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Lead Speciation, Bioaccessibility, and Sources for a Contaminated Subset of House Dust and Soils Collected from Similar United States Residences

Tyler D. Sowers, Matthew D. Blackmon, Richard T. Wilkin, Matt Rovero, Sharon Bone, Marissa L. Jerden, Clay Nelson, Karen D. Bradham

2024Environmental Science & Technology15 citationsDOIOpen Access PDF

Abstract

Residential lead (Pb) exposure is of critical concern to families globally as Pb promotes severe neurological effects in children, especially those less than 5 years old, and no blood lead level is deemed safe by the US Center for Disease Control. House dust and soils are commonly thought to be important sources of Pb exposure. Probing the relationship between house dust and soil Pb is critical to understanding residential exposure, as Pb bioavailability is highly influenced by Pb sources and/or species. We investigated paired house dust and soil collected from homes built before 1978 to determine Pb speciation, source, and bioaccessibility with the primary goal of assessing chemical factors driving Pb exposure in residential media. House dust was predominately found to contain (hydro)cerussite (i.e., Pb (hydroxy)carbonate) phases commonly used in Pb-based paint that, in-turn, promoted elevated bioaccessibility (>60%). Pb X-ray absorption spectroscopy, μ-XRF mapping, and Pb isotope ratio analysis for house dust and soils support house dust Pb as chemically unique compared to exterior soils, although paint Pb is expected to be a major source for both. Soil pedogenesis and increased protection from environmental conditions (e.g., weathering) in households is expected to greatly impact Pb phase differences between house dust and soils, subsequently dictating differences in Pb exposure.

Topics & Concepts

Lead (geology)Genetic algorithmContaminationEnvironmental scienceSoil waterLead exposureEnvironmental chemistryLead pollutionBiologyChemistryPollutionEcologyMedicineSoil scienceInternal medicineCATSPaleontologyHeavy metals in environmentHeavy Metal Exposure and ToxicityMercury impact and mitigation studies