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Lead Distribution in Urban Soil in a Medium-Sized City: Household-Scale Analysis

Emmanuel Obeng-Gyasi, Javad Roostaei, Jacqueline MacDonald Gibson

2021Environmental Science & Technology60 citationsDOIOpen Access PDF

Abstract

This study characterizes potential soil lead (Pb) exposure risk at the household scale in Greensboro, North Carolina, using an innovative combination of field sampling, statistical analysis, and machine-learning techniques. Soil samples were collected at the dripline, yard, and street side at 462 households (total sample size = 2310). Samples were analyzed for Pb and then combined with publicly available data on potential historic Pb sources, soil properties, and household and neighborhood demographic characteristics. This curated data set was then analyzed with statistical and machine-learning techniques to identify the drivers of potential soil Pb exposure risks and to build predictive models. Among all samples, 43% exceeded current guidelines for Pb in residential gardens. There were significant racial disparities in potential soil Pb exposure risk; soil Pb at the dripline increased by 19% for every 25% increase in the neighborhood population identifying as Black. A machine-learned Bayesian network model was able to classify residential parcels by risk of exceeding residential gardening standards with excellent reproducibility in cross validation. These findings underscore the need for targeted outreach programs to prevent Pb exposure in residential areas and demonstrate an approach for prioritizing outreach locations.

Topics & Concepts

OutreachEnvironmental scienceScale (ratio)Soil testPopulationSample (material)GeographyEnvironmental healthSoil waterCartographySoil scienceLawChromatographyMedicinePolitical scienceChemistryHeavy Metal Exposure and ToxicityEnvironmental Justice and Health DisparitiesHeavy metals in environment
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