First capture success in two dimensions: The search for prey by a random walk predator in a comprehensive space of random walks
Authored by A Blaessle, R C Tyson
Date Published: 2016
DOI: 10.1016/j.ecocom.2016.09.004
Sponsors:
National Science and Engineering Research Council of Canada (NSERC)
Platforms:
Python
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Abstract
Random walk models are an important tool used for understanding how
complex organisms redistribute themselves through space and time in
search of targets such as food, shelter, or mates. These walks are
easily studied with agent-based models, which can be used to ask which
search strategy is best according to some efficiency metric. Current
studies however, generally do not consider the full range of potential
random walks, success metrics, and constraints on the walker, and
implementation details vary widely. It is therefore difficult to compare
results across studies. In this paper, we investigate predator search
behaviour in a comprehensive space of key movement variables that allows
the predator to select from a continuum of random walks ranging from
Brownian walks (BWs) to correlated random walks (CorRWs) which include
directional persistence, to composite random walks (ComRWs) which
feature intensive and extensive search modes (ISMs and ESMs), and
finally to more complex correlated composite random walks (CCRWs). We
specifically focus on the search behaviour of a predator between the
initiation of a search for a prey item and the first successful
acquisition of a prey target: we call this interval the
``search-to-capture{''} event. We measure the predator's success against
three metrics of energetic cost: (1) the time elapsed, (2) the distance
travelled, and (3) an equally weighted combination of time and distance.
In addition, we explore the effect of three different constraints on the
predator: (1) hunting success in the extensive search mode, (2)
detection radius when in the extensive search mode, and (3) prey
density. Our work confirms the broadly held notion that CCRW movement
patterns should always outperform BWs, but find instructive cases where
other walks are superior. We also show that, within the CCRW category, there is a wide range of possible walks and rank these according to
measures of energetic cost. Our work also offers insights into the
evolutionary pressures surrounding the ``search-to-capture{''} event, and suggests that CCRW predators with low hunting success in one
movement mode experience higher evolutionary pressures and are thus more
likely to adopt a nearly optimal random walk. Our work highlights the
need for comprehensive studies that examine several aspects of random
walks simultaneously. (C) 2016 Elsevier B.V. All rights reserved.
Tags
behavior
models
Animals
Levy walks
Movement strategies
Functional-response