Sub-sampling genetic data to estimate black bear population size: A case study
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Abstract
Costs for genetic analysis of hair samples collected for individual identification of bears average approximately US$50 [2004] per sample. This can easily exceed budgetary allowances for large-scale studies or studies of high-density bear populations. We used 2 genetic datasets from 2 areas in the southeastern United States to explore how reducing costs of analysis by sub-sampling affected precision and accuracy of resulting population estimates. We used several sub-sampling scenarios to create subsets of the full datasets and compared summary statistics, population estimates, and precision of estimates generated from these subsets to estimates generated from the complete datasets. Our results suggested that bias and precision of estimates improved as the proportion of total samples used increased, and heterogeneity models (e.g., Mh[Chao]) were more robust to reduced sample sizes than other models (e.g., behavior models). We recommend that only high-quality samples (>5 hair follicles) be used when budgets are constrained, and efforts should be made to maximize capture and recapture rates in the field.
Study Area
Publication type | Article |
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Publication Subtype | Journal Article |
Title | Sub-sampling genetic data to estimate black bear population size: A case study |
Series title | Ursus |
DOI | 10.2192/1537-6176(2007)18[179:SGDTEB]2.0.CO;2 |
Volume | 18 |
Issue | 2 |
Year Published | 2007 |
Language | English |
Publisher | BioOne Complete |
Description | 10 p. |
Larger Work Title | Ursus |
First page | 179 |
Last page | 188 |
Country | United States |
Other Geospatial | southeastern United States |
Google Analytic Metrics | Metrics page |