Communications Earth & Environment (Sep 2024)

Mapping forest-based natural climate solutions

  • Colin S. Shanley,
  • Rose A. Graves,
  • C. Ronnie Drever,
  • Michael Schindel,
  • James C. Robertson,
  • Michael J. Case,
  • Tanushree Biswas

DOI
https://doi.org/10.1038/s43247-024-01678-z
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 12

Abstract

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Abstract Natural climate solutions are critical actions of ecosystem stewardship to mitigate climate change. However, prioritizing locations and possible actions is challenging. We demonstrate a generalizable approach for identifying potential opportunities for natural climate solutions by creating a spatial hierarchy of land management restrictions. Global forest carbon stocks and flux models were then used to explore forest-based natural climate solutions in the high-carbon density coastal temperate rainforests of western North America. Our results show 13 million hectares are available for action, an area that holds 4,900 ± 640 megatonnes of carbon dioxide equivalent and represents 45% of regional and 0.5% of global aboveground forest carbon stocks. Based on historical trends, a 10% reduction in average annual forest carbon loss through improved forest management and conservation could reduce forest carbon emissions by 9.1 megatonnes of carbon dioxide equivalent per year, corresponding to 5.2% of the 2030 land-based climate commitments made by the United States and Canada. Large-scale implementation of natural climate solutions will require collaborative planning with forest-dependent communities, industry, governments, and Indigenous peoples.