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Health Impacts of Future Prescribed Fire Smoke: Considerations from an Exposure Scenario in California
Citation:
Rappold, A. Health Impacts of Future Prescribed Fire Smoke: Considerations from an Exposure Scenario in California. International Society of Environmental Epidemiology, Kaohsiung, TAIWAN, PROVINCE OF CHINA, September 17 - 22, 2023.
Impact/Purpose:
o The question of future health burden is significant in the state of California in light of forest management agencies’ plan to dramatically increase use of prescribed fire to mitigate the growing wildfire crisis. o This study addresses issues at the intersection of climate change, air quality and human impacts and it addresses one of the most pressing environmental problems.
Description:
In response to increasing wildfire risks, California plans to expand the use of prescribed fire. We characterized the anticipated change in health impacts from exposure to smoke under a future fire-management scenario relative to a historical period (2008-2016). Using dispersion models, we estimated daily fine particulate matter (PM2.5) emissions from hypothetical future prescribed fires on 500,000-acres classified as high priority areas. To evaluate health impacts, we calculated excess daily cardiorespiratory emergency department visit rates attributed to all-source PM2.5 in the historical period. The total burden was differentiated by fire type and by smoke strata-specific days to calculate strata-specific burden rates. The estimated burden rates were then applied to estimate the burden in the future scenarios. This analysis suggests that the exposure to prescribed fire smoke, measured as the number of persons exposed per year, would be 15 times greater in the future. However, these exposures were associated with lower concentrations compared to the historical period. The increased number of exposure days led to an overall increase in the future health burden. Specifically, the northern-central and southern coastal regions experienced the largest burden increase. This study introduces an approach that integrates spatiotemporal exposure differences, baseline morbidity, and population size to assess the impacts of prescribed fire under a future scenario. The findings highlight the need to consider both the level and frequency of exposure to guide strategies to safeguard public health as well as to aid forest management agencies in making informed decisions to protect communities while mitigating wildfire risks.