Movement Ecology (Aug 2024)

Intraspecific encounters can lead to reduced range overlap

  • William F. Fagan,
  • Ananke Krishnan,
  • Qianru Liao,
  • Christen H. Fleming,
  • Daisy Liao,
  • Clayton Lamb,
  • Brent Patterson,
  • Tyler Wheeldon,
  • Ricardo Martinez-Garcia,
  • Jorge F. S. Menezes,
  • Michael J. Noonan,
  • Eliezer Gurarie,
  • Justin M. Calabrese

DOI
https://doi.org/10.1186/s40462-024-00501-w
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 13

Abstract

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Abstract Direct encounters, in which two or more individuals are physically close to one another, are a topic of increasing interest as more and better movement data become available. Recent progress, including the development of statistical tools for estimating robust measures of changes in animals’ space use over time, facilitates opportunities to link direct encounters between individuals with the long-term consequences of those encounters. Working with movement data for coyotes (Canis latrans) and grizzly bears (Ursus arctos horribilis), we investigate whether close intraspecific encounters were associated with spatial shifts in the animals’ range distributions, as might be expected if one or both of the individuals involved in an encounter were seeking to reduce or avoid conflict over space. We analyze the movement data of a pair of coyotes in detail, identifying how a change in home range overlap resulting from altered movement behavior was apparently a consequence of a close intraspecific encounter. With grizzly bear movement data, we approach the problem as population-level hypothesis tests of the spatial consequences of encounters. We find support for the hypotheses that (1) close intraspecific encounters between bears are, under certain circumstances, associated with subsequent changes in overlap between range distributions and (2) encounters defined at finer spatial scales are followed by greater changes in space use. Our results suggest that animals can undertake long-term, large-scale spatial changes in response to close intraspecific encounters that have the potential for conflict. Overall, we find that analyses of movement data in a pairwise context can (1) identify distances at which individuals’ proximity to one another may alter behavior and (2) facilitate testing of population-level hypotheses concerning the potential for direct encounters to alter individuals’ space use.

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