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Demography of fish populations reveals new challenges in appraising juvenile habitat values.

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dc.creator Kimirei, Ismael
dc.creator Nagelkerken, Ivan
dc.creator Slooter, N.
dc.creator Gonzalez, E. T.
dc.creator Huijbers, Chantal
dc.creator Mgaya, Yunus D.
dc.creator Rypel, Andrew
dc.date 2016-03-02T06:50:17Z
dc.date 2016-03-02T06:50:17Z
dc.date 2013
dc.date.accessioned 2018-03-27T08:22:19Z
dc.date.available 2018-03-27T08:22:19Z
dc.identifier Kimirei, I.A., Nagelkerken, I., Slooter, N., Gonzalez, E.T., Huijbers, C.M., Mgaya, Y.D. and Rypel, A.L., 2013. Demography of fish populations reveals new challenges in appraising juvenile habitat values. Oikos (Submitted)
dc.identifier 10.3354/meps11059
dc.identifier http://hdl.handle.net/123456789/527
dc.identifier.uri http://hdl.handle.net/123456789/2288
dc.description Understanding the ‘value’ of nursery habitats is increasingly perceived as essential to conservation management of marine ecosystems globally. Yet, most work on this topic has assumed that population dynamics are temporally and spatially static, which clearly oversimplifies some highly complex and integral ecological processes. We used size-frequency data of fish species from mangrove and seagrass habitats collected at various locations over a >2 yr period to explore demographic structure and variability along with potential factors (such as growth, food abundance, and relative predation risk) that might encourage such variability. While demographics were skewed predominantly towards juveniles, older fish (up to 13 yr) were regularly observed in some mangroves or seagrass beds, indicating relatively complex population demographics. Juvenile habitats varied substantially in both prey abundance and relative predation risk—an effect that appeared to give rise to habitat-specific differences in somatic growth rates and fish densities. Fish population size structure was further related to position within the seascape, suggesting complex spatial dynamics in the production of fish biomass. Our results demonstrate that effectively appraising juvenile habitats will be a more convoluted process than previously thought, as greater integration is needed between basic ecological processes (e.g. predation risk and food availability) and population demography. Whereas current approaches often identify and manage single, complete nursery habitats based on those that contribute most individuals to adult populations, our study shows that a more dynamic and spatially-explicit management approach is needed, as nurseries have divergent benefits for separate life stages, species, and locations.
dc.language en
dc.subject Demography
dc.subject juvenile
dc.title Demography of fish populations reveals new challenges in appraising juvenile habitat values.
dc.type Other


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