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Soil carbon loss by experimental warming in a tropical forest

Author

Listed:
  • Andrew T. Nottingham

    (University of Edinburgh
    Smithsonian Tropical Research Institute)

  • Patrick Meir

    (University of Edinburgh
    Australian National University)

  • Esther Velasquez

    (Smithsonian Tropical Research Institute)

  • Benjamin L. Turner

    (Smithsonian Tropical Research Institute)

Abstract

Tropical soils contain one-third of the carbon stored in soils globally1, so destabilization of soil organic matter caused by the warming predicted for tropical regions this century2 could accelerate climate change by releasing additional carbon dioxide (CO2) to the atmosphere3–6. Theory predicts that warming should cause only modest carbon loss from tropical soils relative to those at higher latitudes5,7, but there have been no warming experiments in tropical forests to test this8. Here we show that in situ experimental warming of a lowland tropical forest soil on Barro Colorado Island, Panama, caused an unexpectedly large increase in soil CO2 emissions. Two years of warming of the whole soil profile by four degrees Celsius increased CO2 emissions by 55 per cent compared to soils at ambient temperature. The additional CO2 originated from heterotrophic rather than autotrophic sources, and equated to a loss of 8.2 ± 4.2 (one standard error) tonnes of carbon per hectare per year from the breakdown of soil organic matter. During this time, we detected no acclimation of respiration rates, no thermal compensation or change in the temperature sensitivity of enzyme activities, and no change in microbial carbon-use efficiency. These results demonstrate that soil carbon in tropical forests is highly sensitive to warming, creating a potentially substantial positive feedback to climate change.

Suggested Citation

  • Andrew T. Nottingham & Patrick Meir & Esther Velasquez & Benjamin L. Turner, 2020. "Soil carbon loss by experimental warming in a tropical forest," Nature, Nature, vol. 584(7820), pages 234-237, August.
    • Handle: RePEc:nat:nature:v:584:y:2020:i:7820:d:10.1038_s41586-020-2566-4
    DOI: 10.1038/s41586-020-2566-4
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    Cited by:

    1. 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.
    2. Jaehyun Lee & Youmi Oh & Sang Tae Lee & Yeon Ok Seo & Jeongeun Yun & Yerang Yang & Jinhyun Kim & Qianlai Zhuang & Hojeong Kang, 2023. "Soil organic carbon is a key determinant of CH4 sink in global forest soils," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    3. Iain P. Hartley & Tim C. Hill & Sarah E. Chadburn & Gustaf Hugelius, 2021. "Temperature effects on carbon storage are controlled by soil stabilisation capacities," Nature Communications, Nature, vol. 12(1), pages 1-7, December.
    4. Jessica Stubenrauch & Beatrice Garske & Felix Ekardt & Katharina Hagemann, 2022. "European Forest Governance: Status Quo and Optimising Options with Regard to the Paris Climate Target," Sustainability, MDPI, vol. 14(7), pages 1-35, April.
    5. Shuai Ren & Tao Wang & Bertrand Guenet & Dan Liu & Yingfang Cao & Jinzhi Ding & Pete Smith & Shilong Piao, 2024. "Projected soil carbon loss with warming in constrained Earth system models," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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