%0 Journal Article %1 durand2011testing %A Durand, E Y %A Patterson, N %A Reich, D %A Slatkin, M %D 2011 %J Mol Biol Evol %K ABBA-BABA ancient_genomes introgression methods population_genetics %N 8 %P 2239-2252 %R 10.1093/molbev/msr048 %T Testing for ancient admixture between closely related populations %U http://www.ncbi.nlm.nih.gov/pubmed/21325092 %V 28 %X One enduring question in evolutionary biology is the extent of archaic admixture in the genomes of present-day populations. In this paper, we present a test for ancient admixture that exploits the asymmetry in the frequencies of the two nonconcordant gene trees in a three-population tree. This test was first applied to detect interbreeding between Neandertals and modern humans. We derive the analytic expectation of a test statistic, called the D statistic, which is sensitive to asymmetry under alternative demographic scenarios. We show that the D statistic is insensitive to some demographic assumptions such as ancestral population sizes and requires only the assumption that the ancestral populations were randomly mating. An important aspect of D statistics is that they can be used to detect archaic admixture even when no archaic sample is available. We explore the effect of sequencing error on the false-positive rate of the test for admixture, and we show how to estimate the proportion of archaic ancestry in the genomes of present-day populations. We also investigate a model of subdivision in ancestral populations that can result in D statistics that indicate recent admixture.

@article{durand2011testing, abstract = {One enduring question in evolutionary biology is the extent of archaic admixture in the genomes of present-day populations. In this paper, we present a test for ancient admixture that exploits the asymmetry in the frequencies of the two nonconcordant gene trees in a three-population tree. This test was first applied to detect interbreeding between Neandertals and modern humans. We derive the analytic expectation of a test statistic, called the D statistic, which is sensitive to asymmetry under alternative demographic scenarios. We show that the D statistic is insensitive to some demographic assumptions such as ancestral population sizes and requires only the assumption that the ancestral populations were randomly mating. An important aspect of D statistics is that they can be used to detect archaic admixture even when no archaic sample is available. We explore the effect of sequencing error on the false-positive rate of the test for admixture, and we show how to estimate the proportion of archaic ancestry in the genomes of present-day populations. We also investigate a model of subdivision in ancestral populations that can result in D statistics that indicate recent admixture.}, added-at = {2015-02-18T06:39:26.000+0100}, author = {Durand, E Y and Patterson, N and Reich, D and Slatkin, M}, biburl = {https://www.bibsonomy.org/bibtex/24035e044fa240dc2ff98a308d5c0cf74/peter.ralph}, doi = {10.1093/molbev/msr048}, interhash = {8310e6b9364d6f500ec3623eab41d632}, intrahash = {4035e044fa240dc2ff98a308d5c0cf74}, journal = {Mol Biol Evol}, keywords = {ABBA-BABA ancient_genomes introgression methods population_genetics}, month = aug, number = 8, pages = {2239-2252}, pmid = {21325092}, timestamp = {2015-02-18T06:39:26.000+0100}, title = {Testing for ancient admixture between closely related populations}, url = {http://www.ncbi.nlm.nih.gov/pubmed/21325092}, volume = 28, year = 2011 }