Abstract
In this paper, we derive the expectation of two popular genetic distances under a model of pure population fission allowing for unequal population sizes. Under the model, we show that conventional genetic distances are not proportional to the divergence time and generally overestimate it due to unequal genetic drift and to a bottleneck effect at the divergence time. This bias cannot be totally removed even if the present population sizes are known. Instead, we present a method to estimate the divergence times between populations which is based on the average number of nucleotide differences within and between populations. The method simultaneously estimates the divergence time, the ancestral population size and the relative sizes of the derived populations. A simulation study revealed that this method is essentially unbiased and that it leads to better estimates than traditional approaches for a very wide range of parameter values. Simulations also indicated that moderate population growth after divergence has little effect on the estimates of all three estimated parameters. An application of our method to a comparison of humans and chimpanzee mitochondrial DNA diversity revealed that common chimpanzees have a significantly larger female population size than humans.
Keywords
Divergence (linguistics)Population sizePopulationBottleneckPopulation bottleneckEffective population sizeStatisticsRange (aeronautics)Pairwise comparisonGenetic divergenceSample size determinationEvolutionary biologyBiologyMathematicsGenetic diversityGeneticsComputer scienceDemographyAllele
MeSH Terms
AnimalsDNAMitochondrialFemaleGene FrequencyGeneticsPopulationHumansMonte Carlo MethodPan troglodytesPopulation Dynamics
Affiliated Institutions
Related Publications
Bayesian Coalescent Inference of Past Population Dynamics from Molecular Sequences
We introduce the Bayesian skyline plot, a new method for estimating past population dynamics through time from a sample of molecular sequences without dependence on a prespecifi...
Population Structure and Eigenanalysis
Current methods for inferring population structure from genetic data do not provide formal significance tests for population differentiation. We discuss an approach to studying ...
Structure and History of African Elephant Populations: I. Eastern and Southern Africa
Patterns of restriction site variation within mitochondrial DNA (mtDNA) of 270 individuals were used to examine the current structure of savanna elephant populations and to infe...
Mitochondrial DNA phylogeography and population history of the grey wolf<i>Canis lupus</i>
Abstract The grey wolf ( Canis lupus ) and coyote ( C. latrans ) are highly mobile carnivores that disperse over great distances in search of territories and mates. Previous gen...
Genetic Distance between Populations
A measure of genetic distance (D) based on the identity of genes between populations is formulated. It is defined as D = -logeI, where I is the normalized identity of genes betw...
Publication Info
- Year
- 2000
- Type
- article
- Volume
- 267
- Issue
- 1438
- Pages
- 81-87
- Citations
- 94
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
94
OpenAlex
9
Influential
73
CrossRef
Cite This
Oscar E. Gaggiotti,
Laurent Excoffier
(2000).
A simple method of removing the effect of a bottleneck and unequal population sizes on pairwise genetic distances.
Proceedings of the Royal Society B Biological Sciences
, 267
(1438)
, 81-87.
https://doi.org/10.1098/rspb.2000.0970
Identifiers
- DOI
- 10.1098/rspb.2000.0970
- PMID
- 10670957
- PMCID
- PMC1690496