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Drought, tree mortality, and wildfire in forests adapted to frequent fire

Posted date: January 23, 2018
Publication Year: 
2018
Authors: Stephens, Scott L; Collins, Brandon M; Fettig, Christopher J; Finney, Mark A.; Hoffman, Chad M; Knapp, Eric E; North, Malcolm P; Safford, Hugh; Wayman, Rebecca B
Publication Series: 
Scientific Journal (JRNL)
Source: BioScience. 68(2): 77-88

Abstract

Massive tree mortality has occurred rapidly in frequent-fire-adapted forests of the Sierra Nevada, California. This mortality is a product of acute drought compounded by the long-established removal of a key ecosystem process: frequent, low- to moderate-intensity fire. The recent tree mortality has many implications for the future of these forests and the ecological goods and services they provide to society. Future wildfire hazard following this mortality can be generally characterized by decreased crown fire potential and increased surface fire intensity in the short to intermediate term. The scale of present tree mortality is so large that greater potential for "mass fire" exists in the coming decades, driven by the amount and continuity of dry, combustible, large woody material that could produce large, severe fires. For long-term adaptation to climate change, we highlight the importance of moving beyond triage of dead and dying trees to making "green" (live) forests more resilient.

Citation

Stephens, Scott L; Collins, Brandon M; Fettig, Christopher J; Finney, Mark A; Hoffman, Chad M; Knapp, Eric E; North, Malcolm P; Safford, Hugh; Wayman, Rebecca B. 2018. Drought, Tree Mortality, and Wildfire in Forests Adapted to Frequent Fire. BioScience. 68(2): 77-88. https://doi.org/10.1093/biosci/bix146.
National Strategic Program Areas: 
Wildland Fire and Fuels