Integrating individual behavior and population ecology: the potential for habitat-dependent population regulation in a reef fish

doi:10.1093/beheco/11.5.565

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Behavioral Ecology Vol. 11 No. 5: 565-571
© 2000 International Society for Behavioral Ecology

Integrating individual behavior and population ecology: the potential for habitat-dependent population regulation in a reef fish

Phillip S. Levin^a, Nicholas Tolimieri^b, Matthew Nicklin^c and Peter F. Sale^d

^{^a} Northwest Fisheries Science Center, National Marine Fisheries Service, 2725 Montlake Boulevard E, Seattle, WA 98112, USA ^{^b} University of Auckland, Leigh Marine Laboratory, PO Box 349, Warkworth, New Zealand ^{^c} Department of Biology, Northeastern University, Boston, MA 02115 ^{^d} Department of Biology, University of Windsor, Windsor, Ontario N9B 3P4, Canada

Address correspondence to P. S. Levin. E-mail: phil.levin{at}noaa.gov .

We used the predictions of the ideal free and ideal despoticdistributions (IFD and IDD, respectively) as a basis to evaluatethe link between spatial heterogeneity, behavior, and populationdynamics in a Caribbean coral reef fish. Juvenile three-spotdamselfish (Stegastes planifrons) were more closely aggregatedin patch reef habitat than on continuous back reef. Agonisticinteractions were more frequent but feeding rates were lowerin the patch versus the continuous reef habitat. Growth rateswere lower in patch reef habitat than on the continuous reef,but mortality rates did not differ. A separate experiment usingstandard habitat units demonstrated that the patterns observedin natural habitat were the result of the spatial distributionof the habitat patches rather than resource differences between habitats. Our results do not follow the predictions of simpleIFD or IDD models. This deviation from IFD and IDD predictionsmay be the result of a number of factors, including lack ofperfect information about habitat patches, high movement costs,and higher encounter rates of dispersed patches. Our resultsdemonstrate that behavioral interactions are an integral partof population dynamics and that it is necessary to considerthe spatial organization of the habitat in both behavioraland ecological investigations.

Key words: damselfish, habitat structure, ideal free distribution, recruitment, Stegastes planifrons.

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