@article {Ralph006940, author = {Peter L. Ralph and Graham Coop}, title = {Convergent Evolution During Local Adaptation to Patchy Landscapes}, elocation-id = {006940}, year = {2014}, doi = {10.1101/006940}, publisher = {Cold Spring Harbor Laboratory}, abstract = {Species often encounter, and adapt to, many patches of locally similar environmental conditions across their range. Such adaptation can occur through convergent evolution as different alleles arise and spread in different patches, or through the spread of alleles by migration acting to synchronize adaptation across the species. The tension between the two reflects the degree of constraint imposed on evolution by the underlying genetic architecture versus how how effectively selection acts to inhibit the geographic spread of locally adapted alleles. This paper studies a model of the balance between these two routes to adaptation in continuous environments with patchy selection pressures. We address the following questions: How long does it take for a new, locally adapted allele to appear in a patch of habitat where it is favored through new mutation? Or, through migration from another, already adapted patch? Which is more likely to occur, as a function of distance between the patches? How can we tell which has occurred, i.e. what population genetic signal is left by the spread of migrant alleles and how long does this signal persist for? To answer these questions we decompose the migration{\textendash}selection equilibrium surrounding an already adapted patch into families of migrant alleles, in particular treating those rare families that reach new patches as spatial branching processes. This provides a way to understand the role of geographic separation between patches in promoting convergent adaptation and the genomic signals it leaves behind. We illustrate these ideas using the convergent evolution of cryptic coloration in the rock pocket mouse, Chaetodipus intermedius, as an empirical example.}, URL = {https://www.biorxiv.org/content/early/2014/07/08/006940}, eprint = {https://www.biorxiv.org/content/early/2014/07/08/006940.full.pdf}, journal = {bioRxiv} }