Planting seedlings on cooler, wetter microsites may also help to increase survival. When and where post-fire planting is an option, planting different genetic stock than has been used in the past may increase seedling survival.
Where fuel treatments are less effective (wetter, high-elevation, and coastal forests), managers may consider implementing fuel breaks around high-value resources. However, fuel treatments, when implemented in a spatially strategic manner, can help to decrease fire intensity and severity and improve forest resilience to fire, insects, and drought. Resource managers will likely be unable to affect the total area burned by fire, as this trend is driven strongly by climate. Hotter, drier sites may be particularly at risk for regeneration failures. Reburns are also likely to occur more frequently with warming and drought, with potential effects on tree regeneration and species composition.
#Fires in pacific northwest drivers#
Interactions between fire and other disturbances, such as drought and insect outbreaks, are likely to be the primary drivers of ecosystem change in a warming climate. According to projections based on historical records, current trends, and simulation modeling, protracted warmer and drier conditions will drive lower fuel moisture and longer fire seasons in the future, likely increasing the frequency and extent of fires compared to the twentieth century. Large and severe fires in the Pacific Northwest are associated with warm and dry conditions, and such conditions will likely occur with increasing frequency in a warming climate. We frame this information in a risk assessment context, and conclude with management implications and future research needs. This paper synthesizes understanding of the potential effects of changing climate and fire regimes on Pacific Northwest forests, including effects on disturbance and stress interactions, forest structure and composition, and post-fire ecological processes. Wildfires in the Pacific Northwest (Washington, Oregon, Idaho, and western Montana, USA) have been immense in recent years, capturing the attention of resource managers, fire scientists, and the general public.