Abstract
Abstract Windblown dust is an ongoing air quality and public health concern among residents living around California’s Salton Sea. As particles emitted from different surface types can differ greatly in terms of composition and other properties, variability in the resulting health impacts of windblown particulates may likewise be source dependent. Here we use observed coarse particulate matter (PMc) concentrations and modeled atmospheric back trajectories along with land surface data to estimate individual source region contributions to particulates observed in the Salton Sea region. We then apply these data products to an analysis of source-specific acute cardio-respiratory impacts using a time-stratified case crossover design with conditional logistic regression based on 171,465 hospitalizations cases recorded from 2008 to 2019. Using a remote sensing chlorophyll-a data product, we further investigate the possible influence of periodic bloom events on those hospitalizations. Results suggest that a 10 g/m3 increase in coarse PM coming from over the Salton Sea is associated with a 8.6% (Risk Ratio, RR = 1.086, 95% CI: 1.028 - 1.147) increased risk of respiratory hospitalizations; increases that are greater than those for dust likely originating from other surface types. Furthermore, we find even higher RR values for dust associated with Salton Sea back trajectories during bloom events: a 24.9% (RR = 1.249 95% CI: 1.031 – 1.514) increased risk in respiratory hospitalization. Our findings suggest that exposure to aerosols potentially originating from the Salton Sea or surrounding surfaces is associated with increased respiratory, especially during observed bloom events. Further research is needed to determine the underlying mechanisms responsible for these health impacts, as well as possible primary or secondary preventive strategies.
 

Published Version
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