A framework for linking dispersal biology to connectivity across landscapes
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[1] Amanda E. Martin,et al. Comparison and parallel implementation of alternative moving-window metrics of the connectivity of protected areas across large landscapes , 2023, Landscape Ecology.
[2] Varun R. Goswami,et al. Mapping the connectivity–conflict interface to inform conservation , 2022, Proceedings of the National Academy of Sciences of the United States of America.
[3] Joseph D. Holbrook,et al. Landscape connectivity for an endangered carnivore: habitat conservation and road mitigation for ocelots in the US , 2022, Landscape Ecology.
[4] Sarah I. Duncan,et al. Extending isolation by resistance to predict genetic connectivity , 2022, Methods in Ecology and Evolution.
[5] Matthew V. Talluto,et al. Standardised empirical dispersal kernels emphasise the pervasiveness of long-distance dispersal in European birds , 2021, bioRxiv.
[6] W. Peterman,et al. The use and misuse of regression models in landscape genetic analyses , 2020, Molecular ecology.
[7] Megan K. Jennings,et al. Understanding the Importance of Dynamic Landscape Connectivity , 2020, Land.
[8] Chao Wang,et al. samc: an R package for connectivity modeling with spatial absorbing Markov chains , 2020 .
[9] Albert Y. Zomaya,et al. Partial Differential Equations , 1995, Multivariable Calculus with Mathematica.
[10] Samuel A. Cushman,et al. Landscape connectivity modeling from the perspective of animal dispersal , 2019, Landscape Ecology.
[11] Chao Wang,et al. Towards a unified framework for connectivity that disentangles movement and mortality in space and time. , 2019, Ecology letters.
[12] Viral B. Shah,et al. Circuit‐theory applications to connectivity science and conservation , 2018, Conservation biology : the journal of the Society for Conservation Biology.
[13] Denis Valle,et al. Isolating the roles of movement and reproduction on effective connectivity alters conservation priorities for an endangered bird , 2018, Proceedings of the National Academy of Sciences.
[14] D. Macdonald,et al. Prioritizing core areas, corridors and conflict hotspots for lion conservation in southern Africa , 2018, PloS one.
[15] Eric K. Cole,et al. Examining speed versus selection in connectivity models using elk migration as an example , 2018, Landscape Ecology.
[16] Andrew Gonzalez,et al. Applying network theory to prioritize multispecies habitat networks that are robust to climate and land‐use change , 2017, Conservation biology : the journal of the Society for Conservation Biology.
[17] N. Zimmermann,et al. Habitat Suitability and Distribution Models: With Applications in R , 2017 .
[18] Jorge A. Sefair,et al. A defender-attacker model and algorithm for maximizing weighted expected hitting time with application to conservation planning , 2017 .
[19] M. Pärtel,et al. A synthesis of empirical plant dispersal kernels , 2017 .
[20] P. Beier,et al. Using step and path selection functions for estimating resistance to movement: pumas as a case study , 2016, Landscape Ecology.
[21] Robert J. Fletcher,et al. Divergent Perspectives on Landscape Connectivity Reveal Consistent Effects from Genes to Communities , 2016 .
[22] J. Brodie,et al. How individual links affect network stability in a large-scale, heterogeneous metacommunity. , 2016, Ecology.
[23] Thomas R. Etherington,et al. Least-Cost Modelling and Landscape Ecology: Concepts, Applications, and Opportunities , 2016 .
[24] R. Fletcher,et al. Mate choice interacts with movement limitations to influence effective dispersal , 2016 .
[25] J. Cole Smith,et al. Conservation under uncertainty: Optimal network protection strategies for worst-case disturbance events , 2015 .
[26] Divya Vasudev,et al. From dispersal constraints to landscape connectivity: lessons from species distribution modeling , 2015 .
[27] Damaris Zurell,et al. Mechanistic modelling of animal dispersal offers new insights into range expansion dynamics across fragmented landscapes , 2014 .
[28] William E. Peterman,et al. ResistanceGA: An R package for the optimization of resistance surfaces using genetic algorithms , 2014, bioRxiv.
[29] Niko Balkenhol,et al. A plea for simultaneously considering matrix quality and local environmental conditions when analysing landscape impacts on effective dispersal , 2014, Molecular ecology.
[30] W. Fagan,et al. Transient windows for connectivity in a changing world , 2014, Movement ecology.
[31] Wiley M. Kitchens,et al. Network modularity reveals critical scales for connectivity in ecology and evolution , 2013, Nature Communications.
[32] Grant M Harris,et al. Estimating Extinction Risk with Metapopulation Models of Large‐Scale Fragmentation , 2013, Conservation biology : the journal of the Society for Conservation Biology.
[33] D. Legrand,et al. Individual dispersal, landscape connectivity and ecological networks , 2013, Biological reviews of the Cambridge Philosophical Society.
[34] J. Clobert,et al. Dispersal Ecology and Evolution , 2012 .
[35] Nicolas Schtickzelle,et al. Costs of dispersal , 2012, Biological reviews of the Cambridge Philosophical Society.
[36] Samuel A. Cushman,et al. Multi-taxa population connectivity in the Northern Rocky Mountains , 2012 .
[37] Kevin McGarigal,et al. Estimating landscape resistance to movement: a review , 2012, Landscape Ecology.
[38] M. Acevedo,et al. Social network models predict movement and connectivity in ecological landscapes , 2011, Proceedings of the National Academy of Sciences.
[39] Justin S. Brashares,et al. Placing linkages among fragmented habitats: do least‐cost models reflect how animals use landscapes? , 2011 .
[40] François Fouss,et al. Randomized Shortest-Path Problems: Two Related Models , 2009, Neural Computation.
[41] E. Revilla,et al. A movement ecology paradigm for unifying organismal movement research , 2008, Proceedings of the National Academy of Sciences.
[42] Viral B. Shah,et al. Using circuit theory to model connectivity in ecology, evolution, and conservation. , 2008, Ecology.
[43] Edward A. Codling,et al. Random walk models in biology , 2008, Journal of The Royal Society Interface.
[44] Miska Luoto,et al. An Empirical Test of a Diffusion Model: Predicting Clouded Apollo Movements in a Novel Environment , 2008, The American Naturalist.
[45] Kevin McGarigal,et al. A Resistant‐Kernel Model of Connectivity for Amphibians that Breed in Vernal Pools , 2007, Conservation biology : the journal of the Society for Conservation Biology.
[46] S. Pimm,et al. Dispersal of Amazonian birds in continuous and fragmented forest. , 2007, Ecology letters.
[47] David Paetkau,et al. Effectiveness of a Regional Corridor in Connecting Two Florida Black Bear Populations , 2006, Conservation biology : the journal of the Society for Conservation Biology.
[48] T. Benton,et al. Causes and consequences of animal dispersal strategies: relating individual behaviour to spatial dynamics , 2005, Biological reviews of the Cambridge Philosophical Society.
[49] Thomas S. Hoctor,et al. Landscape linkages and conservation planning for the black bear in west‐central Florida , 2004 .
[50] M. Cunningham,et al. SPATIAL CHARACTERISTICS OF AN ISOLATED FLORIDA BLACK BEAR POPULATION , 2003 .
[51] Stephen R. Baillie,et al. Modeling large-scale dispersal distances , 2002 .
[52] D. H. Vuren,et al. Detectability, philopatry, and the distribution of dispersal distances in vertebrates. , 1996, Trends in Ecology & Evolution.
[53] L. Fahrig,et al. Connectivity is a vital element of landscape structure , 1993 .
[54] Montgomery Slatkin,et al. ISOLATION BY DISTANCE IN EQUILIBRIUM AND NON‐EQUILIBRIUM POPULATIONS , 1993, Evolution; international journal of organic evolution.
[55] B. Worton. Kernel methods for estimating the utilization distribution in home-range studies , 1989 .
[56] P. Kareiva,et al. Analyzing insect movement as a correlated random walk , 1983, Oecologia.
[57] P H Harvey,et al. THE NATAL AND BREEDING DISPERSAL OF BIRDS , 1982 .
[58] E. Zavaleta,et al. Biodiversity management in the face of climate change: A review of 22 years of recommendations , 2009 .
[59] J. Gamarra,et al. Metapopulation Ecology , 2007 .
[60] D. Maehr. Comparative ecology of bobcat, black bear, and Florida panther in south Florida , 1996 .
[61] R. Veit,et al. Partial Differential Equations in Ecology: Spatial Interactions and Population Dynamics , 1994 .