Global Ecology and Biogeography

Number of times cited according to CrossRef: 559

• Jason B. Fellman, Eran Hood, Sonia Nagorski, John Hudson and Sanjay Pyare, Interactive physical and biotic factors control dissolved oxygen in salmon spawning streams in coastal Alaska, Aquatic Sciences, 10.1007/s00027-018-0597-9, 81, 1, (2018).
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• Martijn Versluijs, Joakim Hjältén and Jean-Michel Roberge, Ecological restoration modifies the value of biodiversity indicators in resident boreal forest birds, Ecological Indicators, 10.1016/j.ecolind.2018.10.020, 98, (104-111), (2019).
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• April E. Reside, Kay Critchell, Darren M. Crayn, Miriam Goosem, Stephen Goosem, Conrad J. Hoskin, Travis Sydes, Eric P. Vanderduys and Robert L. Pressey, Beyond the model: expert knowledge improves predictions of species’ fates under climate change, Ecological Applications, 29, 1, (2018).
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• Tomé Neves, Joaquim T. Tapisso, Miguel Porto, Henrique M. Pereira, Maria L. Mathias and Luís Borda‐de‐Água, The role of competition in driving species global distributions: Soricid shrews as a case study, Journal of Biogeography, 46, 1, (134-144), (2018).
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• Mathilde Besson, Eva Delmas, Timothée Poisot and Dominique Gravel, Complex Ecological Networks, Encyclopedia of Ecology, 10.1016/B978-0-12-409548-9.10564-0, (536-545), (2019).
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• Jennifer M. Donelson, Jennifer M. Sunday, Will F. Figueira, Juan Diego Gaitán-Espitia, Alistair J. Hobday, Craig R. Johnson, Jeffrey M. Leis, Scott D. Ling, Dustin Marshall, John M. Pandolfi, Gretta Pecl, Giverny G. Rodgers, David J. Booth and Philip L. Munday, Understanding interactions between plasticity, adaptation and range shifts in response to marine environmental change, Philosophical Transactions of the Royal Society B: Biological Sciences, 10.1098/rstb.2018.0186, 374, 1768, (20180186), (2019).
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• Benno I. Simmons, Alyssa R. Cirtwill, Nick J. Baker, Hannah S. Wauchope, Lynn V. Dicks, Daniel B. Stouffer and William J. Sutherland, Motifs in bipartite ecological networks: uncovering indirect interactions, Oikos, 128, 2, (154-170), (2018).
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• Ofir Levy, Tamar Dayan, Warren P. Porter and Noga Kronfeld‐Schor, Time and ecological resilience: can diurnal animals compensate for climate change by shifting to nocturnal activity?, Ecological Monographs, 89, 1, (2018).
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• Anouschka R. Hof and Andrew M. Allen, An uncertain future for the endemic Galliformes of the Caucasus, Science of The Total Environment, 10.1016/j.scitotenv.2018.09.227, 651, (725-735), (2019).
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• Renato Henriques‐Silva, Alexander Kubisch and Pedro R. Peres‐Neto, Latitudinal‐diversity gradients can be shaped by biotic processes: new insights from an eco‐evolutionary model, Ecography, 42, 2, (259-271), (2018).
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• R. Zamora and A. Mellado, Identifying the abiotic and biotic drivers behind the elevational distribution shift of a parasitic plant, Plant Biology, 21, 2, (307-317), (2018).
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• Moisés A. Aguilera, Nelson Valdivia, Stuart Jenkins, Sergio A. Navarrete and Bernardo Broitman, Asymmetric competitive effects during species range expansion: An experimental assessment of interaction strength between “equivalent” grazer species in their range overlap, Journal of Animal Ecology, 88, 2, (277-289), (2018).
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• David P. Wilkinson, Nick Golding, Gurutzeta Guillera‐Arroita, Reid Tingley and Michael A. McCarthy, A comparison of joint species distribution models for presence–absence data, Methods in Ecology and Evolution, 10, 2, (198-211), (2018).
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• Christopher J. Thawley, Mark Goldy‐Brown, Gail L. McCormick, Sean P. Graham and Tracy Langkilde, Presence of an invasive species reverses latitudinal clines of multiple traits in a native species, Global Change Biology, 25, 2, (620-628), (2018).
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• Christopher R. Stephens, Raúl Sierra‐Alcocer, Constantino González‐Salazar, Juan M. Barrios, Juan Carlos Salazar Carrillo, Everardo Robredo Ezquivelzeta and Enrique Callejo Canal, SPECIES: A platform for the exploration of ecological data, Ecology and Evolution, 9, 4, (1638-1653), (2019).
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• Marion Cordonnier, Arnaud Bellec, Adeline Dumet, Gilles Escarguel and Bernard Kaufmann, Range limits in sympatric cryptic species: a case study in Tetramorium pavement ants (Hymenoptera: Formicidae) across a biogeographical boundary, Insect Conservation and Diversity, 12, 2, (109-120), (2018).
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• Dubravka Milić, Snežana Radenković, Jelena Ačanski and Ante Vujić, The importance of hidden diversity for insect conservation: a case study in hoverflies (the Merodon atratus complex, Syrphidae, Diptera), Journal of Insect Conservation, 10.1007/s10841-018-0111-7, 23, 1, (29-44), (2018).
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• N Battini, N Farías, CB Giachetti, E Schwindt and A Bortolus, Staying ahead of invaders: using species distribution modeling to predict alien species’ potential niche shifts, Marine Ecology Progress Series, 10.3354/meps12878, 612, (127-140), (2019).
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• Anna L. Carter, Michael R. Kearney, Stephen Hartley, Warren P. Porter and Nicola J. Nelson, Geostatistical interpolation can reliably extend coverage of a very high‐resolution model of temperature‐dependent sex determination, Journal of Biogeography, 45, 3, (652-663), (2017).
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• Morgan Jade Raath, Peter Christiaan Roux, Ruan Veldtman and Michelle Greve, Incorporating biotic interactions in the distribution models of African wild silk moths (Gonometa species, Lasiocampidae) using different representations of modelled host tree distributions, Austral Ecology, 43, 3, (316-327), (2017).
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• Brian V. Smithers, Malcolm P. North, Constance I. Millar and Andrew M. Latimer, Leap frog in slow motion: Divergent responses of tree species and life stages to climatic warming in Great Basin subalpine forests, Global Change Biology, 24, 2, (e442-e457), (2017).
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• Paige E. Copenhaver‐Parry and David M. Bell, Species interactions weakly modify climate‐induced tree co‐occurrence patterns, Journal of Vegetation Science, 29, 1, (52-61), (2018).
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• V. Castex, M. Beniston, P. Calanca, D. Fleury and J. Moreau, Pest management under climate change: The importance of understanding tritrophic relations, Science of The Total Environment, 10.1016/j.scitotenv.2017.11.027, 616-617, (397-407), (2018).
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• Stefano Mammola and Boris Leroy, Applying species distribution models to caves and other subterranean habitats, Ecography, 41, 7, (1194-1208), (2017).
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• Adrián Regos, Miguel Clavero, Manuela D'Amen, Antoine Guisan and Lluís Brotons, Wildfire–vegetation dynamics affect predictions of climate change impact on bird communities, Ecography, 41, 6, (982-995), (2017).
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• Eduardo T. Mezquida, Jens‐Christian Svenning, Ron W. Summers and Craig W. Benkman, Higher spring temperatures increase food scarcity and limit the current and future distributions of crossbills, Diversity and Distributions, 24, 4, (473-484), (2017).
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• Zdeňka Lososová, Lubomír Tichý, Jan Divíšek, Natálie Čeplová, Jiří Danihelka, Pavel Dřevojan, Karel Fajmon, Veronika Kalníková, Veronika Kalusová, Pavel Novák, Vladimír Řehořek, Tamás Wirth and Milan Chytrý, Projecting potential future shifts in species composition of European urban plant communities, Diversity and Distributions, 24, 6, (765-775), (2018).
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• P. Joser Atauchi, A. Townsend Peterson and Jeremy Flanagan, Species distribution models for Peruvian plantcutter improve with consideration of biotic interactions, Journal of Avian Biology, 49, 3, (2018).
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• Taylor Woods and Daniel J. McGarvey, Assessing the relative influences of abiotic and biotic factors on American eel Anguilla rostrata distribution using hydrologic, physical habitat, and functional trait data, Ecography, 41, 12, (2067-2079), (2018).
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• Léo Delalandre and Alicia Montesinos-Navarro, Can co-occurrence networks predict plant-plant interactions in a semi-arid gypsum community?, Perspectives in Plant Ecology, Evolution and Systematics, 31, (36), (2018).
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• Allison M. Louthan, Robert M. Pringle, Jacob R. Goheen, Todd M. Palmer, William F. Morris and Daniel F. Doak, Aridity weakens population-level effects of multiple species interactions on Hibiscus meyeri , Proceedings of the National Academy of Sciences, 10.1073/pnas.1708436115, 115, 3, (543-548), (2017).
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• Nica Huber, Harald Bugmann and Valentine Lafond, Global sensitivity analysis of a dynamic vegetation model: Model sensitivity depends on successional time, climate and competitive interactions, Ecological Modelling, 10.1016/j.ecolmodel.2017.12.013, 368, (377-390), (2018).
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• João N. Franco, Fernando Tuya, Iacopo Bertocci, Laura Rodríguez, Brezo Martínez, Isabel Sousa‐Pinto and Francisco Arenas, The ‘golden kelp’ Laminaria ochroleuca under global change: Integrating multiple eco‐physiological responses with species distribution models, Journal of Ecology, 106, 1, (47-58), (2017).
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• Dilva Terzano, Ian Kotzé, Christo Marais, Silvio Cianciullo, Alessio Farcomeni, Paolo Caroli, Luca Malatesta and Fabio Attorre, Environmental and anthropogenic determinants of the spread of alien plant species: insights from South Africa’s quaternary catchments, Plant Ecology, 10.1007/s11258-018-0795-5, 219, 3, (277-297), (2018).
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• David T. Iles, Robert F. Rockwell and David N. Koons, Reproductive success of a keystone herbivore is more variable and responsive to climate in habitats with lower resource diversity, Journal of Animal Ecology, 87, 4, (1182-1191), (2018).
  Wiley Online Library
• Juli G. Pausas and Byron B. Lamont, Ecology and biogeography in 3D: The case of the Australian Proteaceae, Journal of Biogeography, 45, 7, (1469-1477), (2018).
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• Francisco Lloret and Thomas Kitzberger, Historical and event‐based bioclimatic suitability predicts regional forest vulnerability to compound effects of severe drought and bark beetle infestation, Global Change Biology, 24, 5, (1952-1964), (2018).
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• Sam Crickenberger and David S. Wethey, Annual temperature variation as a time machine to understand the effects of long‐term climate change on a poleward range shift, Global Change Biology, 24, 8, (3804-3819), (2018).
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• Kim N. Mouritsen, Mikkel M. Sørensen, Robert Poulin and Brian L. Fredensborg, Coastal ecosystems on a tipping point: Global warming and parasitism combine to alter community structure and function, Global Change Biology, 24, 9, (4340-4356), (2018).
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• Davide Scridel, Mattia Brambilla, Kathy Martin, Aleksi Lehikoinen, Aaron Iemma, Anderle Matteo, Susanne Jähnig, Enrico Caprio, Giuseppe Bogliani, Paolo Pedrini, Antonio Rolando, Raphaël Arlettaz and Dan Chamberlain, A review and meta‐analysis of the effects of climate change on Holarctic mountain and upland bird populations, Ibis, 160, 3, (489-515), (2018).
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• Gabriel Sangüesa‐Barreda, J. Julio Camarero, Samuel Pironon, Antonio Gazol, José Javier Peguero‐Pina and Eustaquio Gil‐Pelegrín, Delineating limits: Confronting predicted climatic suitability to field performance in mistletoe populations, Journal of Ecology, 106, 6, (2218-2229), (2018).
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• Hélida F. Cunha, Érica D. Ferreira, Geiziane Tessarolo and João C. Nabout, Host plant distributions and climate interact to affect the predicted geographic distribution of a Neotropical termite, Biotropica, 50, 4, (625-632), (2018).
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• Rebecca G. Asch and Brad Erisman, Spawning aggregations act as a bottleneck influencing climate change impacts on a critically endangered reef fish, Diversity and Distributions, 24, 12, (1712-1728), (2018).
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• Signe Lett, David A. Wardle, Marie‐Charlotte Nilsson, Laurenz M. Teuber and Ellen Dorrepaal, The role of bryophytes for tree seedling responses to winter climate change: Implications for the stress gradient hypothesis, Journal of Ecology, 106, 3, (1142-1155), (2017).
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• Daniel Paiva Silva, Rebecca M. Dew, Bruno Vilela, Mark I. Stevens and Michael P. Schwarz, No deaths in the desert: predicted responses of an arid‐adapted bee and its two nesting trees suggest resilience in the face of warming climates, Insect Conservation and Diversity, 11, 5, (449-463), (2018).
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• Yanlong Guo, Xin Li, Zefang Zhao and Haiyan Wei, Modeling the distribution of Populus euphratica in the Heihe River Basin, an inland river basin in an arid region of China, Science China Earth Sciences, 10.1007/s11430-017-9241-2, 61, 11, (1669-1684), (2018).
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• Mirko Di Febbraro, Manuela D’Amen, Pasquale Raia, Davide De Rosa, Anna Loy and Antoine Guisan, Using macroecological constraints on spatial biodiversity predictions under climate change: the modelling method matters, Ecological Modelling, 10.1016/j.ecolmodel.2018.10.023, 390, (79-87), (2018).
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• Tanya L. Rogers, Tarik C. Gouhier and David L. Kimbro, Temperature dependency of intraguild predation between native and invasive crabs, Ecology, 99, 4, (885-895), (2018).
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• Jacob Usinowicz and Jonathan M. Levine, Species persistence under climate change: a geographical scale coexistence problem, Ecology Letters, 21, 11, (1589-1603), (2018).
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• David Carrasco, Gaylord A. Desurmont, Diane Laplanche, Magali Proffit, Rieta Gols, Paul G. Becher, Mattias C. Larsson, Ted C. J. Turlings and Peter Anderson, With or without you: Effects of the concurrent range expansion of an herbivore and its natural enemy on native species interactions, Global Change Biology, 24, 2, (631-643), (2017).
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• Pedro Aragón, Luis M. Carrascal and David Palomino, Macro‐spatial structure of biotic interactions in the distribution of a raptor species, Journal of Biogeography, 45, 8, (1859-1871), (2018).
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• Jacob C. Cooper, Niche theory and its relation to morphology and phenotype in geographic space: a case study in woodpeckers (Picidae), Journal of Avian Biology, 49, 10, (2018).
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• Meshack N Dludlu, Samson B M Chimphango, Charles H Stirton and A Muthama Muasya, Distinct edaphic habitats are occupied by discrete legume assemblages with unique indicator species in the Cape Peninsula of South Africa, Journal of Plant Ecology, 10.1093/jpe/rtx027, 11, 4, (632-644), (2017).
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• James P. Herrera, Cortni Borgerson, Lydia Tongasoa, Pascal Andriamahazoarivosoa, B. J. Rodolph Rasolofoniaina, Eli R. Rakotondrafarasata, J. L. Rado Ravoavy Randrianasolo, Steig E. Johnson, Patricia C. Wright and Christopher D. Golden, Estimating the population size of lemurs based on their mutualistic food trees, Journal of Biogeography, 45, 11, (2546-2563), (2018).
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• Adrianna C. Foster, Jacquelyn K. Shuman, Herman H. Shugart and Jose Negron, Modeling the interactive effects of spruce beetle infestation and climate on subalpine vegetation, Ecosphere, 9, 10, (2018).
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• Javier G.P. Gamarra, Terry V. Callaghan, Helena Bylund and Dylan Gwynn-Jones, Larval crowding during an insect outbreak reduces herbivory pressure on preferred shrubs in a warmer environment, Agricultural and Forest Meteorology, 10.1016/j.agrformet.2018.08.016, 263, (180-187), (2018).
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• Facundo X. Palacio and Juan M. Girini, Biotic interactions in species distribution models enhance model performance and shed light on natural history of rare birds: a case study using the straight‐billed reedhaunter Limnoctites rectirostris, Journal of Avian Biology, 49, 11, (2018).
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• Wen J. Wang, Frank R. Thompson, Hong S. He, Jacob S. Fraser, William D. Dijak and Martin A. Spetich, Population dynamics has greater effects than climate change on tree species distribution in a temperate forest region, Journal of Biogeography, 45, 12, (2766-2778), (2018).
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• Juan A. Sarquis, Maximiliano A. Cristaldi, Vanesa Arzamendia, Gisela Bellini and Alejandro R. Giraudo, Species distribution models and empirical test: Comparing predictions with well‐understood geographical distribution of Bothrops alternatus in Argentina, Ecology and Evolution, 8, 21, (10497-10509), (2018).
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• Robert Muscarella, Julie Messier, Richard Condit, Stephen P. Hubbell and Jens‐Christian Svenning, Effects of biotic interactions on tropical tree performance depend on abiotic conditions, Ecology, 99, 12, (2740-2750), (2018).
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• Ana M. Martín González, Juan Francisco Ornelas, Bo Dalsgaard, Ubaldo Márquez-Luna and Carlos Lara, Meta-networks for the study of biogeographical traits in ecological networks: the Mexican hummingbird-plant assemblage, The Science of Nature, 10.1007/s00114-018-1578-5, 105, 9-10, (2018).
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• Nasreen Peer, Gavin M. Rishworth, Nelson A.F. Miranda and Renzo Perissinotto, Biophysical drivers of fiddler crab species distribution at a latitudinal limit, Estuarine, Coastal and Shelf Science, 10.1016/j.ecss.2018.05.001, 208, (131-139), (2018).
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• Pablo Gorostiague, Jesús Sajama and Pablo Ortega-Baes, Will climate change cause spatial mismatch between plants and their pollinators? A test using Andean cactus species, Biological Conservation, 10.1016/j.biocon.2018.07.003, 226, (247-255), (2018).
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• Seunggyu Jeong, Ho Gul Kim, James H. Thorne, Hwasu Lee, Yong-Hyeon Cho, Dong Kun Lee, Chong Hwa Park and Changwan Seo, Evaluating connectivity for two mid-sized mammals across modified riparian corridors with wildlife crossing monitoring and species distribution modeling, Global Ecology and Conservation, 10.1016/j.gecco.2018.e00485, (e00485), (2018).
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• Michael P. Torre, Kisei R. Tanaka and Yong Chen, A spatiotemporal Evaluation of Atlantic Sea Scallop Placopecten magellanicus Habitat in the Gulf of Maine Using a Bioclimate Envelope Model, Marine and Coastal Fisheries, 10, 2, (224-235), (2018).
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• Eric Harvey, Isabelle Gounand, Colette L. Ward and Florian Altermatt, Bridging ecology and conservation: from ecological networks to ecosystem function, Journal of Applied Ecology, 54, 2, (371-379), (2016).
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• Imelda Somodi, Nikolett Lepesi and Zoltán Botta‐Dukát, Prevalence dependence in model goodness measures with special emphasis on true skill statistics, Ecology and Evolution, 7, 3, (863-872), (2017).
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• Kentaro Inoue, Katharina Stoeckl and Juergen Geist, Joint species models reveal the effects of environment on community assemblage of freshwater mussels and fishes in European rivers, Diversity and Distributions, 23, 3, (284-296), (2017).
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• Federica Lacasella, Silvio Marta, Aditya Singh, Kaitlin Stack Whitney, Krista Hamilton, Phil Townsend, Christopher J. Kucharik, Timothy D. Meehan and Claudio Gratton, From pest data to abundance‐based risk maps combining eco‐physiological knowledge, weather, and habitat variability, Ecological Applications, 27, 2, (575-588), (2017).
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• Yoan Fourcade and Erik Öckinger, Host plant density and patch isolation drive occupancy and abundance at a butterfly's northern range margin, Ecology and Evolution, 7, 1, (331-345), (2016).
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• Anastasia Klimova, Joseph I. Hoffman, Jesus N. Gutierrez‐Rivera, Jose Leon de la Luz and Alfredo Ortega‐Rubio, Molecular genetic analysis of two native desert palm genera, Washingtonia and Brahea, from the Baja California Peninsula and Guadalupe Island, Ecology and Evolution, 7, 13, (4919-4935), (2017).
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• Ignacio Morales‐Castilla, T. Jonathan Davies, William D. Pearse, Pedro Peres‐Neto and Nathan Swenson, Combining phylogeny and co‐occurrence to improve single species distribution models, Global Ecology and Biogeography, 26, 6, (740-752), (2017).
  Wiley Online Library
• Robert P. Anderson, When and how should biotic interactions be considered in models of species niches and distributions?, Journal of Biogeography, 44, 1, (8-17), (2016).
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• Hélène Audusseau, Maryline Le Vaillant, Niklas Janz, Sören Nylin, Bengt Karlsson and Reto Schmucki, Species range expansion constrains the ecological niches of resident butterflies, Journal of Biogeography, 44, 1, (28-38), (2016).
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• William Godsoe, Janet Franklin and F. Guillaume Blanchet, Effects of biotic interactions on modeled species' distribution can be masked by environmental gradients, Ecology and Evolution, 7, 2, (654-664), (2016).
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• Matthew H. Webb, Aleks Terauds, Ayesha Tulloch, Phil Bell, Dejan Stojanovic and Robert Heinsohn, The importance of incorporating functional habitats into conservation planning for highly mobile species in dynamic systems, Conservation Biology, 31, 5, (1018-1028), (2017).
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• D. P. Silva, S. V. C. Groom, C. R. B. Silva, M. I. Stevens and M. P. Schwarz, Potential pollination maintenance by an exotic allodapine bee under climate change scenarios in the Indo‐Pacific region, Journal of Applied Entomology, 141, 1-2, (122-132), (2016).
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• Sarah A. MacLean and Steven R. Beissinger, Species’ traits as predictors of range shifts under contemporary climate change: A review and meta‐analysis, Global Change Biology, 23, 10, (4094-4105), (2017).
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• B. Martay, M. J. Brewer, D. A. Elston, J. R. Bell, R. Harrington, T. M. Brereton, K. E. Barlow, M. S. Botham and J. W. Pearce‐Higgins, Impacts of climate change on national biodiversity population trends, Ecography, 40, 10, (1139-1151), (2016).
  Wiley Online Library
• Sally A. Keith and Joseph W. Bull, Animal culture impacts species' capacity to realise climate‐driven range shifts, Ecography, 40, 2, (296-304), (2016).
  Wiley Online Library
• Miguel G. Matias, Cátia Lúcio Pereira, Pedro Miguel Raposeiro, Vítor Gonçalves, Ana Mafalda Cruz, Ana Cristina Costa and Miguel Bastos Araújo, Divergent trophic responses to biogeographic and environmental gradients, Oikos, 126, 1, (101-110), (2016).
  Wiley Online Library
• Phillip P.A. Staniczenko, Prabu Sivasubramaniam, K. Blake Suttle and Richard G. Pearson, Linking macroecology and community ecology: refining predictions of species distributions using biotic interaction networks, Ecology Letters, 20, 6, (693-707), (2017).
  Wiley Online Library
• Cassandra S. James, April E. Reside, Jeremy VanDerWal, Richard G. Pearson, Damien Burrows, Samantha J. Capon, Thomas D. Harwood, Lauren Hodgson and Nathan J. Waltham, Sink or swim? Potential for high faunal turnover in Australian rivers under climate change, Journal of Biogeography, 44, 3, (489-501), (2017).
  Wiley Online Library
• Paul R. Elsen, Morgan W. Tingley, Ramnarayan Kalyanaraman, Krishnamurthy Ramesh and David S. Wilcove, The role of competition, ecotones, and temperature in the elevational distribution of Himalayan birds, Ecology, 98, 2, (337-348), (2017).
  Wiley Online Library
• Manuela D'Amen, Carsten Rahbek, Niklaus E. Zimmermann and Antoine Guisan, Spatial predictions at the community level: from current approaches to future frameworks, Biological Reviews, 92, 1, (169-187), (2015).
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• James S. Clark, Diana Nemergut, Bijan Seyednasrollah, Phillip J. Turner and Stacy Zhang, Generalized joint attribute modeling for biodiversity analysis: median‐zero, multivariate, multifarious data, Ecological Monographs, 87, 1, (34-56), (2017).
  Wiley Online Library
• Rachel C. Putnam and Peter B. Reich, Climate and competition affect growth and survival of transplanted sugar maple seedlings along a 1700‐km gradient, Ecological Monographs, 87, 1, (130-157), (2017).
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• Sabela Lois and David E. Cowley, Conservation of interacting species in network‐constrained environments, Diversity and Distributions, 23, 11, (1235-1245), (2017).
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• Anouschka R. Hof, Genoveva Rodríguez‐Castañeda, Andrew M. Allen, Roland Jansson and Christer Nilsson, Vulnerability of Subarctic and Arctic breeding birds, Ecological Applications, 27, 1, (219-234), (2017).
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• Qiongyu Huang, John R. Sauer and Ralph O. Dubayah, Multidirectional abundance shifts among North American birds and the relative influence of multifaceted climate factors, Global Change Biology, 23, 9, (3610-3622), (2017).
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• Stavros D. Veresoglou, Monika Wulf and Matthias C. Rillig, Facilitation between woody and herbaceous plants that associate with arbuscular mycorrhizal fungi in temperate European forests, Ecology and Evolution, 7, 4, (1181-1189), (2017).
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• Eleanor K. O'Brien, Megan Higgie, Alan Reynolds, Ary A. Hoffmann and Jon R. Bridle, Testing for local adaptation and evolutionary potential along altitudinal gradients in rainforest Drosophila: beyond laboratory estimates, Global Change Biology, 23, 5, (1847-1860), (2017).
  Wiley Online Library
• George J Chirima and Norman Owen‐Smith, Comparison of Kernel Density and Local Convex Hull Methods for Assessing Distribution Ranges of Large Mammalian Herbivores, Transactions in GIS, 21, 2, (359-375), (2016).
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• Abdullahi H. Ali, Adam T. Ford, Jeffrey S. Evans, David P. Mallon, Matthew M. Hayes, Juliet King, Rajan Amin and Jacob R. Goheen, Resource selection and landscape change reveal mechanisms suppressing population recovery for the world's most endangered antelope, Journal of Applied Ecology, 54, 6, (1720-1729), (2017).
  Wiley Online Library
• Brian Leung and Johanna Bradie, Estimating non‐indigenous species establishment and their impact on biodiversity, using the Relative Suitability Richness model, Journal of Applied Ecology, 54, 6, (1978-1988), (2017).
  Wiley Online Library
• Stefano Mammola and Marco Isaia, Rapid poleward distributional shifts in the European cave‐dwelling Meta spiders under the influence of competition dynamics, Journal of Biogeography, 44, 12, (2789-2797), (2017).
  Wiley Online Library
• Kun Song, Yichong Cui, Xijin Zhang, Yingji Pan, Junli Xu, Kaiqin Xu and Liangjun Da, Enhanced effects of biotic interactions on predicting multispecies spatial distribution of submerged macrophytes after eutrophication, Ecology and Evolution, 7, 19, (7719-7728), (2017).
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• Luis Matías, Juan C. Linares, Ángela Sánchez‐Miranda and Alistair S. Jump, Contrasting growth forecasts across the geographical range of Scots pine due to altitudinal and latitudinal differences in climatic sensitivity, Global Change Biology, 23, 10, (4106-4116), (2017).
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• Mark Baah-Acheamfour, Charles P.-A. Bourque, Fan-Rui Meng, D. Edwin Swift and Filippos A. Aravanopoulos, Incorporating interspecific competition into species-distribution mapping by upward scaling of small-scale model projections to the landscape, PLOS ONE, 12, 2, (e0171487), (2017).
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• Bruno B. Kubiak, Eliécer E. Gutiérrez, Daniel Galiano, Renan Maestri and Thales R. O. de Freitas, Can Niche Modeling and Geometric Morphometrics Document Competitive Exclusion in a Pair of Subterranean Rodents (Genus Ctenomys) with Tiny Parapatric Distributions?, Scientific Reports, 10.1038/s41598-017-16243-2, 7, 1, (2017).
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• Tiago Silveira Vasconcelos, Caio Pastana Antonelli and Marcelo Felgueiras Napoli, Mutualism influences species distribution predictions for a bromeliad‐breeding anuran under climate change, Austral Ecology, 42, 7, (869-877), (2017).
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• L. A. Liles, K. K. Cecala, J. R. Ennen and J. M. Davenport, Elevated temperatures alter competitive outcomes and body condition in southern Appalachian salamanders, Animal Conservation, 20, 6, (502-510), (2017).
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