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Uncertainty drives deviations in normative foraging decision strategies

Nearly all animals forage to acquire energy for survival through efficient search and resource harvesting. Patch exploitation is a canonical foraging behaviour, but there is a need for more tractable and understandable mathematical models describing how foragers deal with uncertainty. To provide suc...

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Published in:	Journal of the Royal Society interface 2021-07, Vol.18 (180), p.20210337-20210337
Main Authors:	Kilpatrick, Zachary P., Davidson, Jacob D., El Hady, Ahmed
Format:	Article
Language:	English
Subjects:	Life Sciences–Mathematics interface
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container_title	Journal of the Royal Society interface
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creator	Kilpatrick, Zachary P. Davidson, Jacob D. El Hady, Ahmed
description	Nearly all animals forage to acquire energy for survival through efficient search and resource harvesting. Patch exploitation is a canonical foraging behaviour, but there is a need for more tractable and understandable mathematical models describing how foragers deal with uncertainty. To provide such a treatment, we develop a normative theory of patch foraging decisions, proposing mechanisms by which foraging behaviours emerge in the face of uncertainty. Our model foragers statistically and sequentially infer patch resource yields using Bayesian updating based on their resource encounter history. A decision to leave a patch is triggered when the certainty of the patch type or the estimated yield of the patch falls below a threshold. The time scale over which uncertainty in resource availability persists strongly impacts behavioural variables like patch residence times and decision rules determining patch departures. When patch depletion is slow, as in habitat selection, departures are characterized by a reduction of uncertainty, suggesting that the forager resides in a low-yielding patch. Uncertainty leads patch-exploiting foragers to overharvest (underharvest) patches with initially low (high) resource yields in comparison with predictions of the marginal value theorem. These results extend optimal foraging theory and motivate a variety of behavioural experiments investigating patch foraging behaviour.
doi_str_mv	10.1098/rsif.2021.0337
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subjects	Life Sciences–Mathematics interface
title	Uncertainty drives deviations in normative foraging decision strategies
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