Moderating effects of past wildfire on reburn severity depend on climate and initial severity in Western US forests

Rising global fire activity is increasing the prevalence of repeated short‐interval burning (reburning) in forests worldwide. In forests that historically experienced frequent‐fire regimes, high‐severity fire exacerbates the severity of subsequent fires by increasing prevalence of shrubs and/or by creating drier understory conditions. Low‐ to moderate‐severity fire, in contrast, can moderate future fire behavior by reducing fuel loads. The extent to which previous fires moderate future fire severity will powerfully affect fire‐prone forest ecosystem trajectories over the next century. Further, knowing where and when a wildfire may act as a landscape‐scale fuel treatment can help direct pre‐ and post‐fire management efforts. We leverage satellite imagery and fire progression mapping to model reburn dynamics within forests that initially burned at low/moderate severity in 726 unique fire pair events over a 36‐year period across four large fire‐prone Western US ecoregions. We ask (1) how strong are the moderating effects of low‐ to moderate‐severity fire on future fire severity, (2) how long do moderating effects last, and (3) how does the time between fires (a proxy for fuel accumulation) interact with initial fire severity, day‐of‐burning weather conditions, and climate to influence reburn severity. Short‐interval reburns primarily occurred in dry‐ and moist‐mixed conifer forests with historically frequent‐fire regimes. Previous fire moderated reburn severity in all ecoregions with the strongest effects occurring in the California Coast and Western Mountains and the average duration of moderating effects ranging from 13 years in the Western Mountains to >36 years in the California Coast. The strength and duration of moderating effects depended on climate and initial fire severity in some regions, reflecting differences in post‐fire fuel accumulation. In the California Coast, moderating effects lasted longer in cooler and wetter forests. In the Western Mountains, moderating effects were stronger and longer lasting in forests that initially burned at higher severity. Moderating effects were largely robust to fire weather, suggesting that previous fire can mediate future fire severity even under extreme conditions. Our findings demonstrate that low‐ to moderate‐severity fire buffers future fire severity in historically frequent‐fire forests, underlining the importance of wildfire as a restoration tool for adapting to global change.