Seasonal copepod lipid pump promotes carbon sequestration in the deep North Atlantic

Sigrún Huld Jónasdóttir, André W. Visser, Katherine Richardson, Michael R. Heath

    91 Citations (Scopus)

    Abstract

    Estimates of carbon flux to the deep oceans are essential for our understanding of global carbon budgets. Sinking of detrital material ("biological pump") is usually thought to be the main biological component of this flux. Here, we identify an additional biological mechanism, the seasonal "lipid pump," which is highly efficient at sequestering carbon into the deep ocean. It involves the vertical transport and metabolism of carbon rich lipids by overwintering zooplankton. We show that one species, the copepod Calanus finmarchicus overwintering in the North Atlantic, sequesters an amount of carbon equivalent to the sinking flux of detrital material. The efficiency of the lipid pump derives from a nearcomplete decoupling between nutrient and carbon cycling-a "lipid shunt," and its direct transport of carbon through the mesopelagic zone to below the permanent thermocline with very little attenuation. Inclusion of the lipid pump almost doubles the previous estimates of deep-ocean carbon sequestration by biological processes in the North Atlantic.

    Original languageEnglish
    JournalProceedings of the National Academy of Sciences of the United States of America
    Volume112
    Issue number39
    Pages (from-to)12122-12126
    Number of pages5
    ISSN0027-8424
    DOIs
    Publication statusPublished - 29 Sept 2015

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