Comparative genomics approach to evolutionary process connectivity
Abstract The influence of species life history traits and historical demography on contemporary connectivity is still poorly understood. However, these factors partly determine the evolutionary responses of species to anthropogenic landscape alterations. Genetic connectivity and its evolutionary out...
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Online Access: | https://doi.org/10.1111/eva.12978 |
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doaj-3b40a51e40d248508c569d83c15bdc8f2020-11-25T02:33:32ZengWileyEvolutionary Applications1752-45712020-07-011361320133410.1111/eva.12978Comparative genomics approach to evolutionary process connectivityPierre‐Alexandre Gagnaire0ISEM Univ Montpellier CNRS EPHE IRD Montpellier FranceAbstract The influence of species life history traits and historical demography on contemporary connectivity is still poorly understood. However, these factors partly determine the evolutionary responses of species to anthropogenic landscape alterations. Genetic connectivity and its evolutionary outcomes depend on a variety of spatially dependent evolutionary processes, such as population structure, local adaptation, genetic admixture, and speciation. Over the last years, population genomic studies have been interrogating these processes with increasing resolution, revealing a large diversity of species responses to spatially structured landscapes. In parallel, multispecies meta‐analyses usually based on low‐genome coverage data have provided fundamental insights into the ecological determinants of genetic connectivity, such as the influence of key life history traits on population structure. However, comparative studies still lack a thorough integration of macro‐ and micro‐evolutionary scales to fully realize their potential. Here, I present how a comparative genomics framework may provide a deeper understanding of evolutionary process connectivity. This framework relies on coupling the inference of long‐term demographic and selective history with an assessment of the contemporary consequences of genetic connectivity. Standardizing this approach across several species occupying the same landscape should help understand how spatial environmental heterogeneity has shaped the diversity of historical and contemporary connectivity patterns in different taxa with contrasted life history traits. I will argue that a reasonable amount of genome sequence data can be sufficient to resolve and connect complex macro‐ and micro‐evolutionary histories. Ultimately, implementing this framework in varied taxonomic groups is expected to improve scientific guidelines for conservation and management policies.https://doi.org/10.1111/eva.12978comparative population genomicsconservation and managementdemographic historygenetic connectivitylife history traitswhole‐genome resequencing |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Pierre‐Alexandre Gagnaire |
spellingShingle |
Pierre‐Alexandre Gagnaire Comparative genomics approach to evolutionary process connectivity Evolutionary Applications comparative population genomics conservation and management demographic history genetic connectivity life history traits whole‐genome resequencing |
author_facet |
Pierre‐Alexandre Gagnaire |
author_sort |
Pierre‐Alexandre Gagnaire |
title |
Comparative genomics approach to evolutionary process connectivity |
title_short |
Comparative genomics approach to evolutionary process connectivity |
title_full |
Comparative genomics approach to evolutionary process connectivity |
title_fullStr |
Comparative genomics approach to evolutionary process connectivity |
title_full_unstemmed |
Comparative genomics approach to evolutionary process connectivity |
title_sort |
comparative genomics approach to evolutionary process connectivity |
publisher |
Wiley |
series |
Evolutionary Applications |
issn |
1752-4571 |
publishDate |
2020-07-01 |
description |
Abstract The influence of species life history traits and historical demography on contemporary connectivity is still poorly understood. However, these factors partly determine the evolutionary responses of species to anthropogenic landscape alterations. Genetic connectivity and its evolutionary outcomes depend on a variety of spatially dependent evolutionary processes, such as population structure, local adaptation, genetic admixture, and speciation. Over the last years, population genomic studies have been interrogating these processes with increasing resolution, revealing a large diversity of species responses to spatially structured landscapes. In parallel, multispecies meta‐analyses usually based on low‐genome coverage data have provided fundamental insights into the ecological determinants of genetic connectivity, such as the influence of key life history traits on population structure. However, comparative studies still lack a thorough integration of macro‐ and micro‐evolutionary scales to fully realize their potential. Here, I present how a comparative genomics framework may provide a deeper understanding of evolutionary process connectivity. This framework relies on coupling the inference of long‐term demographic and selective history with an assessment of the contemporary consequences of genetic connectivity. Standardizing this approach across several species occupying the same landscape should help understand how spatial environmental heterogeneity has shaped the diversity of historical and contemporary connectivity patterns in different taxa with contrasted life history traits. I will argue that a reasonable amount of genome sequence data can be sufficient to resolve and connect complex macro‐ and micro‐evolutionary histories. Ultimately, implementing this framework in varied taxonomic groups is expected to improve scientific guidelines for conservation and management policies. |
topic |
comparative population genomics conservation and management demographic history genetic connectivity life history traits whole‐genome resequencing |
url |
https://doi.org/10.1111/eva.12978 |
work_keys_str_mv |
AT pierrealexandregagnaire comparativegenomicsapproachtoevolutionaryprocessconnectivity |
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