Assessing density-dependent establishment and dispersal: an example using caddisfly larvae

Please use this identifier to cite or link to this item:

Show simple item record

Files Size Format View
20090306-AEL-SteinR-Density-dependent.pdf 978.4Kb PDF View/Open

dc.creator Kerans, B. L.
dc.creator Chesson, Peter L.
dc.creator Stein, Roy A. 2009-05-29T11:12:41Z 2009-05-29T11:12:41Z 2000
dc.identifier.citation Kerans, B. L.; Chesson, Peter L.; Stein, Roy A. "Assessing density-dependent establishment and dispersal: an example using caddisfly larvae," Canadian Journal of Fisheries and Aquatic Sciences, v. 57, no. 6, 2000, pp. 1190-1199. en
dc.identifier.issn 1205-7533 (print)
dc.description Abstract in English and French. en
dc.description.abstract Density dependence in colonization is poorly understood. We studied colonization by a benthic, stream-dwelling caddisfly, Hydropsyche slossonae, through experiments varying conspecific densities and environmental conditions. A model of larval acceptance or rejection of a locality (dispersal from the locality) was developed and fitted to the data to estimate the relative strengths of density-dependent and density-independent processes underlying dispersal. In spring and fall, we varied density, substrate size, and current velocity in laboratory experiments and varied density in field experiments. In the laboratory, dispersal of fifth instars was always density dependent, but the strength of density dependence was highest in spring when the proportion dispersing was lowest. Dispersal in field experiments was density dependent only in spring. Proportion dispersing was highest under low flow. The model fit to laboratory data suggested that stronger density dependence in spring occurred because of a reduction in density-independent dispersal stimuli with no change in density-dependent stimuli. In contrast, a change in density-dependent stimuli did appear to cause differences between the proportions dispersing under the two flow regimes. The model reveals the potential for density-independent dispersal stimuli to modify the strength of density dependence detectable at the population level. en
dc.description.sponsorship Funds for this research were provided by National Science Foundation Dissertation Improvement Grant BSR 8701166, a Grant-in-Aid from Sigma Xi, an Alumni Research Award (Graduate School, Ohio State University), and the Department of Zoology and Aquatic Ecology Laboratory (Ohio State University). en
dc.language.iso en_US en
dc.subject density dependence in colonization en
dc.subject caddisfly larvae en
dc.title Assessing density-dependent establishment and dispersal: an example using caddisfly larvae en
dc.type Article en