Journal
CONSERVATION GENETICS
Volume 13, Issue 3, Pages 625-637Publisher
SPRINGER
DOI: 10.1007/s10592-011-0313-y
Keywords
Genetic monitoring; Effective population size; Effective number of breeders; Brook trout; Headwater streams; Linkage disequilibrium; LDNe
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Funding
- James Madison University
- George Washington and Jefferson National Forest
- Virginia Department of Game and Inland Fisheries
- U.S. Forest Service, Northern Research Station
- University of Massachusetts Amherst
- U.S. Geological Survey, Leetown Science Center
- Conte Anadromous Fish Research Laboratory
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The influence of sampling strategy on estimates of effective population size (N (e) ) from single-sample genetic methods has not been rigorously examined, though these methods are increasingly used. For headwater salmonids, spatially close kin association among age-0 individuals suggests that sampling strategy (number of individuals and location from which they are collected) will influence estimates of N (e) through family representation effects. We collected age-0 brook trout by completely sampling three headwater habitat patches, and used microsatellite data and empirically parameterized simulations to test the effects of different combinations of sample size (S = 25, 50, 75, 100, 150, or 200) and number of equally-spaced sample starting locations (SL = 1, 2, 3, 4, or random) on estimates of mean family size and effective number of breeders (N-b). Both S and SL had a strong influence on estimates of mean family size and (N) over cap (b) however the strength of the effects varied among habitat patches that varied in family spatial distributions. The sampling strategy that resulted in an optimal balance between precise estimates of N (b) and sampling effort regardless of family structure occurred with S = 75 and SL = 3. This strategy limited bias by ensuring samples contained individuals from a high proportion of available families while providing a large enough sample size for precise estimates. Because this sampling effort performed well for populations that vary in family structure, it should provide a generally applicable approach for genetic monitoring of iteroparous headwater stream fishes that have overlapping generations.
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