%0 Journal Article %1 alasadi2018estimating %A Al-Asadi, Hussein %A Petkova, Desislava %A Stephens, Matthew %A Novembre, John %D 2018 %I Cold Spring Harbor Laboratory %J bioRxiv %K IBD identity_by_descent migration_estimation recent_history resistance_distance %R 10.1101/365536 %T Estimating recent migration and population size surfaces %U https://www.biorxiv.org/content/early/2018/07/09/365536 %X In many species a fundamental feature of genetic diversity is that genetic similarity decays with geographic distance; however, this relationship is often complex, and may vary across space and time. Methods to uncover and visualize such relationships have widespread use for analyses in molecular ecology, conservation genetics, evolutionary genetics, and human genetics. While several frameworks exist, a promising approach is to infer maps of how migration rates vary across geographic space. Such maps could, in principle, be estimated across time to reveal the full complexity of population histories. Here, we take a step in this direction: we present a method to infer separate maps of population sizes and migration rates for different time periods from a matrix of genetic similarity between every pair of individuals. Specifically, genetic similarity is measured by counting the number of long segments of haplotype sharing (also known as identity-by-descent tracts). By varying the length of these segments we obtain parameter estimates for qualitatively different time periods. Using simulations, we show that the method can reveal time-varying migration rates and population sizes, including changes that are not detectable when ignoring haplotypic structure. We apply the method to a dataset of contemporary European individuals (POPRES), and provide an integrated analysis of recent population structure and growth over the last ~3,000 years in Europe. Software implementing the methods is available at https://github.com/halasadi/MAPS

@article{alasadi2018estimating, abstract = {In many species a fundamental feature of genetic diversity is that genetic similarity decays with geographic distance; however, this relationship is often complex, and may vary across space and time. Methods to uncover and visualize such relationships have widespread use for analyses in molecular ecology, conservation genetics, evolutionary genetics, and human genetics. While several frameworks exist, a promising approach is to infer maps of how migration rates vary across geographic space. Such maps could, in principle, be estimated across time to reveal the full complexity of population histories. Here, we take a step in this direction: we present a method to infer separate maps of population sizes and migration rates for different time periods from a matrix of genetic similarity between every pair of individuals. Specifically, genetic similarity is measured by counting the number of long segments of haplotype sharing (also known as identity-by-descent tracts). By varying the length of these segments we obtain parameter estimates for qualitatively different time periods. Using simulations, we show that the method can reveal time-varying migration rates and population sizes, including changes that are not detectable when ignoring haplotypic structure. We apply the method to a dataset of contemporary European individuals (POPRES), and provide an integrated analysis of recent population structure and growth over the last ~3,000 years in Europe. Software implementing the methods is available at https://github.com/halasadi/MAPS}, added-at = {2018-08-31T09:55:18.000+0200}, author = {Al-Asadi, Hussein and Petkova, Desislava and Stephens, Matthew and Novembre, John}, biburl = {https://www.bibsonomy.org/bibtex/28925fae97ca00887a52ed0eab3abc3c1/peter.ralph}, doi = {10.1101/365536}, eprint = {https://www.biorxiv.org/content/early/2018/07/09/365536.full.pdf}, interhash = {6c19dd392c3d3a9974eea8c00678d5e8}, intrahash = {8925fae97ca00887a52ed0eab3abc3c1}, journal = {bioRxiv}, keywords = {IBD identity_by_descent migration_estimation recent_history resistance_distance}, publisher = {Cold Spring Harbor Laboratory}, timestamp = {2018-08-31T09:55:18.000+0200}, title = {Estimating recent migration and population size surfaces}, url = {https://www.biorxiv.org/content/early/2018/07/09/365536}, year = 2018 }