Barriers to gene flow in the deepest ocean ecosystems: Evidence from global population genomics of a cosmopolitan amphipod

The deepest marine ecosystem, the hadal zone, hosts endemic biodiversity resulting from geographic isolation and environmental selection pressures. However, the pan-ocean distribution of some fauna challenges the concept that the hadal zone is a series of isolated island-like habitats. Whether this...

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Bibliographic Details
Published in:Science advances 2022-10, Vol.8 (43), p.eabo6672-eabo6672
Main Authors: Weston, Johanna N. J., Jensen, Evelyn L., Hasoon, Megan S. R., Kitson, James J. N., Stewart, Heather A., Jamieson, Alan J.
Format: Article
Language:English
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Summary:The deepest marine ecosystem, the hadal zone, hosts endemic biodiversity resulting from geographic isolation and environmental selection pressures. However, the pan-ocean distribution of some fauna challenges the concept that the hadal zone is a series of isolated island-like habitats. Whether this remains true at the population genomic level is untested. We investigated phylogeographic patterns of the amphipod, Bathycallisoma schellenbergi , from 12 hadal features across the Pacific, Atlantic, Indian, and Southern oceans and analyzed genome-wide single-nucleotide polymorphism markers and two mitochondrial regions. Despite a cosmopolitan distribution, populations were highly restricted to individual features with only limited gene flow between topographically connected features. This lack of connectivity suggests that populations are on separate evolutionary trajectories, with evidence of potential cryptic speciation at the Atacama Trench. Together, this global study demonstrates that the shallower ocean floor separating hadal features poses strong barriers to dispersal, driving genetic isolation and creating pockets of diversity to conserve. Population genomics of an amphipod supports that the ocean’s deepest ecosystems host isolated pockets of endemic biodiversity.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.abo6672