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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: Spatial predictors of heavy metal concentrations in epiphytic moss samples in Seattle, WA.

Authors: Kondo, Michelle C; Zuidema, Christopher; Moran, Hector A; Jovan, Sarah; Derrien, Monika; Brinkley, Weston; De Roos, Anneclaire J; Tabb, Loni Philip

Published In Sci Total Environ, (2022 Jun 15)

Abstract: The use of bio-indicators is an emerging, cost-effective alternative approach to identifying air pollution and assessing the need for additional air monitoring. This community science project explores the use of moss samples as bio-indicators of the distribution of metal air particulates in two residential neighborhoods of the industrial Duwamish Valley located in Seattle, WA (USA). We applied geographically weighted regression to data from 61 youth-collected samples to assess the location-specific area-level spatial predictors of the concentrations of 25 elements with focus on five heavy metals of concern due to health and environmental considerations. Spatial predictors included traffic volume, industrial land uses, major roadways, the airport, dirt roads, the Duwamish River, impervious surfaces, tree canopy cover, and sociodemographics. Traffic volume surrounding sample locations was the most consistent positive predictor of increasing heavy metal concentration. Greater distance from the heavy-industry corridor surrounding the Duwamish River predicted lower concentrations of all metals, with statistically significant associations for chromium and lead in some areas. As the distance from dirt roads increased, the concentration of arsenic and chromium decreased significantly. Percent tree canopy within 200 m of sample locations was a significant protective factor for cadmium concentrations. In addition, percent people of color was significantly positively associated with increasing lead, chromium and nickel concentrations. Our findings underscore the potential influence of heavy industry and mobile sources on heavy metal concentrations, the buffering potential of trees in local environments, and persistent opportunity to improve environmental justice.

PubMed ID: 35151745 Exiting the NIEHS site

MeSH Terms: No MeSH terms associated with this publication

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