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Mucospheres produced by a mixotrophic protist impact ocean carbon cycling

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Listed:
  • Michaela E. Larsson

    (University of Technology Sydney)

  • Anna R. Bramucci

    (University of Technology Sydney)

  • Sinead Collins

    (University of Edinburgh)

  • Gustaaf Hallegraeff

    (University of Tasmania, Private Bag 129)

  • Tim Kahlke

    (University of Technology Sydney)

  • Jean-Baptiste Raina

    (University of Technology Sydney)

  • Justin R. Seymour

    (University of Technology Sydney)

  • Martina A. Doblin

    (University of Technology Sydney
    Sydney Institute of Marine Science)

Abstract

Mixotrophic protists (unicellular eukaryotes) that engage in both phototrophy (photosynthesis) and phago-heterotrophy (engulfment of particles)—are predicted to contribute substantially to energy fluxes and marine biogeochemical cycles. However, their impact remains largely unquantified. Here we describe the sophisticated foraging strategy of a widespread mixotrophic dinoflagellate, involving the production of carbon-rich ‘mucospheres’ that attract, capture, and immobilise microbial prey facilitating their consumption. We provide a detailed characterisation of this previously undescribed behaviour and reveal that it represents an overlooked, yet quantitatively significant mechanism for oceanic carbon fluxes. Following feeding, the mucospheres laden with surplus prey are discarded and sink, contributing an estimated 0.17–1.24 mg m−2 d−1 of particulate organic carbon, or 0.02–0.15 Gt to the biological pump annually, which represents 0.1–0.7% of the estimated total export from the euphotic zone. These findings demonstrate how the complex foraging behaviour of a single species of mixotrophic protist can disproportionally contribute to the vertical flux of carbon in the ocean.

Suggested Citation

  • Michaela E. Larsson & Anna R. Bramucci & Sinead Collins & Gustaaf Hallegraeff & Tim Kahlke & Jean-Baptiste Raina & Justin R. Seymour & Martina A. Doblin, 2022. "Mucospheres produced by a mixotrophic protist impact ocean carbon cycling," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28867-8
    DOI: 10.1038/s41467-022-28867-8
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    References listed on IDEAS

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    1. Philip W. Boyd & Hervé Claustre & Marina Levy & David A. Siegel & Thomas Weber, 2019. "Multi-faceted particle pumps drive carbon sequestration in the ocean," Nature, Nature, vol. 568(7752), pages 327-335, April.
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