Description and Power Analysis of Two Tests for Detecting Recent Population Bottlenecks from Allele Frequency Data
TLDR
In this article, two statistical tests for detecting a heterozygosity excess are described, and the most useful markers for bottleneck detection are those evolving under the infinite allele model (IAM) and they provide guidelines for selecting sample sizes of individuals and loci.Abstract:
When a population experiences a reduction of its effective size, it generally develops a heterozygosity excess at selectively neutral loci, i.e., the heterozygosity computed from a sample of genes is larger than the heterozygosity expected from the number of alleles found in the sample if the population were at mutation drift equilibrium. The heterozygosity excess persists only a certain number of generations until a new equilibrium is established. Two statistical tests for detecting a heterozygosity excess are described. They require measurements of the number of alleles and heterozygosity at each of several loci from a population sample. The first test determines if the proportion of loci with heterozygosity excess is significantly larger than expected at equilibrium. The second test establishes if the average of standardized differences between observed and expected heterozygosities is significantly different from zero. Type I and II errors have been evaluated by computer simulations, varying sample size, number of loci, bottleneck size, time elapsed since the beginning of the bottleneck and level of variability of loci. These analyses show that the most useful markers for bottleneck detection are those evolving under the infinite allele model (IAM) and they provide guidelines for selecting sample sizes of individuals and loci. The usefulness of these tests for conservation biology is discussed.read more
Citations
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Detection of reduction in population size using data from microsatellite loci.
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Estimation of Past Demographic Parameters From the Distribution of Pairwise Differences When the Mutation Rates Vary Among Sites: Application to Human Mitochondrial DNA
TL;DR: This article shows how to infer past demographic parameters by explicitly taking into account a finite-sites model with heterogeneity of mutation rates, and proposes an alternative way to derive confidence intervals around the estimated parameters, based on a bootstrap approach.
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Perspective: highly variable loci and their interpretation in evolution and conservation.
TL;DR: Concerns need to be incorporated in the utilization and interpretation of patterns of highly variable loci for both evolutionary and conservation biology.
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Empirical Evaluation of a Test for Identifying Recently Bottlenecked Populations from Allele Frequency Data
TL;DR: A statistical test (a sign test for heterozygosity excess) for detecting recent historical bottlenecks using allele frequency data (Cornuet & Luikart 1996) is developed and evaluated by analyzing 56 allozyme and 37 microsatellite data sets from bottlenecked and nonbottlenecked natural populations.
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Genetic Structure and Diversity in Oryza sativa L.
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