What drives foraging behaviour of the intertidal limpet Cellana grata? A quantitative test of a dynamic optimization model

Giacomo Santini; Avis Ngan; Michael T. Burrows; Guido Chelazzi; Gray A. Williams

doi:10.1111/1365-2435.12241

What drives foraging behaviour of the intertidal limpet Cellana grata? A quantitative test of a dynamic optimization model

Giacomo Santini
, Avis Ngan
, Michael T. Burrows
, Guido Chelazzi
, Gray A. Williams

Publikation: Article › Begutachtung

10 Zitate (Scopus)

Abstract

State-dependent models (SDMs) of behaviour, based on dynamic fitness-maximizing optimality routines, offer a powerful approach to understanding the plasticity and complexity in the timing of behaviour of foraging animals; yet, they are rarely developed for individual species. Such models permit evaluation of the sensitivity of predicted behavioural patterns to parameters that describe the main elements of environmental risk and the dynamics of internal states, such as energy stores, that determine motivational state.

Here, we develop a state-dependent dynamic model for the temporal organization of foraging in a cyclic environment, using the intertidal grazing limpet Cellana grata as a test species. Estimates of relevant parameter values were obtained wherever possible and a sensitivity analysis performed to estimate the relative importance of these parameters.

Originalsprache	English
Seiten (von - bis)	963-972
Seitenumfang	9
Fachzeitschrift	Functional Ecology
Jahrgang	28
Ausgabenummer	4
DOIs	https://doi.org/10.1111/1365-2435.12241
Publikationsstatus	Published - 27 Jan. 2014

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10.1111/1365-2435.12241

Michael Burrows
- michael.burrowssams.acuk
- SAMS UHI - Marine Ecologist
- Energy Innovation Team
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AU - Chelazzi, Guido

AU - Williams, Gray A.

PY - 2014/1/27

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N2 - State-dependent models (SDMs) of behaviour, based on dynamic fitness-maximizing optimality routines, offer a powerful approach to understanding the plasticity and complexity in the timing of behaviour of foraging animals; yet, they are rarely developed for individual species. Such models permit evaluation of the sensitivity of predicted behavioural patterns to parameters that describe the main elements of environmental risk and the dynamics of internal states, such as energy stores, that determine motivational state. Here, we develop a state-dependent dynamic model for the temporal organization of foraging in a cyclic environment, using the intertidal grazing limpet Cellana grata as a test species. Estimates of relevant parameter values were obtained wherever possible and a sensitivity analysis performed to estimate the relative importance of these parameters.

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KW - intertidal grazers

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KW - physiological constraints

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What drives foraging behaviour of the intertidal limpet Cellana grata? A quantitative test of a dynamic optimization model

Abstract

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