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Mapping carbon accumulation potential from global natural forest regrowth

Author

Listed:
  • Susan C. Cook-Patton

    (The Nature Conservancy
    Smithsonian Environmental Research Center)

  • Sara M. Leavitt

    (The Nature Conservancy)

  • David Gibbs

    (World Resources Institute)

  • Nancy L. Harris

    (World Resources Institute)

  • Kristine Lister

    (World Resources Institute)

  • Kristina J. Anderson-Teixeira

    (Smithsonian Conservation Biology Institute
    Smithsonian Tropical Research Institute)

  • Russell D. Briggs

    (State University of New York, College of Environmental Science and Forestry)

  • Robin L. Chazdon

    (World Resources Institute
    University of Connecticut
    University of the Sunshine Coast)

  • Thomas W. Crowther

    (ETH Zurich)

  • Peter W. Ellis

    (The Nature Conservancy)

  • Heather P. Griscom

    (James Madison University)

  • Valentine Herrmann

    (Smithsonian Conservation Biology Institute)

  • Karen D. Holl

    (University of California Santa Cruz)

  • Richard A. Houghton

    (Woods Hole Research Center)

  • Cecilia Larrosa

    (University of Oxford)

  • Guy Lomax

    (University of Exeter)

  • Richard Lucas

    (Aberystwyth University)

  • Palle Madsen

    (InNovaSilva ApS)

  • Yadvinder Malhi

    (University of Oxford)

  • Alain Paquette

    (Université du Québec à Montréal, Montreal)

  • John D. Parker

    (Smithsonian Environmental Research Center)

  • Keryn Paul

    (CSIRO Land and Water)

  • Devin Routh

    (ETH Zurich)

  • Stephen Roxburgh

    (CSIRO Land and Water)

  • Sassan Saatchi

    (Jet Propulsion Laboratory, National Aeronautics and Space Administration)

  • Johan Hoogen

    (ETH Zurich)

  • Wayne S. Walker

    (Woods Hole Research Center)

  • Charlotte E. Wheeler

    (University of Edinburgh)

  • Stephen A. Wood

    (Yale University)

  • Liang Xu

    (Jet Propulsion Laboratory, National Aeronautics and Space Administration)

  • Bronson W. Griscom

    (Conservation International)

Abstract

To constrain global warming, we must strongly curtail greenhouse gas emissions and capture excess atmospheric carbon dioxide1,2. Regrowing natural forests is a prominent strategy for capturing additional carbon3, but accurate assessments of its potential are limited by uncertainty and variability in carbon accumulation rates2,3. To assess why and where rates differ, here we compile 13,112 georeferenced measurements of carbon accumulation. Climatic factors explain variation in rates better than land-use history, so we combine the field measurements with 66 environmental covariate layers to create a global, one-kilometre-resolution map of potential aboveground carbon accumulation rates for the first 30 years of natural forest regrowth. This map shows over 100-fold variation in rates across the globe, and indicates that default rates from the Intergovernmental Panel on Climate Change (IPCC)4,5 may underestimate aboveground carbon accumulation rates by 32 per cent on average and do not capture eight-fold variation within ecozones. Conversely, we conclude that maximum climate mitigation potential from natural forest regrowth is 11 per cent lower than previously reported3 owing to the use of overly high rates for the location of potential new forest. Although our data compilation includes more studies and sites than previous efforts, our results depend on data availability, which is concentrated in ten countries, and data quality, which varies across studies. However, the plots cover most of the environmental conditions across the areas for which we predicted carbon accumulation rates (except for northern Africa and northeast Asia). We therefore provide a robust and globally consistent tool for assessing natural forest regrowth as a climate mitigation strategy.

Suggested Citation

  • Susan C. Cook-Patton & Sara M. Leavitt & David Gibbs & Nancy L. Harris & Kristine Lister & Kristina J. Anderson-Teixeira & Russell D. Briggs & Robin L. Chazdon & Thomas W. Crowther & Peter W. Ellis & , 2020. "Mapping carbon accumulation potential from global natural forest regrowth," Nature, Nature, vol. 585(7826), pages 545-550, September.
    • Handle: RePEc:nat:nature:v:585:y:2020:i:7826:d:10.1038_s41586-020-2686-x
    DOI: 10.1038/s41586-020-2686-x
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    Cited by:

    1. Desanka Lazic & Cornelia Geßner & Katharina J. Liepe & Isabelle Lesur-Kupin & Malte Mader & Céline Blanc-Jolivet & Dušan Gömöry & Mirko Liesebach & Santiago C. González-Martínez & Matthias Fladung & B, 2024. "Genomic variation of European beech reveals signals of local adaptation despite high levels of phenotypic plasticity," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    2. Jacob J. Bukoski & Susan C. Cook-Patton & Cyril Melikov & Hongyi Ban & Jessica L. Chen & Elizabeth D. Goldman & Nancy L. Harris & Matthew D. Potts, 2022. "Rates and drivers of aboveground carbon accumulation in global monoculture plantation forests," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    3. Jing Zhao & Hui Hu & Jinglei Wang, 2022. "Forest Carbon Reserve Calculation and Comprehensive Economic Value Evaluation: A Forest Management Model Based on Both Biomass Expansion Factor Method and Total Forest Value," IJERPH, MDPI, vol. 19(23), pages 1-15, November.
    4. Etienne Lorang & Antonello Lobianco & Philippe Delacote, 2023. "Increasing Paper and Cardboard Recycling: Impacts on the Forest Sector and Carbon Emissions," Post-Print hal-03832461, HAL.
    5. Yangjian Zhang & Li Wang & Quan Zhou & Feng Tang & Bo Zhang & Ni Huang & Biswajit Nath, 2022. "Continuous Change Detection and Classification—Spectral Trajectory Breakpoint Recognition for Forest Monitoring," Land, MDPI, vol. 11(4), pages 1-20, March.
    6. Chu, Long & Grafton, R. Quentin & Nguyen, Hai, 2022. "A global analysis of the break-even prices to reduce atmospheric carbon dioxide via forest plantation and avoided deforestation," Forest Policy and Economics, Elsevier, vol. 135(C).
    7. Robin R. Sears & Manuel R. Guariguata & Peter Cronkleton & Cristina Miranda Beas, 2021. "Strengthening Local Governance of Secondary Forest in Peru," Land, MDPI, vol. 10(12), pages 1-16, November.
    8. Monica L. Noon & Allie Goldstein & Juan Carlos Ledezma & Patrick R. Roehrdanz & Susan C. Cook-Patton & Seth A. Spawn-Lee & Timothy Maxwell Wright & Mariano Gonzalez-Roglich & David G. Hole & Johan Roc, 2022. "Mapping the irrecoverable carbon in Earth’s ecosystems," Nature Sustainability, Nature, vol. 5(1), pages 37-46, January.
    9. Zhen Yu & Shirong Liu & Haikui Li & Jingjing Liang & Weiguo Liu & Shilong Piao & Hanqin Tian & Guoyi Zhou & Chaoqun Lu & Weibin You & Pengsen Sun & Yanli Dong & Stephen Sitch & Evgenios Agathokleous, 2024. "Maximizing carbon sequestration potential in Chinese forests through optimal management," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    10. Qiming Zheng & Tim Ha & Alexander V. Prishchepov & Yiwen Zeng & He Yin & Lian Pin Koh, 2023. "The neglected role of abandoned cropland in supporting both food security and climate change mitigation," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    11. Susan C. Cook-Patton & C. Ronnie Drever & Bronson W. Griscom & Kelley Hamrick & Hamilton Hardman & Timm Kroeger & Pablo Pacheco & Shyla Raghav & Martha Stevenson & Chris Webb & Samantha Yeo & Peter W., 2021. "Protect, manage and then restore lands for climate mitigation," Nature Climate Change, Nature, vol. 11(12), pages 1027-1034, December.
    12. Debojyoti Chakraborty & Albert Ciceu & Dalibor Ballian & Marta Benito Garzón & Andreas Bolte & Gregor Bozic & Rafael Buchacher & Jaroslav Čepl & Eva Cremer & Alexis Ducousso & Julian Gaviria & Jan Pet, 2024. "Assisted tree migration can preserve the European forest carbon sink under climate change," Nature Climate Change, Nature, vol. 14(8), pages 845-852, August.
    13. Natalia Hasler & Christopher A. Williams & Vanessa Carrasco Denney & Peter W. Ellis & Surendra Shrestha & Drew E. Terasaki Hart & Nicholas H. Wolff & Samantha Yeo & Thomas W. Crowther & Leland K. Werd, 2024. "Accounting for albedo change to identify climate-positive tree cover restoration," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    14. Wei Tu & Wei Wang & Qin-Pu Liu & Ming-Hsiang Chen & Mark Beattie, 2024. "Environmental risks from tourism carbon emissions in China," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 26(10), pages 25049-25069, October.

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