Effects of angling and life history processes on bluegill size structure: Insights from an individual-based model
Authored by TD Beard, TE Essington
Date Published: 2000
DOI: 10.1577/1548-8659(2000)129<0561:eoaalh>2.0.co;2
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Mathematical description
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Abstract
Bluegill Lepomis macrochirus is a common sport fish for anglers, yet
populations often suffer from stunting. We examined the effects of life
history shifts and fishing mortality on bluegill size structure and on
the rate of recovery from exploitation. We constructed an individual
based model that simulated size-dependent age at maturation, differential growth of mature fish, and harvest of individuals larger
than 150 mm. We used this model to separate the direct effects of
harvest, the direct effects of life history process, and their
interactive effects on bluegill size structure. We also evaluated the
rate at which bluegill size structure recovered to pre-exploitation
levels after eliminating harvest. The direct effect of harvest had the
largest effect on bluegill size structure, reducing the mean size of
harvestable fish by as much as four times las compared to results
associated with simulations with only life history effects). There was
no evidence for an interaction between these two effects. However, model
simulations indicated that recovery rates of exploited populations were
two to three times greater with life history processes than without
them. These results indicate that the most important variable
structuring bluegill populations is angling mortality. Long recovery
times of large bluegills in the population indicate that changes in
regulations designed to reduce harvest may take years to achieve the
desired results.
Tags
Fish
Survival
Sunfish