%0 Journal Article %J Journal of Mammalogy %D 2012 %T Mechanistic approaches to understanding and predicting mammalian space use: recent advances, future directions %A Moorcroft, P. R. %K animal movement %K biotelemetry %K climate-change %K environmental covariates %K foraging behavior %K global positioning system %K global positioning system telemetry %K gps collar %K habitat selection %K home ranges %K home-range behavior %K mechanistic home-range models %K memory %K polarimetric radar %K population demography %K self-attracting walk %K trophic mismatch %K yellowstone-national-park %X

The coming of age of global positioning system telemetry, in conjunction with recent theoretical innovations for formulating quantitative descriptions of how different ecological forces and behavioral mechanisms shape patterns of animal space use, has led to renewed interest and insight into animal home-range patterns. This renaissance is likely to continue as a result of ongoing synergies between these empirical and theoretical advances. In this article I review key developments that have occurred over the past decade that are furthering our understanding of the ecology of animal home ranges. I then outline what I perceive as important future directions for furthering our ability to understand and predict mammalian home-range patterns. Interesting directions for future research include improved insights into the environmental and social context of animal movement decisions and resulting patterns of space use; quantifying the role of memory in animal movement decisions; and examining the relevance of these advances in our understanding of animal movement behavior and space use to questions concerning the demography and abundance of animal populations.

%B Journal of Mammalogy %V 93 %P 903-916 %8 Aug %@ 0022-2372 %G English %U http://www.bioone.org/doi/full/10.1644/11-MAMM-S-254.1 %M WOS:000309014200003 %! J MammalJ Mammal