Asthma exacerbation due to climate change-induced wildfire smoke in the Western US
Climate change and human activities have drastically altered the natural wildfire balance in the
Western US and increased population health risks due to exposure to pollutants from fire smoke.
Using dynamically downscaled climate model projections, we estimated additional asthma
emergency room visits and hospitalizations due to exposure to smoke fine particulate matter
(PM2.5) in the Western US in the 2050s. Isolating the amount of PM2.5 from wildfire smoke is both
difficult to estimate and, thus, utilized by relatively few studies. In this study, we use a sophisticated
modeling approach to estimate future increase in wildfire smoke exposure over the reference
period (2003–2010) and subsequent health care burden due to asthma exacerbation. Average
increases in smoke PM2.5 during future fire season ranged from 0.05 to 9.5 µg m−3 with the highest
increases seen in Idaho, Montana, and Oregon. Using the Integrated Climate and Land-Use
Scenarios (ICLUS) A2 scenario, we estimated the smoke-related asthma events could increase at a
rate of 15.1 visits per 10 000 persons in the Western US, with the highest rates of increased asthma
(25.7–41.9 per 10 000) in Idaho, Montana, Oregon, and Washington. Finally, we estimated
healthcare costs of smoke-induced asthma exacerbation to be over $1.5 billion during a single
future fire season. Here we show the potential future health impact of climate-induced wildfire
activity, which may serve as a key tool in future climate change mitigation and adaptation planning.