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Diel population and functional synchrony of microbial communities on coral reefs

Author

Listed:
  • Linda Wegley Kelly

    (San Diego State University)

  • Craig E. Nelson

    (University of Hawaiʻi at Mānoa)

  • Andreas F. Haas

    (NIOZ Royal Netherlands Institute for Sea Research and Utrecht University)

  • Douglas S. Naliboff

    (San Diego State University)

  • Sandi Calhoun

    (San Diego State University)

  • Craig A. Carlson

    (University of California)

  • Robert A. Edwards

    (San Diego State University)

  • Michael D. Fox

    (University of California)

  • Mark Hatay

    (San Diego State University)

  • Maggie D. Johnson

    (University of California
    Smithsonian Marine Station)

  • Emily L. A. Kelly

    (University of California)

  • Yan Wei Lim

    (San Diego State University)

  • Saichetana Macherla

    (San Diego State University)

  • Zachary A. Quinlan

    (University of Hawaiʻi at Mānoa)

  • Genivaldo Gueiros Z. Silva

    (San Diego State University)

  • Mark J. A. Vermeij

    (Caribbean Marine Biological Institute (CARMABI)
    University of Amsterdam)

  • Brian Zgliczynski

    (University of California)

  • Stuart A. Sandin

    (University of California)

  • Jennifer E. Smith

    (University of California)

  • Forest Rohwer

    (San Diego State University
    San Diego State University)

Abstract

On coral reefs, microorganisms are essential for recycling nutrients to primary producers through the remineralization of benthic-derived organic matter. Diel investigations of reef processes are required to holistically understand the functional roles of microbial players in these ecosystems. Here we report a metagenomic analysis characterizing microbial communities in the water column overlying 16 remote forereef sites over a diel cycle. Our results show that microbial community composition is more dissimilar between day and night samples collected from the same site than between day or night samples collected across geographically distant reefs. Diel community differentiation is largely driven by the flux of Psychrobacter sp., which is two-orders of magnitude more abundant during the day. Nighttime communities are enriched with species of Roseobacter, Halomonas, and Alteromonas encoding a greater variety of pathways for carbohydrate catabolism, further illustrating temporal patterns of energetic provisioning between different marine microbes. Dynamic diel fluctuations of microbial populations could also support the efficient trophic transfer of energy posited in coral reef food webs.

Suggested Citation

  • Linda Wegley Kelly & Craig E. Nelson & Andreas F. Haas & Douglas S. Naliboff & Sandi Calhoun & Craig A. Carlson & Robert A. Edwards & Michael D. Fox & Mark Hatay & Maggie D. Johnson & Emily L. A. Kell, 2019. "Diel population and functional synchrony of microbial communities on coral reefs," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09419-z
    DOI: 10.1038/s41467-019-09419-z
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