"LEFT","method_name":"Local Ecological Footprinting Tool","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Long, Peter R.","Benz, David","Martin, Andrew C.","Holland, Philip W. A.","Macias†Fauria, Marc","Seddon, Alistair W. R.","Hagemann, Randi","Frost, Tone K.","Simpson, Andrew","Power, David J.","Slaymaker, Mark A.","Willis, Kathy J."],"publication_date":"2018-03","title":"textless}span style=\"font-variant:small-caps;\"{\\textgreater}{LEFT}{\\textless}/span{\\textgreater} —A web†based tool for the remote measurement and estimation of ecological value across global landscapes","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.12924"}
{"acronym":"samc","method_name":"samc","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Marx, Andrew J.","Wang, Chao","Sefair, Jorge A.","Acevedo, Miguel A.","Fletcher, Robert J."],"publication_date":"2020-04","title":"samc: an R package for connectivity modeling with spatial absorbing Markov chains","joutnal":"Ecography","doi_or_link":"https://doi.org/10.1111/ecog.04891"}
{"acronym":"Circuitscape","method_name":"circuit‐theoretic connectivity","fit_strict":58.8,"fit_inclusive":23.5,"authors":["McRae}, Brad H.","Dickson, Brett G.","Keitt, Timothy H.","Shah, Viral B."],"publication_date":"2008-10","title":"Using circuit theory to model connectivity in ecology, evolution, and conservation","joutnal":"Ecology","doi_or_link":"https://doi.org/10.1890/07-1861.1"}
{"acronym":"SRBioCons","method_name":"remote sensing","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Pettorelli, Nathalie","Owen, Harry Jon Foord","Duncan, Clare"],"publication_date":"2016-06","title":"How do we want Satellite Remote Sensing to support biodiversity conservation globally?","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.12545"}
{"acronym":"BCVI","method_name":"Local Ecological Cave values","fit_strict":58.8,"fit_inclusive":23.5,"authors":["Tanalgo, Krizler Cejuela","Tabora, John Aries G.","Hughes, Alice Catherine"],"publication_date":"2018-06","title":"Bat cave vulnerability index ({BCVI}): A holistic rapid assessment tool to identify priorities for effective cave conservation in the tropics","joutnal":"Ecological Indicators","doi_or_link":"https://doi.org/10.1016/j.ecolind.2017.11.064"}
{"acronym":"EcoCon","method_name":"probabilistic connection models","fit_strict":58.8,"fit_inclusive":17.6,"authors":["d’Acampora, Bárbara H.A.","Higueras, Ester","Román, Emilia"],"publication_date":"2018-09","title":"Combining different metrics to measure the ecological connectivity of two mangrove landscapes in the Municipality of Florianópolis, Southern Brazil","joutnal":"Ecological Modelling","doi_or_link":"https://doi.org/10.1016/j.ecolmodel.2018.06.005"}
{"acronym":"MigrNet","method_name":"Landscape connectivity","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Dhanjal-Adams, Kiran L.","Klaassen, Marcel","Nicol, Sam","Possingham, Hugh P.","Chadès, Iadine","Fuller, Richard A."],"publication_date":"2017-06","title":"Setting conservation priorities for migratory networks under uncertainty: Conserving Migratory Networks","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/cobi.12842"}
{"acronym":"RPCOM","method_name":"River Protection and Connectivity Optimization Model","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Erős, Tibor","O'Hanley, Jesse R.","Czeglédi, István"],"publication_date":"2018-07","title":"A unified model for optimizing riverscape conservation","joutnal":"Journal of Applied Ecology","doi_or_link":"https://doi.org/10.1111/1365-"}
{"acronym":"CCND","method_name":"Assessment risk","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Hämmerle, Anna Ida","Wessely, Johannes","Baatar, Undrakh-Od","Essl, Franz","Moser, Dietmar","Jiménez-Alfaro, Borja","Jandt, Ute","Agrillo, Emiliano","StanÄ ić, Zvjezdana","Dirnböck, Thomas","Dullinger, Stefan"],"publication_date":"2018-12","title":"A new method for jointly assessing effects of climate change and nitrogen deposition on habitats","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2018.09.014"}
{"acronym":"MCDM","method_name":"Multicriteria decision making","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Liu, Udayangani","Kenney, Siobhan","Breman, Elinor","Cossu, Tiziana Antonella"],"publication_date":"2019-06","title":"A multicriteria decision making approach to prioritise vascular plants for species-based conservation","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2019.03.014"}
{"acronym":"BioMarCons","method_name":"Marxan","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Magris, Rafael A.","Andrello, Marco","Pressey, Robert L.","Mouillot, David","Dalongeville, Alicia","Jacobi, Martin N.","Manel, Stéphanie"],"publication_date":"2018-07","title":"Biologically representative and well-connected marine reserves enhance biodiversity persistence in conservation planning","joutnal":"Conservation Letters","doi_or_link":"https://doi.org/10.1111/conl.12439"}
{"acronym":"ChileTerEco","method_name":"Land use/cover assessment","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Martínez-Tilleria, Karina","Núñez-à vila, Mariela","León, Carolina A.","Pliscoff, Patricio","Squeo, Francisco A.","Armesto, Juan J."],"publication_date":"2017-11","title":"A framework for the classification Chilean terrestrial ecosystems as a tool for achieving global conservation targets","joutnal":"Biodiversity and Conservation","doi_or_link":"https://doi.org/10.1007/s10531-017-1393-x"}
{"acronym":"REMP","method_name":"rapid evaluation of metapopulation persistence","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Taylor, Subhashni","Drielsma, Michael","Taylor, Robert","Kumar, Lalit"],"publication_date":"2016-06","title":"Applications of rapid evaluation of metapopulation persistence ({REMP}) in conservation planning for vulnerable fauna species","joutnal":"Environmental Management","doi_or_link":"https://pubmed.ncbi.nlm.nih.gov/26902481/"}
{"acronym":"FMM","method_name":"finite mixture modeling","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Tracey, Jeff A.","Zhu, Jun","Boydston, Erin","Lyren, Lisa","Fisher, Robert N.","Crooks, Kevin R."],"publication_date":"2013-04","title":"Mapping behavioral landscapes for animal movement: a finite mixture modeling approach","joutnal":"Ecological Applications","doi_or_link":"https://doi.org/10.1890/12-0687.1"}
{"acronym":"ERCPF","method_name":"extinction risk index","fit_strict":58.8,"fit_inclusive":17.6,"authors":["Zhang, Xiong","Gao, Xin","Wang, Jianwei","Cao, Wenxuan"],"publication_date":"2015-01","title":"Extinction risk and conservation priority analyses for 64 endemic fishes in the Upper Yangtze River, China","joutnal":"Environmental Biology of Fishes","doi_or_link":"https://doi.org/10.1007/s10641-014-0257-4"}
{"acronym":"LCALEA","method_name":"landscape character assessment and landscape ecological analysis.","fit_strict":58.8,"fit_inclusive":11.8,"authors":["Kim, Keun-Ho","Pauleit, Stephan"],"publication_date":"2007-01","title":"Landscape character, biodiversity and land use planning: The case of Kwangju City Region, South Korea","joutnal":"Land Use Policy","doi_or_link":"https://doi.org/10.1016/j.landusepol.2005.12.001"}
{"acronym":"FFI","method_name":"Fuzzy Functionality Index","fit_strict":58.8,"fit_inclusive":11.8,"authors":["Pierik, Mario Enrico","Dell’Acqua, Matteo","Confalonieri, Roberto","Bocchi, Stefano","Gomarasca, Stefano"],"publication_date":"2016-08","title":"Designing ecological corridors in a fragmented landscape: A fuzzy approach to circuit connectivity analysis","joutnal":"Ecological Indicators","doi_or_link":"https://doi.org/10.1016/j.ecolind.2016.03.032"}
{"acronym":"ESC","method_name":"ecosystem services coefficient","fit_strict":58.8,"fit_inclusive":11.8,"authors":["Yuan, Mei-Hua","Lo, Shang-Lien","Yang, Chih-Kai"],"publication_date":"2017-05","title":"Integrating ecosystem services in terrestrial conservation planning","joutnal":"Environmental Science and Pollution Research","doi_or_link":"https://doi.org/10.1007/s11356-017-8795-x"}
{"acronym":"SNP","method_name":"single nucleotid polymorphism","fit_strict":58.8,"fit_inclusive":5.9,"authors":["Sinclair-Waters, Marion","Bentzen, Paul","Morris, Corey J.","Ruzzante, Daniel E.","Kent, Matthew P.","Lien, Sigbjørn","Bradbury, Ian R."],"publication_date":"2018-11","title":"Genomic tools for management and conservation of Atlantic cod in a coastal marine protected area","joutnal":"Canadian Journal of Fisheries and Aquatic Sciences","doi_or_link":"none"}
{"acronym":"MARXAN","method_name":"marine reserve design using spatially explicit annealing","fit_strict":52.9,"fit_inclusive":29.4,"authors":["Ball, Ian R.","Possingham, Hugh P.","Watts, Matthew"],"publication_date":"2009","title":"Marxan and Relatives: Software for Spatial Conservation Prioritization","doi_or_link":"https://www.researchgate.net/publication/43525654_Marxan_and_relatives_Software_for_spatial_conservation_prioritization"}
{"acronym":"MPi","method_name":"Mammalian Priority Conservation Index","fit_strict":52.9,"fit_inclusive":29.4,"authors":["Galetti, Mauro","Giacomini, Henrique C.","Bueno, Rafael S.","Bernardo, Christine S.S.","Marques, Renato M.","Bovendorp, Ricardo S.","Steffler, Carla E.","Rubim, Paulo","Gobbo, Sabrina K.","Donatti, Camila I.","Begotti, Rodrigo A.","Meirelles, Fernanda","Nobre, Rodrigo de A.","Chiarello, Adriano G.","Peres, Carlos A."],"publication_date":"2009-06","title":"Priority areas for the conservation of Atlantic forest large mammals","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2009.01.023"}
{"acronym":"ecoImpact","method_name":"Index of ecological Impact","fit_strict":52.9,"fit_inclusive":23.5,"authors":["McGarigal}, Kevin","Compton, Bradley W.","Plunkett, Ethan B.","{DeLuca}, William V.","Grand, Joanna","Ene, Eduard","Jackson, Scott D."],"publication_date":"2018-07","title":"A landscape index of ecological integrity to inform landscape conservation","joutnal":"Landscape Ecology","doi_or_link":"https://doi.org/10.1007/s10980-018-0653-9"}
{"acronym":"PSM","method_name":"Priority Scores Method, Zonation Land Use Filter","fit_strict":52.9,"fit_inclusive":23.5,"authors":["Vincent, Claire","Fernandes, Rui F.","Cardoso, Ana R.","Broennimann, Olivier","Di Cola, Valeria","D'Amen, Manuela","Ursenbacher, Sylvain","Schmidt, Benedikt R.","Pradervand, Jean-Nicolas","Pellissier, Loïc","Guisan, Antoine"],"publication_date":"2019-01","title":"Climate and land-use changes reshuffle politically-weighted priority areas of mountain biodiversity","joutnal":"Global Ecology and Conservation","doi_or_link":"https://doi.org/10.1016/j.gecco.2019.e00589"}
{"acronym":"SWReGAP","method_name":"Gap Analysis Project","fit_strict":52.9,"fit_inclusive":17.6,"authors":["Boykin, Kenneth G.","Kepner, William G.","Bradford, David F.","Guy, Rachel K.","Kopp, Darin A.","Leimer, Allison K.","Samson, Elizabeth A.","East, N. Forrest","Neale, Anne C.","Gergely, Kevin J."],"publication_date":"2013-10","title":"A national approach for mapping and quantifying habitat-based biodiversity metrics across multiple spatial scales","joutnal":"Ecological Indicators","doi_or_link":"http://dx.doi.org/10.1016/j.ecolind.2012.11.005"}
{"acronym":"GOVCC","method_name":"vulnerability index","fit_strict":52.9,"fit_inclusive":17.6,"authors":["Cianfrani, C.","Broennimann, O.","Loy, A.","Guisan, A."],"publication_date":"2018-05","title":"More than range exposure: Global otter vulnerability to climate change","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2018.02.031"}
{"acronym":"MarxCon","method_name":"MARXAN Connect","fit_strict":52.9,"fit_inclusive":17.6,"authors":["Daigle, Rémi M.","Metaxas, Anna","Balbar, Arieanna C.","{McGowan}, Jennifer","Treml, Eric A.","Kuempel, Caitlin D.","Possingham, Hugh P.","Beger, Maria"],"publication_date":"2020-04","title":"Operationalizing ecological connectivity in spatial conservation planning with Marxan Connect","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.13349"}
{"acronym":"EcoFunc","method_name":"Landscape modularity","fit_strict":52.9,"fit_inclusive":17.6,"authors":["Foltête, Jean-Christophe","Vuidel, Gilles"],"publication_date":"2017-02","title":"Using landscape graphs to delineate ecologically functional areas","joutnal":"Landscape Ecology","doi_or_link":"https://doi.org/10.1007/s10980-016-0445-z"}
{"acronym":"CORSET","method_name":"Coral Reef Scenario Evaluation Tool","fit_strict":52.9,"fit_inclusive":17.6,"authors":["Melbourne-Thomas, Jessica","Johnson, Craig R.","Fung, Tak","Seymour, Robert M.","Chérubin, Laurent M.","Arias-González, J. Ernesto","Fulton, Elizabeth A."],"publication_date":"2011-06","title":"Regional-scale scenario modeling for coral reefs: a decision support tool to inform management of a complex system","joutnal":"Ecological Applications","doi_or_link":"https://doi.org/10.1890/09-1564.1"}
{"acronym":"SCPinCC","method_name":"systematic conservation planning","fit_strict":52.9,"fit_inclusive":17.6,"authors":["Schlottfeldt, Shana","Timmis, Jon","Walter, Maria Emilia","Carvalho, André","Simon, Lorena","Loyola, Rafael","Diniz-Filho, José Alexandre"],"publication_date":"2015","title":"A multi-objective optimization approach associated to climate change analysis to improve systematic conservation planning","doi_or_link":"https://doi.org/10.1007/978-3-319-15892-131"}
{"acronym":"LSCORRIDORS","method_name":"LandScape Corridors","fit_strict":52.9,"fit_inclusive":11.8,"authors":["Ribeiro, John Wesley","Silveira dos Santos, Juliana","Dodonov, Pavel","Martello, Felipe","Brandão Niebuhr, Bernardo","Ribeiro, Milton Cezar"],"publication_date":"2017-11","title":"LandScape} Corridors ( {\\textless}span style=\"font-variant:small-caps;\"{\\textgreater}lscorridors{\\textless}/span{\\textgreater} ): a new software package for modelling ecological corridors based on landscape patterns and species requirements","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.12750"}
{"acronym":"GMT","method_name":"Gravity Model Toolbox","fit_strict":52.9,"fit_inclusive":11.8,"authors":["Wanghe, Kunyuan","Guo, Xile","Wang, Meng","Zhuang, Hongfei","Ahmad, Shahid","Khan, Tauheed Ullah","Xiao, Yanqing","Luan, Xiaofeng","Li, Kai"],"publication_date":"2020-06","title":"Gravity model toolbox: An automated and open-source {ArcGIS} tool to build and prioritize ecological corridors in urban landscapes","joutnal":"Global Ecology and Conservation","doi_or_link":"https://doi.org/10.1016/j.gecco.2020.e01012"}
{"acronym":"SACS","method_name":"structured analysis of conservation strategies","fit_strict":47.1,"fit_inclusive":29.4,"authors":["Moilanen, Atte","Laitila, Jussi","Vaahtoranta, Timo","Dicks, Lynn V.","Sutherland, William J."],"publication_date":"2014-02","title":"Structured analysis of conservation strategies applied to temporary conservation","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2014.01.001"}
{"acronym":"ConNect","method_name":"Landscape connectivity","fit_strict":47.1,"fit_inclusive":23.5,"authors":["Albert, Cécile H.","Rayfield, Bronwyn","Dumitru, Maria","Gonzalez, Andrew"],"publication_date":"2017-12","title":"Applying network theory to prioritize multispecies habitat networks that are robust to climate and land-use change: Prioritizing a network for biodiversity","joutnal":"Conservation Biology","doi_or_link":"https://doi.org/10.1111/cobi.12943"}
{"acronym":"CrazENM","method_name":"Ecological niche modeling","fit_strict":47.1,"fit_inclusive":23.5,"authors":["Bonfim, Fernando C.G.","Cordeiro, Paulo H.C.","Peres, Carlos A.","Canale, Gustavo R.","Bernardo, Christine S.S."],"publication_date":"2019-01","title":"Combining modeling tools to identify conservation priority areas: A case study of the last large-bodied avian frugivore in the Atlantic Forest","joutnal":"Global Ecology and Conservation","doi_or_link":"https://doi.org/10.1016/j.gecco.2018.e00426"}
{"acronym":"RangeShifter","method_name":"RangeShifter","fit_strict":47.1,"fit_inclusive":17.6,"authors":["Bocedi, Greta","Palmer, Stephen C.F.","Pe'er, Guy","Heikkinen, Risto K.","Matsinos, Yiannis G.","Watts, Kevin","Travis, Justin M.J."],"publication_date":"2014-04","title":"RangeShifter}: a platform for modelling spatial eco-evolutionary dynamics and species' responses to environmental changes","joutnal":"Methods in Ecology and Evolution","doi_or_link":"https://doi.org/10.1111/2041-210X.12162"}
{"acronym":"MSSP","method_name":"Marxan","fit_strict":47.1,"fit_inclusive":11.8,"authors":["Lagabrielle, Erwann","Lombard, Amanda T.","Harris, Jean M.","Livingstone, Tamsyn-Claire"],"publication_date":"2018-07-03","title":"Multi-scale multi-level marine spatial planning: A novel methodological approach applied in South Africa","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/JOURNAL.PONE.019258"}
{"acronym":"CAZ","method_name":"Core Area Zonation","fit_strict":47.1,"fit_inclusive":11.8,"authors":["Leathwick, J.R.","Moilanen, A.","Ferrier, S.","Julian, K."],"publication_date":"2010-04","title":"Complementarity-based conservation prioritization using a community classification, and its application to riverine ecosystems","joutnal":"Biological Conservation","doi_or_link":"https://doi.org/10.1016/j.biocon.2010.01.012"}
{"acronym":"CS22","method_name":"Conefor Sensinode","fit_strict":47.1,"fit_inclusive":11.8,"authors":["Saura, Santiago","Torné, Josep"],"publication_date":"2009-01","title":"Conefor Sensinode 2.2: A software package for quantifying the importance of habitat patches for landscape connectivity","joutnal":"Environmental Modelling \\& Software","doi_or_link":"https://doi.org/10.1016/j.envsoft.2008.05.005"}
{"acronym":"LCBC","method_name":"least-cost model","fit_strict":47.1,"fit_inclusive":11.8,"authors":["Yu, Deyong","Liu, Yupeng","Xun, Bin","Shao, Hongbo"],"publication_date":"2015-04","title":"Measuring landscape connectivity in a urban area for biological conservation: measuring landscape connectivity in a urban area","joutnal":"CLEAN} - Soil, Air, Water","doi_or_link":"https://doi.org/10.1002/clen.201200448"}
{"acronym":"HypersalGene","method_name":"osmoregulatory response element (ORE)","fit_strict":47.1,"fit_inclusive":5.9,"authors":["Schlenk, Daniel","Lavado, Ramon"],"publication_date":"2011-10","title":"Impacts of climate change on hypersaline conditions of estuaries and xenobiotic toxicity","joutnal":"Aquatic Toxicology","doi_or_link":"https://doi.org/10.1016/j.aquatox.2011.06.023"}
{"acronym":"ECMR","method_name":"series of criteria to avaluate marine areas","fit_strict":41.2,"fit_inclusive":23.5,"authors":["Roberts, Callum M.","Andelman, Sandy","Branch, George","Bustamante, Rodrigo H.","Carlos Castilla, Juan","Dugan, Jenifer","Halpern, Benjamin S.","Lafferty, Kevin D.","Leslie, Heather","Lubchenco, Jane","{McArdle}, Deborah","Possingham, Hugh P.","Ruckelshaus, Mary","Warner, Robert R."],"publication_date":"2003-02","title":"Ecological criteria for evaluating candidate sites for marine reserves","joutnal":"Ecological Applications","doi_or_link":"https://doi.org/10.1890/1051-0761(2003)013[0199:ECFECS]2.0.CO;2"}
{"acronym":"FloodCons","method_name":"synthetic index of a multifaceted fish assemblage diversity","fit_strict":41.2,"fit_inclusive":11.8,"authors":["Maire, Anthony","Buisson, Laëtitia","Biau, Samuel","Canal, Julie","Laffaille, Pascal"],"publication_date":"2013-11","title":"A multi-faceted framework of diversity for prioritizing the conservation of fish assemblages","joutnal":"Ecological Indicators","doi_or_link":"https://doi.org/10.1016/J.ECOLIND.2013.06.009"}
{"acronym":"APA","method_name":"action prioritization algorithm","fit_strict":41.2,"fit_inclusive":5.9,"authors":["Cattarino, Lorenzo","Hermoso, Virgilio","Carwardine, Josie","Kennard, Mark J.","Linke, Simon"],"publication_date":"2015-05-28","title":"Multi-action planning for threat management: a novel approach for the spatial prioritization of conservation actions","joutnal":"PLOS} {ONE","doi_or_link":"https://doi.org/10.1371/journal.pone.0128027"}
{"acronym":"SIVVA","method_name":"Standardized Index of Vulnerability and Value Assessment","fit_strict":35.3,"fit_inclusive":29.4,"authors":["Reece, Joshua S.","Noss, Reed F."],"publication_date":"2014-01-01","title":"Prioritizing species by conservation value and vulnerability: A new index applied to species threatened by sea-level rise and other risks in Florida","joutnal":"Natural Areas Journal","doi_or_link":"http://dx.doi.org/10.3375/043.034.0105"}