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Understanding the importance of primary tropical forest protection as a mitigation strategy

Author

Listed:
  • Brendan Mackey

    (Griffith University)

  • Cyril F. Kormos

    (Wild Heritage)

  • Heather Keith

    (Griffith University
    Australian National University)

  • William R. Moomaw

    (Tufts University)

  • Richard A. Houghton

    (Woods Hole Research Centre)

  • Russell A. Mittermeier

    (Global Wildlife Conservation)

  • David Hole

    (Conservation International)

  • Sonia Hugh

    (Griffith University)

Abstract

Given the short time-frame to limit global warming, and the current emissions gap, it is critical to prioritise mitigation actions. To date, scant attention has been paid to the mitigation benefits of primary forest protection. We estimated tropical forest ecosystem carbon stocks and flows. The ecosystem carbon stock of primary tropical forests is estimated at 141–159 Pg C (billion tonnes of carbon) which is some 49–53% of all tropical forest carbon, the living biomass component of which alone is 91–103% of the remaining carbon budget to limit global warming to below 1.5 degrees above pre-industrial levels. Furthermore, tropical forests have ongoing sequestration rates 0.47–1.3 Pg C yr−1, equivalent to 8–13% of annual global anthropogenic CO2 (carbon dioxide) emissions. We examined three main forest-based strategies used in the land sector—halting deforestation, increasing forest restoration and improving the sustainable management of production forests. The mitigation benefits of primary forest protection are contingent upon how degradation is defined and accounted for, while those from restoration also depend on how restoration is understood and applied. Through proforestation, reduced carbon stocks in secondary forests can regrow to their natural carbon carrying capacity or primary forest state. We evaluated published data from studies comparing logged and unlogged forests. On average, primary forests store around 35% more carbon. While comparisons are confounded by a range of factors, reported biomass carbon recovery rates were from 40 to 100+ years. There is a substantive portfolio of forest-based mitigation actions and interventions available to policy and decision-makers, depending on national circumstances, in addition to SFM and plantation focused approaches, that can be grouped into four main strategies: protection; proforestation, reforestation and restoration; reform of guidelines, accounting rules and default values; landscape conservation planning. Given the emissions gap, mitigation strategies that merely reduce the rate of emissions against historic or projected reference levels are insufficient. Mitigation strategies are needed that explicitly avoid emissions where possible as well as enabling ongoing sequestration.

Suggested Citation

  • Brendan Mackey & Cyril F. Kormos & Heather Keith & William R. Moomaw & Richard A. Houghton & Russell A. Mittermeier & David Hole & Sonia Hugh, 0. "Understanding the importance of primary tropical forest protection as a mitigation strategy," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 25(5), pages 763-787.
    • Handle: RePEc:spr:masfgc:v:25:y::i:5:d:10.1007_s11027-019-09891-4
    DOI: 10.1007/s11027-019-09891-4
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    References listed on IDEAS

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    3. Coomes, Oliver T. & Cheng, Yuanyu & Takasaki, Yoshito & Abizaid, Christian, 2021. "What drives clearing of old-growth forest over secondary forests in tropical shifting cultivation systems? Evidence from the Peruvian Amazon," Ecological Economics, Elsevier, vol. 189(C).
    4. Mehraj A. Sheikh & Munesh Kumar & N. P. Todaria & Jahangeer A. Bhat & Amit Kumar & Rajiv Pandey, 2021. "Contribution of Cedrus deodara forests for climate mitigation along altitudinal gradient in Garhwal Himalaya, India," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 26(1), pages 1-19, January.

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