Environmental DNA reveals a multi‐taxa biogeographic break across the Arabian Sea and Sea of Oman

  • Joseph D. DiBattista
    Australian Museum Research Institute Australian Museum Sydney New South Wales Australia
  • Michael L. Berumen
    Red Sea Research Center Division of Biological and Environmental Science and Engineering King Abdullah University of Science and Technology Thuwal Saudi Arabia
  • Mark A. Priest
    Five Oceans Environmental Services LLC Muscat Sultanate of Oman
  • Maarten De Brauwer
    CSIRO Coasts and Ocean Research Program Hobart Tasmania Australia
  • Darren J. Coker
    Red Sea Research Center Division of Biological and Environmental Science and Engineering King Abdullah University of Science and Technology Thuwal Saudi Arabia
  • Tane H. Sinclair‐Taylor
    Red Sea Research Center Division of Biological and Environmental Science and Engineering King Abdullah University of Science and Technology Thuwal Saudi Arabia
  • Amanda Hay
    Australian Museum Research Institute Australian Museum Sydney New South Wales Australia
  • Gerd Bruss
    Department of Marine Science and Fisheries College of Agricultural and Marine Sciences Sultan Qaboos University Muscat Sultanate of Oman
  • Shawky Mansour
    Geography Department College of Arts and Social Sciences Sultan Qaboos University Muscat Sultanate of Oman
  • Michael Bunce
    School of Molecular and Life Sciences Curtin University Perth Western Australia Australia
  • Christopher H. R. Goatley
    Australian Museum Research Institute Australian Museum Sydney New South Wales Australia
  • Matthew Power
    School of Molecular and Life Sciences Curtin University Perth Western Australia Australia
  • Alyssa Marshell
    Department of Marine Science and Fisheries College of Agricultural and Marine Sciences Sultan Qaboos University Muscat Sultanate of Oman

書誌事項

公開日
2021-09-20
権利情報
  • http://creativecommons.org/licenses/by/4.0/
DOI
  • 10.1002/edn3.252
公開者
Wiley

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説明

<jats:title>Abstract</jats:title><jats:p>Environmental DNA (eDNA) is increasingly being used to assess community composition in marine ecosystems. Applying eDNA approaches across broad spatial scales now provide the potential to inform biogeographic analyses. However, to date, few studies have employed this technique to assess broad biogeographic patterns across multiple taxonomic groups. Here, we compare eDNA‐derived communities of bony fishes and invertebrates, including corals and sponges, from 15 locations spanning the entire length of the Omani coast. This survey includes a variety of habitats, including coral and rocky reefs, and covers three distinct marine ecoregions. Our data support a known biogeographic break in fish communities between the north and the south of Oman; however, the eDNA data highlight that this faunal break is mostly reflected in schooling baitfish species (e.g., sardines and anchovies), whereas reef‐associated fish communities appear more homogeneous along this coastline. Furthermore, our data provide indications that these biogeographic breaks also affect invertebrate communities, which includes corals, sponges, and broader eukaryotic groups. The observed community shifts were correlated with local environmental and anthropogenic differences characteristic of this coastline, particularly for the eDNA‐derived bony fish communities. Overall, this study provides compelling support that eDNA sequencing and associated analyses may serve as powerful tools to detect community differences across biogeographic breaks and ecoregions, particularly in places where there is significant variation in oceanographic conditions or anthropogenic impacts.</jats:p>

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