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Extreme sensitivity of biological function to temperature in Antarctic marine species

Authors

  • LLOYD S. PECK,

    Corresponding author
    1. Natural Environment Research Council British Antarctic Survey, High Cross, Madingley Road, Cambridge CB3 0ET, UK
      ‡Author to whom correspondence should be addressed: L.S. Peck, NERC British Antarctic Survey, High Cross, Madingley Road, Cambridge, CB3 0ET, UK, E-mail: l.peck@bas.ac.uk.
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  • KAREN E. WEBB,

    1. Natural Environment Research Council British Antarctic Survey, High Cross, Madingley Road, Cambridge CB3 0ET, UK
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  • DAVID M. BAILEY

    1. Oceanlab, University of Aberdeen, Newburgh, Aberdeenshire, AB41 6AA, UK
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‡Author to whom correspondence should be addressed: L.S. Peck, NERC British Antarctic Survey, High Cross, Madingley Road, Cambridge, CB3 0ET, UK, E-mail: l.peck@bas.ac.uk.

Summary

  • 1Biological capacities to respond to changing environments dictate success or failure of populations and species over time. The major environmental feature in this context is often temperature, and organisms across the planet vary widely in their capacity to cope with temperature variation. With very few exceptions, Antarctic marine species are more sensitive to temperature variation than marine groups elsewhere, having survivable temperature envelopes between 5 °C and 12 °C above the minimum sea temperature of −2 °C.
  • 2Our findings show that in biological functions important to long-term survival these animals are even more tightly constrained. The Antarctic bivalve mollusc Laternula elliptica and limpet Nacella concinna both survive a few days in experiments at 9–10 °C, but suffer 50% failure in essential biological activities at 2–3 °C and complete loss at 5 °C. The Antarctic scallop Adamussium colbecki is even more sensitive, and loses the ability to swim as temperature approaches 2 °C.
  • 3These failures of activity are caused by a loss of aerobic capacity, and the animals investigated are so sensitive that a 2 °C rise in sea temperature could cause population or species removal from the Southern Ocean.

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