Predicting species capacity to respond to climate change is an essential first step in developing effective conservation strategies. However, conservation prioritization schemes rarely take evolutionary potential into account. Ecotones provide important opportunities for diversifying selection and may thus constitute important reservoirs of standing variation, increasing the capacity for future adaptation. Here we map patterns of environmentally-associated genomic and craniometric variation in the central African rodent Praomys misonnei to identify areas with the greatest turnover in genomic composition. We also project patterns of environmentally-associated genomic variation under future climate change scenarios to determine where populati...
Preserving biodiversity under rapidly changing climate conditions is challenging. One approach for e...
International audienceWe studied the phylogeographical structure of Praomys misonnei (Rodentia: Muri...
Global climate change is projected to impact multiple levels of biodiversity by imposing strong sele...
Predicting species' capacity to respond to climate change is an essential first step in developing e...
International audienceAimWe investigate the Plio‐Pleistocene evolutionary history of one of the most...
Central African rainforests are predicted to be disproportionately affected by future climate change...
International audienceAim This study aims to elucidate the phylogeography of the murid rodent Praomy...
Understanding historical influences of climate and physiographic barriers in shaping patterns of bio...
International audienceTwo sibling species of the rodent genus Praomys occur in West African forests:...
We studied the phylogeographical structure of Praomys misonnei (Rodentia: Muridae) in west-Central A...
Preserving biodiversity under rapidly changing climate conditions is challenging. One approach for e...
International audienceWe studied the phylogeographical structure of Praomys misonnei (Rodentia: Muri...
Global climate change is projected to impact multiple levels of biodiversity by imposing strong sele...
Predicting species' capacity to respond to climate change is an essential first step in developing e...
International audienceAimWe investigate the Plio‐Pleistocene evolutionary history of one of the most...
Central African rainforests are predicted to be disproportionately affected by future climate change...
International audienceAim This study aims to elucidate the phylogeography of the murid rodent Praomy...
Understanding historical influences of climate and physiographic barriers in shaping patterns of bio...
International audienceTwo sibling species of the rodent genus Praomys occur in West African forests:...
We studied the phylogeographical structure of Praomys misonnei (Rodentia: Muridae) in west-Central A...
Preserving biodiversity under rapidly changing climate conditions is challenging. One approach for e...
International audienceWe studied the phylogeographical structure of Praomys misonnei (Rodentia: Muri...
Global climate change is projected to impact multiple levels of biodiversity by imposing strong sele...