How range residency and long-range perception change encounter rates

Encounter rates link movement strategies to intra- and inter-specific interactions, and therefore translate individual movement behavior into higher-level ecological processes. Indeed, a large body of interacting population theory rests on the law of mass action, which can be derived from assumptions of Brownian motion in an enclosed container with exclusively local perception. These assumptions imply completely uniform space use, individual home ranges equivalent to the population range, and encounter dependent on movement paths actually crossing. Mounting empirical evidence, however, suggests that animals use space non-uniformly, occupy home ranges substantially smaller than the population range, and are often capable of nonlocal perception. Here, we explore how these empirically supported behaviors change pairwise encounter rates. Specifically, we derive novel analytical expressions for encounter rates under Ornstein-Uhlenbeck motion, which features non-uniform space use and allows individual home ranges to differ from the population range. We compare OU-based encounter predictions to those of Reflected Brownian Motion, from which the law of mass action can be derived. For both models, we further explore how the interplay between the scale of perception and home range size affects encounter rates. We find that neglecting realistic movement and perceptual behaviors can systematically bias encounter rate predictions.

• Publication year

  2019

• Venue

  bioRxiv

• Publication date

  2019-07-12

• Fields of study

  Biology, Physics, Computer Science, Mathematics, Environmental Science, Medicine

• Identifiers
  DOI 10.1101/712182arXiv 1907.05902PMID 32275984
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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  2000cited by this paper
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  1999cited by this paper
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  1990cited by this paper
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  1989cited by this paper
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  1987cited by this paper
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  1985cited by this paper
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  1980cited by this paper
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  1977cited by this paper
• Functional Response and Stability in Predator-Prey Systems

  1975cited by this paper
• Measurement of non-circular home range.

  1969cited by this paper
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  1959cited by this paper
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  1958cited by this paper
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  1955cited by this paper
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  1943cited by this paper
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  1934cited by this paper
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  1930cited by this paper
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  1927cited by this paper
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