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Quantifying thermal adaptation of soil microbial respiration

Author

Listed:
  • Charlotte J. Alster

    (The University of Waikato
    Lincoln University)

  • Allycia Laar

    (The University of Waikato
    Manaaki Whenua—LandcareResearch)

  • Jordan P. Goodrich

    (The University of Waikato
    Ministry for the Environment)

  • Vickery L. Arcus

    (The University of Waikato)

  • Julie R. Deslippe

    (Victoria University of Wellington)

  • Alexis J. Marshall

    (The University of Waikato)

  • Louis A. Schipper

    (The University of Waikato)

Abstract

Quantifying the rate of thermal adaptation of soil microbial respiration is essential in determining potential for carbon cycle feedbacks under a warming climate. Uncertainty surrounding this topic stems in part from persistent methodological issues and difficulties isolating the interacting effects of changes in microbial community responses from changes in soil carbon availability. Here, we constructed a series of temperature response curves of microbial respiration (given unlimited substrate) using soils sampled from around New Zealand, including from a natural geothermal gradient, as a proxy for global warming. We estimated the temperature optima ( $${T}_{{opt}}$$ T o p t ) and inflection point ( $${T}_{\inf }$$ T inf ) of each curve and found that adaptation of microbial respiration occurred at a rate of 0.29 °C ± 0.04 1SE for $${T}_{{opt}}$$ T o p t and 0.27 °C ± 0.05 1SE for $${T}_{\inf }$$ T inf per degree of warming. Our results bolster previous findings indicating thermal adaptation is demonstrably offset from warming, and may help quantifying the potential for both limitation and acceleration of soil C losses depending on specific soil temperatures.

Suggested Citation

  • Charlotte J. Alster & Allycia Laar & Jordan P. Goodrich & Vickery L. Arcus & Julie R. Deslippe & Alexis J. Marshall & Louis A. Schipper, 2023. "Quantifying thermal adaptation of soil microbial respiration," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-41096-x
    DOI: 10.1038/s41467-023-41096-x
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    References listed on IDEAS

    as
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