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Full-Text Articles in Life Sciences
Large-Diameter Trees Dominate Snag And Surface Biomass Following Reintroduced Fire, James A. Lutz, Soren Struckman, Tucker J. Furniss, C. Alina Cansler, Sara J. Germain, Larissa L. Yocom Kent, Darren Mcavoy, Crystal A. Kolden, Alistair M. S. Smith, Mark E. Swanson, Andrew J. Larson
Large-Diameter Trees Dominate Snag And Surface Biomass Following Reintroduced Fire, James A. Lutz, Soren Struckman, Tucker J. Furniss, C. Alina Cansler, Sara J. Germain, Larissa L. Yocom Kent, Darren Mcavoy, Crystal A. Kolden, Alistair M. S. Smith, Mark E. Swanson, Andrew J. Larson
Wildland Resources Faculty Publications
The reintroduction of fire to landscapes where it was once common is considered a priority to restore historical forest dynamics, including reducing tree density and decreasing levels of woody biomass on the forest floor. However, reintroducing fire causes tree mortality that can have unintended ecological outcomes related to woody biomass, with potential impacts to fuel accumulation, carbon sequestration, subsequent fire severity, and forest management. In this study, we examine the interplay between fire and carbon dynamics by asking how reintroduced fire impacts fuel accumulation, carbon sequestration, and subsequent fire severity potential. Beginning pre-fire, and continuing 6 years post-fire, we tracked …