Rayleigh step-selection functions and connections to continuous-time mechanistic movement models
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Abstract
Background
The process known as ecological diffusion emerges from a first principles view of animal movement, but ecological diffusion and other partial differential equation models can be difficult to fit to data. Step-selection functions (SSFs), on the other hand, have emerged as powerful practical tools for ecologists studying the movement and habitat selection of animals.
Methods
SSFs typically involve comparing resources between a set of used and available points at each step in a sequence of observed positions. We use change of variables to show that ecological diffusion implies certain distributions for available steps that are more flexible than others commonly used. We then demonstrate advantages of these distributions with SSF models fit to data collected for a mountain lion in Colorado, USA.
Results
We show that connections between ecological diffusion and SSFs imply a Rayleigh step-length distribution and uniform turning angle distribution, which can accommodate data collected at irregular time intervals. The results of fitting an SSF model with these distributions compared to a set of commonly used distributions revealed how precision and inference can vary between the two approaches.
Conclusions
Our new continuous-time step-length distribution can be integrated into various forms of SSFs, making them applicable to data sets with irregular time intervals between successive animal locations.
| Publication type | Article |
|---|---|
| Publication Subtype | Journal Article |
| Title | Rayleigh step-selection functions and connections to continuous-time mechanistic movement models |
| Series title | Movement Ecology |
| DOI | 10.1186/s40462-023-00442-w |
| Volume | 12 |
| Year Published | 2024 |
| Language | English |
| Publisher | Springer |
| Contributing office(s) | Alaska Science Center Ecosystems |
| Description | 14, 8 p. |
| Google Analytic Metrics | Metrics page |