New study: Patchy longleaf pine regeneration changes fuels and fire behavior
Longleaf pine ecosystems depend on frequent fire which changes competitive and growth dynamics of the ecosystem. However, fire behavior is complex and driven by complex feedbacks between fire effects, fuels, and vegetation. In an intensive field study, we investigated how dense patches of longleaf pine regeneration can change fuels and fire behavior compared to regenerating saplings occuring singly. We found that regeneration have altered fuels, and often reduced fire behavior in a manner that likely shapes spatial dynamics in the ecosystem
New study: Predicting spatial patterns of litter fuels for fire behavior modeling
UGA graduate and Landscape Ecology lab alumnus Suzie Blaydes recently published a new article in the journal Fire Ecology. The article uses long-term data and geospatial methods to predict litter fall in longleaf pine forests. The findings will contribute to the next generation of spatilly-explicit fuel and fire models