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Climate change-driven cooling can kill marine megafauna at their distributional limits

Author

Listed:
  • Nicolas Lubitz

    (James Cook University
    Biopixel Oceans Foundation)

  • Ryan Daly

    (Oceanographic Research Institute
    South African Institute for Aquatic Biodiversity (SAIAB))

  • Amy F. Smoothey

    (Fisheries Research, Sydney Institute of Marine Science)

  • Patrick Vianello

    (Nelson Mandela University)

  • Michael J. Roberts

    (Nelson Mandela University
    University of Southampton)

  • David S. Schoeman

    (University of the Sunshine Coast
    Nelson Mandela University)

  • Marcus Sheaves

    (James Cook University)

  • Paul D. Cowley

    (South African Institute for Aquatic Biodiversity (SAIAB))

  • Laurent Dagorn

    (IRD)

  • Fabien G. Forget

    (IRD)

  • Marc Soria

    (IRD)

  • Victor M. Peddemors

    (Fisheries Research, Sydney Institute of Marine Science)

  • John D. Filmalter

    (South African Institute for Aquatic Biodiversity (SAIAB))

  • Paul A. Butcher

    (National Marine Science Centre
    Southern Cross University)

  • Greg Brett

    (Honorary Research Associate of Natural History East London Museum)

  • Adam Barnett

    (James Cook University
    Biopixel Oceans Foundation)

Abstract

The impacts on marine species from secular warming and heatwaves are well demonstrated; however, the impacts of extreme cold events are poorly understood. Here we link the death of organisms from 81 species to an intense cold upwelling event in the Agulhas Current, and show trends of increasing frequency and intensification of upwelling in the Agulhas Current and East Australian Current. Using electronic tagging, we illustrate the potential impacts of upwelling events on the movement behaviour of bull sharks Carcharhinus leucas, including alterations of migratory patterns and maintenance of shallower dive profiles when transiting through upwelling cells. Increasing upwelling could result in ‘bait and switch’ situations, where climate change expands subtropical species’ distribution, while simultaneously exposing climate migrants to an increased risk of cold-mortality events at poleward distributional limits. This shows the potential impacts of increased cold events, an understudied aspect of climate change research, and highlights the complexities of climate change effects on marine ecosystems.

Suggested Citation

  • Nicolas Lubitz & Ryan Daly & Amy F. Smoothey & Patrick Vianello & Michael J. Roberts & David S. Schoeman & Marcus Sheaves & Paul D. Cowley & Laurent Dagorn & Fabien G. Forget & Marc Soria & Victor M. , 2024. "Climate change-driven cooling can kill marine megafauna at their distributional limits," Nature Climate Change, Nature, vol. 14(5), pages 526-535, May.
    • Handle: RePEc:nat:natcli:v:14:y:2024:i:5:d:10.1038_s41558-024-01966-8
    DOI: 10.1038/s41558-024-01966-8
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