Abstract
Quantifying the distribution of daily activity is an important component of behavioral ecology. Historically, it has been difficult to obtain data on activity patterns, especially for elusive species. However, the development of affordable camera traps and their widespread usage has led to an explosion of available data from which activity patterns can be estimated.Continuous‐time spatial capture–recapture (CT SCR) models drop the occasion structure seen in traditional spatial and nonspatial capture–recapture (CR) models and use the actual times of capture. In addition to estimating density, CT SCR models estimate expected encounters through time. Cyclic splines can be used to allow flexible shapes for modeling cyclic activity patterns, and the fact that SCR models also incorporate distance means that space–time interactions can be explored. This method is applied to a jaguar dataset.Jaguars in Belize are most active and range furthest in the evening and early morning and when they are located closer to the network of trails. There is some evidence that females have a less variable pattern than males. The comparison between sexes demonstrates how CT SCR can be used to explore hypotheses about animal behavior within a formal modeling framework.SCR models were developed primarily to estimate and model density, but the models can be used to explore processes that interact across space and time, especially when using the CT SCR framework that models the temporal dimension at a finer resolution.
Highlights
Animal activity patterns are an important aspect of species ecology that affect community interactions and community structure (Bridges & Noss, 2011; Farris et al, 2015; Frey et al, 2017; Gerber et al, 2012)
spatial capture–recapture (SCR) models were developed primarily to estimate and model density, but the models can be used to explore processes that interact across space and time, especially when using the Continuous-time spatial capture–recapture (CT SCR) framework that models the temporal dimension at a finer resolution
The emergence and rapid growth in usage of camera traps has greatly increased the generation of data that can provide information on activity patterns
Summary
|2 predators can maximize their chances of success by hunting when prey are most vulnerable whereas prey may adjust their activity patterns to avoid predation. Researchers conducting surveys of wildlife populations would sample the population of interest at discrete points in time (for example at the start of the breeding season) Such a study design leads to clear and well-defined occasions and is the primary reason why traditional CR and spatial capture–recapture (SCR) models have an occasion structure. Understanding the complexities of interactions between space and time use for individuals within populations is important to understanding variation between populations in terms of general ecology and distribution, as we would expect that differences in the timing of activity will interact with space use Understanding this interaction is essential for understanding the spatial distribution of species ecology in detail.
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