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- Title
A simulation study of sample size for DNA barcoding.
- Authors
Arong Luo; Haiqiang Lan; Cheng Ling; Aibing Zhang; Lei Shi; Ho, Simon Y. W.; Chaodong Zhu
- Abstract
For some groups of organisms, DNA barcoding can provide a useful tool in taxonomy, evolutionary biology, and biodiversity assessment. However, the efficacy of DNA barcoding depends on the degree of sampling per species, because a large enough sample size is needed to provide a reliable estimate of genetic polymorphism and for delimiting species. We used a simulation approach to examine the effects of sample size on four estimators of genetic polymorphism related to DNA barcoding: mismatch distribution, nucleotide diversity, the number of haplotypes, and maximum pairwise distance. Our results showed that mismatch distributions derived from subsamples of =20 individuals usually bore a close resemblance to that of the full dataset. Estimates of nucleotide diversity from subsamples of =20 individuals tended to be bell-shaped around that of the full dataset, whereas estimates from smaller subsamples were not. As expected, greater sampling generally led to an increase in the number of haplotypes. We also found that subsamples of =20 individuals allowed a good estimate of the maximum pairwise distance of the full dataset, while smaller ones were associated with a high probability of underestimation. Overall, our study confirms the expectation that larger samples are beneficial for the efficacy of DNA barcoding and suggests that a minimum sample size of 20 individuals is needed in practice for each population.
- Subjects
GENETIC barcoding; BIOLOGICAL evolution; TAXONOMY; HAPLOTYPES; GENETIC polymorphisms
- Publication
Ecology & Evolution (20457758), 2015, Vol 5, Issue 24, p5869
- ISSN
2045-7758
- Publication type
Article
- DOI
10.1002/ece3.1846