2020
DOI: 10.1016/j.spasta.2019.100406
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Animal movement models with mechanistic selection functions

Abstract: A suite of statistical methods are used to study animal movement. Most of these methods treat animal telemetry data in one of three ways: as discrete processes, as continuous processes, or as point processes. We briefly review each of these approaches and then focus in on the latter. In the context of point processes, so-called resource selection analyses are among the most common way to statistically treat animal telemetry data. However, most resource selection analyses provide inference based on approximatio… Show more

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Cited by 10 publications
(8 citation statements)
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“…3 & 4 ). Given the relationship between motility in the ecological diffusion model, population spread rates, and specific forms of resource selection functions [ 64 ], it is possible that preliminary investigations of individual animal movement—either in the reintroduction area or a similar area—could be used to optimize a reintroduction strategy in terms of the initial locations and densities of released individuals. Nonetheless, these inferences regarding improved translocation strategies are largely based on mathematical theory underlying diffusion models, so further study is needed to determine how they may apply to translocation and reintroduction efforts in practice.…”
Section: Discussionmentioning
confidence: 99%
“…3 & 4 ). Given the relationship between motility in the ecological diffusion model, population spread rates, and specific forms of resource selection functions [ 64 ], it is possible that preliminary investigations of individual animal movement—either in the reintroduction area or a similar area—could be used to optimize a reintroduction strategy in terms of the initial locations and densities of released individuals. Nonetheless, these inferences regarding improved translocation strategies are largely based on mathematical theory underlying diffusion models, so further study is needed to determine how they may apply to translocation and reintroduction efforts in practice.…”
Section: Discussionmentioning
confidence: 99%
“…In fact, our results provided evidence of this: The sea otter population spread quickly over areas with high motility, then settled at high abundance in areas with low motility, which included areas with limited or no commercial fishing (Figure & 4). Given the relationship between motility in the ecological diffusion model, population spread rates, and specific forms of resource selection functions (Hooten et al, 2020), it is possible that preliminary investigations of individual animal movement-either in the reintroduction area or a similar area-could be used to optimize a reintroduction strategy in terms of the initial locations and densities of released individuals. Nonetheless, these inferences regarding improved translocation strategies are largely based on mathematical theory underlying diffusion models, so further study is needed to determine how they may apply to translocation and reintroduction efforts in practice.…”
Section: Colonization Rates and Multi-site Reintroductionsmentioning
confidence: 99%
“…Emerging techniques in the field of movement ecology offer new opportunities to develop stronger links between movement behavior and estimates of connectivity (e.g. Hooten et al 2020).…”
Section: Introductionmentioning
confidence: 99%
“…Movement models and step selection analyses offer a complementary approach for estimating connectivity either from model predictions (Buderman et al 2018, Hooten et al 2020) or from simulated paths (Palmer et al 2011, Quaglietta and Porto 2019, Zeller et al 2020). Step selection analyses are a subset of spatial point-process models that are increasingly used to estimate relative selection of resources (Fortin et al 2005), to understand the effects of human activity on animal movement behaviour (e.g.…”
Section: Introductionmentioning
confidence: 99%
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