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The carbon sink of secondary and degraded humid tropical forests

Author

Listed:
  • Viola H. A. Heinrich

    (University of Bristol
    University of Exeter)

  • Christelle Vancutsem

    (Fincons Group
    Center for International Forestry Research (CIFOR))

  • Ricardo Dalagnol

    (National Institute for Space Research (INPE)
    University of California, Los Angeles (UCLA)
    California Institute of Technology)

  • Thais M. Rosan

    (University of Exeter)

  • Dominic Fawcett

    (University of Exeter)

  • Celso H. L. Silva-Junior

    (University of California, Los Angeles (UCLA)
    California Institute of Technology
    Universidade Federal do Maranhão (UFMA))

  • Henrique L. G. Cassol

    (National Institute for Space Research (INPE)
    University of Edinburgh)

  • Frédéric Achard

    (European Commission)

  • Tommaso Jucker

    (University of Bristol)

  • Carlos A. Silva

    (University of Florida)

  • Jo House

    (University of Bristol)

  • Stephen Sitch

    (University of Exeter)

  • Tristram C. Hales

    (Cardiff University)

  • Luiz E. O. C. Aragão

    (University of Exeter
    National Institute for Space Research (INPE))

Abstract

The globally important carbon sink of intact, old-growth tropical humid forests is declining because of climate change, deforestation and degradation from fire and logging1–3. Recovering tropical secondary and degraded forests now cover about 10% of the tropical forest area4, but how much carbon they accumulate remains uncertain. Here we quantify the aboveground carbon (AGC) sink of recovering forests across three main continuous tropical humid regions: the Amazon, Borneo and Central Africa5,6. On the basis of satellite data products4,7, our analysis encompasses the heterogeneous spatial and temporal patterns of growth in degraded and secondary forests, influenced by key environmental and anthropogenic drivers. In the first 20 years of recovery, regrowth rates in Borneo were up to 45% and 58% higher than in Central Africa and the Amazon, respectively. This is due to variables such as temperature, water deficit and disturbance regimes. We find that regrowing degraded and secondary forests accumulated 107 Tg C year−1 (90–130 Tg C year−1) between 1984 and 2018, counterbalancing 26% (21–34%) of carbon emissions from humid tropical forest loss during the same period. Protecting old-growth forests is therefore a priority. Furthermore, we estimate that conserving recovering degraded and secondary forests can have a feasible future carbon sink potential of 53 Tg C year−1 (44–62 Tg C year−1) across the main tropical regions studied.

Suggested Citation

  • Viola H. A. Heinrich & Christelle Vancutsem & Ricardo Dalagnol & Thais M. Rosan & Dominic Fawcett & Celso H. L. Silva-Junior & Henrique L. G. Cassol & Frédéric Achard & Tommaso Jucker & Carlos A. Silv, 2023. "The carbon sink of secondary and degraded humid tropical forests," Nature, Nature, vol. 615(7952), pages 436-442, March.
    • Handle: RePEc:nat:nature:v:615:y:2023:i:7952:d:10.1038_s41586-022-05679-w
    DOI: 10.1038/s41586-022-05679-w
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    Cited by:

    1. Jakelyne S. Bezerra & Víctor Arroyo-Rodríguez & Ricard Arasa-Gisbert & Jorge A. Meave, 2024. "Multiscale Effects of Slash-and-Burn Agriculture Across the Tropics: Implications for the Sustainability of an Ancestral Agroecosystem," Sustainability, MDPI, vol. 16(22), pages 1-25, November.

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