Subsampling Hair Samples Affects Accuracy and Precision of DNA-Based Population Estimates

Subsampling Hair Samples Affects Accuracy and Precision of DNA-Based Population Estimates

Variance in population estimates is affected by the number of samples that are chosen to genotype when multiple samples are available during a sampling period. Using genetic data obtained from noninvasive hair-snags used to sample black bears (Ursus americanus) in the Northern Lower Peninsula of Mic...

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Veröffentlicht in:The Journal of wildlife management 2009-09, Vol.73 (7), p.1184-1188
Hauptverfasser: Dreher, Brian P, Rosa, Guilherme J. M, Lukacs, Paul M, Scribner, Kim T, Winterstein, Scott R
Format: Artikel
Sprache:eng
Schlagworte:
Advances in Wildlife Techniques
Bears
black bear
Black bears
DNA
Error rates
Estimates
Federal funding
Genetic loci
Genetic testing
Genotypes
genotyping error
Hair
mark-recapture
Methods
Michigan
microsatellite
noninvasive sampling
Population estimates
population estimation
Population size
Probability
Sample size
Studies
subsampling
TOOLS AND TECHNOLOGY
Ursus americanus
Wildlife management
Wildlife population estimation
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Zusammenfassung:Variance in population estimates is affected by the number of samples that are chosen to genotype when multiple samples are available during a sampling period. Using genetic data obtained from noninvasive hair-snags used to sample black bears (Ursus americanus) in the Northern Lower Peninsula of Michigan, USA, we developed a bootstrapping simulation to determine how precision of population estimates varied based on the number of samples genotyped. Improvements in precision of population estimates were not monotonic over all samples sizes available for genotyping. Estimates of cost, both financially and in terms of bias associated with increasing genotyping error and benefits in terms of greater estimate precision, will vary by species and field conditions and should be determined empirically.
ISSN:0022-541X
1937-2817
DOI:10.2193/2006-547