Data

COI sequences of Ophiontous victoriae and O. hexactis

James Cook University
Lau, Cheuk Ying ; Strugnell, Jan
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=https://researchdata.jcu.edu.au//published/565c5240a00e11ecadc7cd125c4cc081&rft.title=COI sequences of Ophiontous victoriae and O. hexactis&rft.identifier=https://researchdata.jcu.edu.au//published/565c5240a00e11ecadc7cd125c4cc081&rft.publisher=James Cook University&rft.description=Assembled and aligned COI sequences of Ophiontous victoriae and O. hexactis [Abstract: Related publication]: The drivers behind evolutionary innovations such as contrasting life histories and morphological change are central questions of evolutionary biology. However, the environmental and ecological contexts linked to evolutionary innovations are generally unclear. During the Pleistocene glacial cycles, grounded ice sheets expanded across the Southern Ocean continental shelf. Limited ice-free areas remained, and fauna were isolated from other refugial populations. Survival in Southern Ocean refugia could present opportunities for ecological adaptation and evolutionary innovation. Here, we reconstructed the phylogeographic patterns of circum-Antarctic brittle stars Ophionotus victoriae and O. hexactis with contrasting life histories (broadcasting vs brooding) and morphology (5 vs 6 arms). We examined the evolutionary relationship between the two species using cytochrome c oxidase subunit I (COI) data. COI data suggested that O. victoriae is a single species (rather than a species complex) and is closely related to O. hexactis (a separate species). Since their recent divergence in the mid-Pleistocene, O. victoriae and O. hexactis likely persisted differently throughout glacial maxima, in deep-sea and Antarctic island refugia, respectively. Genetic connectivity, within and between the Antarctic continental shelf and islands, was also observed and could be linked to the Antarctic Circumpolar Current and local oceanographic regimes. Signatures of a probable seascape corridor linking connectivity between the Scotia Sea and Prydz Bay are also highlighted. We suggest that survival in Antarctic island refugia was associated with increase in arm number and a switch from broadcast spawning to brooding in O. hexactis, and propose that it could be linked to environmental changes (such as salinity) associated with intensified interglacial-glacial cycles. Software/equipment used to create/collect the data: Sanger sequencing  Software/equipment used to manipulate/analyse the data: Geneious v10.2.4 for sequence assembly and alignment The full methods including Sections 2.1 (Sample collection) and 2.2 ( Molecular sequencing) are available in the Open Access publication from the Related publications link below. &rft.creator=Lau, Cheuk Ying &rft.creator=Strugnell, Jan &rft.date=2022&rft.relation=https://doi.org/10.1002/ece3.8376&rft.coverage=&rft_rights=NCBI places no restrictions on the use or distribution of data&rft_subject=contrasting life histories&rft_subject=evolutionary innovations&rft_subject=glacial refugia&rft_subject=morphological innovation&rft_subject=population genetics &rft.type=dataset&rft.language=English Access the data

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Assembled and aligned COI sequences of Ophiontous victoriae and O. hexactis

[Abstract: Related publication]: The drivers behind evolutionary innovations such as contrasting life histories and morphological change are central questions of evolutionary biology. However, the environmental and ecological contexts linked to evolutionary innovations are generally unclear. During the Pleistocene glacial cycles, grounded ice sheets expanded across the Southern Ocean continental shelf. Limited ice-free areas remained, and fauna were isolated from other refugial populations. Survival in Southern Ocean refugia could present opportunities for ecological adaptation and evolutionary innovation. Here, we reconstructed the phylogeographic patterns of circum-Antarctic brittle stars Ophionotus victoriae and Ohexactis with contrasting life histories (broadcasting vs brooding) and morphology (5 vs 6 arms). We examined the evolutionary relationship between the two species using cytochrome c oxidase subunit I (COI) data. COI data suggested that Ovictoriae is a single species (rather than a species complex) and is closely related to Ohexactis (a separate species). Since their recent divergence in the mid-Pleistocene, Ovictoriae and Ohexactis likely persisted differently throughout glacial maxima, in deep-sea and Antarctic island refugia, respectively. Genetic connectivity, within and between the Antarctic continental shelf and islands, was also observed and could be linked to the Antarctic Circumpolar Current and local oceanographic regimes. Signatures of a probable seascape corridor linking connectivity between the Scotia Sea and Prydz Bay are also highlighted. We suggest that survival in Antarctic island refugia was associated with increase in arm number and a switch from broadcast spawning to brooding in Ohexactis, and propose that it could be linked to environmental changes (such as salinity) associated with intensified interglacial-glacial cycles.

Software/equipment used to create/collect the data: Sanger sequencing 

Software/equipment used to manipulate/analyse the data: Geneious v10.2.4 for sequence assembly and alignment

The full methods including Sections 2.1 (Sample collection) and 2.2 ( Molecular sequencing) are available in the Open Access publication from the Related publications link below.

Created: 2022-03-25

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