In general, individuals who survive to reproduce have genotypes that work relatively well under local conditions. Migrating or dispersing offspring elsewhere is likely to decrease an individual's or its offspring's fitness, not to mention the intrinsic costs and risks of dispersal. Gene flow into a population can counteract gene frequency changes because of selection, imposing a limit on local adaptation. In addition, the migrant flow tends to be higher from densely populated to sparsely populated areas. Thus, although the potential for adaptation might be greatest in poor and sparsely populated environments, gene flow will counteract selection more strongly in such populations. Recent papers, both theoretical and empirical, have clarified the important role of migration in evolution, affecting spatial patterns, species ranges and adaptation to the environment; in particular, by emphasizing the crucial interaction between evolutionary and demographic processes.
%0 Journal Article
%1 lenormand2002limits
%A Lenormand, Thomas
%D 2002
%J Trends in Ecology & Evolution
%K adaptation biased_migration clines gene_flow local_adaptation review source-sink_dynamics swamping
%N 4
%P 183 - 189
%R DOI: 10.1016/S0169-5347(02)02497-7
%T Gene flow and the limits to natural selection
%U http://www.sciencedirect.com/science/article/pii/S0169534702024977
%V 17
%X In general, individuals who survive to reproduce have genotypes that work relatively well under local conditions. Migrating or dispersing offspring elsewhere is likely to decrease an individual's or its offspring's fitness, not to mention the intrinsic costs and risks of dispersal. Gene flow into a population can counteract gene frequency changes because of selection, imposing a limit on local adaptation. In addition, the migrant flow tends to be higher from densely populated to sparsely populated areas. Thus, although the potential for adaptation might be greatest in poor and sparsely populated environments, gene flow will counteract selection more strongly in such populations. Recent papers, both theoretical and empirical, have clarified the important role of migration in evolution, affecting spatial patterns, species ranges and adaptation to the environment; in particular, by emphasizing the crucial interaction between evolutionary and demographic processes.
@article{lenormand2002limits,
abstract = {In general, individuals who survive to reproduce have genotypes that work relatively well under local conditions. Migrating or dispersing offspring elsewhere is likely to decrease an individual's or its offspring's fitness, not to mention the intrinsic costs and risks of dispersal. Gene flow into a population can counteract gene frequency changes because of selection, imposing a limit on local adaptation. In addition, the migrant flow tends to be higher from densely populated to sparsely populated areas. Thus, although the potential for adaptation might be greatest in poor and sparsely populated environments, gene flow will counteract selection more strongly in such populations. Recent papers, both theoretical and empirical, have clarified the important role of migration in evolution, affecting spatial patterns, species ranges and adaptation to the environment; in particular, by emphasizing the crucial interaction between evolutionary and demographic processes.},
added-at = {2010-07-29T22:58:14.000+0200},
author = {Lenormand, Thomas},
biburl = {https://www.bibsonomy.org/bibtex/230238cad95f1ee60c6b596bfd1a1dab5/peter.ralph},
doi = {DOI: 10.1016/S0169-5347(02)02497-7},
interhash = {b7a8cffdf587ed787ad5c8cfd0410216},
intrahash = {30238cad95f1ee60c6b596bfd1a1dab5},
issn = {0169-5347},
journal = {Trends in Ecology \& Evolution},
keywords = {adaptation biased_migration clines gene_flow local_adaptation review source-sink_dynamics swamping},
number = 4,
pages = {183 - 189},
timestamp = {2018-08-31T11:32:11.000+0200},
title = {Gene flow and the limits to natural selection},
url = {http://www.sciencedirect.com/science/article/pii/S0169534702024977},
volume = 17,
year = 2002
}