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Faster Atlantic currents drive poleward expansion of temperate phytoplankton in the Arctic Ocean

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  • L. Oziel

    (Ocean and Ecosystem Sciences Division, Bedford Institute of Oceanography, Fisheries and Oceans Canada
    Takuvik International Research Laboratory, Université Laval (Canada) - CNRS (France), Département de biologie et Québec-Océan, Université Laval
    Sorbonne Université & CNRS, Laboratoire d’Océanographie de Villefranche-sur-Mer (LOV))

  • A. Baudena

    (Sorbonne Université, LOCEAN-IPSL, CNRS/IRD/MNHN
    Sorbonne Université & CNRS, Laboratoire d’Océanographie de Villefranche-sur-Mer (LOV))

  • M. Ardyna

    (Sorbonne Université & CNRS, Laboratoire d’Océanographie de Villefranche-sur-Mer (LOV)
    Stanford University)

  • P. Massicotte

    (Takuvik International Research Laboratory, Université Laval (Canada) - CNRS (France), Département de biologie et Québec-Océan, Université Laval)

  • A. Randelhoff

    (Takuvik International Research Laboratory, Université Laval (Canada) - CNRS (France), Département de biologie et Québec-Océan, Université Laval)

  • J.-B. Sallée

    (Sorbonne Université, LOCEAN-IPSL, CNRS/IRD/MNHN)

  • R. B. Ingvaldsen

    (Institute of Marine Research)

  • E. Devred

    (Ocean and Ecosystem Sciences Division, Bedford Institute of Oceanography, Fisheries and Oceans Canada)

  • M. Babin

    (Takuvik International Research Laboratory, Université Laval (Canada) - CNRS (France), Département de biologie et Québec-Océan, Université Laval)

Abstract

The Arctic marine biome, shrinking with increasing temperature and receding sea-ice cover, is tightly connected to lower latitudes through the North Atlantic. By flowing northward through the European Arctic Corridor (the main Arctic gateway where 80% of in- and outflow takes place), the North Atlantic Waters transport most of the ocean heat, but also nutrients and planktonic organisms toward the Arctic Ocean. Using satellite-derived altimetry observations, we reveal an increase, up to two-fold, in North Atlantic current surface velocities over the last 24 years. More importantly, we show evidence that the North Atlantic current and its variability shape the spatial distribution of the coccolithophore Emiliania huxleyi (Ehux), a tracer for temperate ecosystems. We further demonstrate that bio-advection, rather than water temperature as previously assumed, is a major mechanism responsible for the recent poleward intrusions of southern species like Ehux. Our findings confirm the biological and physical “Atlantification” of the Arctic Ocean with potential alterations of the Arctic marine food web and biogeochemical cycles.

Suggested Citation

  • L. Oziel & A. Baudena & M. Ardyna & P. Massicotte & A. Randelhoff & J.-B. Sallée & R. B. Ingvaldsen & E. Devred & M. Babin, 2020. "Faster Atlantic currents drive poleward expansion of temperate phytoplankton in the Arctic Ocean," Nature Communications, Nature, vol. 11(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15485-5
    DOI: 10.1038/s41467-020-15485-5
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    Cited by:

    1. Clara J. M. Hoppe & Niels Fuchs & Dirk Notz & Philip Anderson & Philipp Assmy & Jørgen Berge & Gunnar Bratbak & Gaël Guillou & Alexandra Kraberg & Aud Larsen & Benoit Lebreton & Eva Leu & Magnus Lucas, 2024. "Photosynthetic light requirement near the theoretical minimum detected in Arctic microalgae," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    2. Shigeto Nishino & Jinyoung Jung & Kyoung-Ho Cho & William J. Williams & Amane Fujiwara & Akihiko Murata & Motoyo Itoh & Eiji Watanabe & Michio Aoyama & Michiyo Yamamoto-Kawai & Takashi Kikuchi & Eun J, 2023. "Atlantic-origin water extension into the Pacific Arctic induced an anomalous biogeochemical event," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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