Maximum-Likelihood Estimation of Admixture Proportions From Genetic Data

Maximum-Likelihood Estimation of Admixture Proportions From Genetic Data

Jinliang Wang^a
^a Institute of Zoology, Zoological Society of London, London NW1 4RY, United Kingdom

Corresponding author: Jinliang Wang, Regent's Park, London NW1 4RY, United Kingdom., jinliang.wang{at}ioz.ac.uk (E-mail)

Communicating editor: J. B. WALSH

For an admixed population, an important question is how muchgenetic contribution comes from each parental population. Severalmethods have been developed to estimate such admixture proportions,using data on genetic markers sampled from parental and admixedpopulations. In this study, I propose a likelihood method toestimate jointly the admixture proportions, the genetic driftthat occurred to the admixed population and each parental populationduring the period between the hybridization and sampling events,and the genetic drift in each ancestral population within theinterval between their split and hybridization. The resultsfrom extensive simulations using various combinations of relevantparameter values show that in general much more accurate andprecise estimates of admixture proportions are obtained fromthe likelihood method than from previous methods. The likelihoodmethod also yields reasonable estimates of genetic drift thatoccurred to each population, which translate into relative effectivesizes (N_e) or absolute average N_e's if the times when the relevantevents (such as population split, admixture, and sampling) occurredare known. The proposed likelihood method also has featuressuch as relatively low computational requirement compared withprevious ones, flexibility for admixture models, and markertypes. In particular, it allows for missing data from a contributingparental population. The method is applied to a human data setand a wolflike canids data set, and the results obtained arediscussed in comparison with those from other estimators andfrom previous studies.

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