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Innovative wood use can enable carbon-beneficial forest management in California

Bodie Cabiyo, Jeremy S. Fried, Brandon M. Collins, William Stewart, Jun Wong, Daniel L. Sanchez

2021Proceedings of the National Academy of Sciences53 citationsDOIOpen Access PDF

Abstract

Significance Natural carbon sinks can help mitigate climate change, but climate risks—like increased wildfire—threaten forests’ capacity to store carbon. California has recently set ambitious forest management goals to reduce these risks. However, management can incur carbon losses because wood residues are often burnt or left to decay. This study applies a systems approach to assess climate change mitigation potential and wildfire outcomes across forest management scenarios and several wood products. We find that innovative use of wood residues supports extensive wildfire hazard reduction and maximizes carbon benefits. Long-lived products that displace carbon-intensive alternatives have the greatest benefits, including wood building products. Our results suggest a low-cost pathway to reduce carbon emissions and support climate adaptation in temperate forests.

Topics & Concepts

Forest managementCarbon fibersEnvironmental scienceBusinessAgroforestryForestryGeographyMaterials scienceComposite numberComposite materialFire effects on ecosystemsForest Management and PolicyForest ecology and management
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