Speciation and bioaccessibility of mercury in adobe bricks and dirt floors in Huancavelica, Peru

Huancavelica, Peru, a historic cinnabar refining site, is one of the most mercury (Hg)-contaminated urban areas in the world. Exposure is amplified because residents build their adobe brick homes from contaminated soil. The objectives of this study were to compare two Hg-leaching procedures, and the...

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Bibliographic Details
Published in:Environmental geochemistry and health 2015-04, Vol.37 (2), p.263-272
Main Authors: Hagan, Nicole, Robins, Nicholas, Gonzales, Ruben Dario Espinoza, Hsu-Kim, Heileen
Format: Article
Language:English
Subjects:
Bioavailability
Biological Availability
bricks
Building materials
Child
children
Cities
Construction Materials - analysis
Earth and Environmental Science
Environment
Environmental Chemistry
Environmental Exposure - analysis
Environmental Health
Environmental Monitoring
Environmental Pollutants - analysis
Environmental Pollutants - chemistry
floors
Floors and Floorcoverings
gastric juice
Geochemistry
Health risks
Households
Housing
Human exposure
Humans
Ingestion
Leaching
Mercury
Mercury - analysis
Mercury - chemistry
Original Paper
Peru
polluted soils
Public Health
risk
Risk assessment
screening
Soil contamination
Soil Pollutants - analysis
Soil Pollutants - pharmacokinetics
Soil Science & Conservation
Speciation
Terrestrial Pollution
Urban areas
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Summary:Huancavelica, Peru, a historic cinnabar refining site, is one of the most mercury (Hg)-contaminated urban areas in the world. Exposure is amplified because residents build their adobe brick homes from contaminated soil. The objectives of this study were to compare two Hg-leaching procedures, and their application as risk-assessment screening tools in Hg-contaminated adobe brick homes in Huancavelica. The purpose was to evaluate potential health implications, particularly for children, after ingestion of Hg-contaminated particles. Hg was measured in adobe brick and dirt floor samples from 60 households by total Hg extraction, simulated gastric fluid (GF) extraction, and sequential selective extraction (SSE), which provides more detailed data but is resource-intensive. Most of the Hg present in samples was relatively insoluble, although in some households soluble Hg species were present at concentrations that may be of concern after ingestion. A strong correlation was identified between results from simulated GF extraction of adobe bricks and dirt floors and the more soluble fractions of Hg from SSE. Simulated GF extraction data were combined with ingestion and body mass characteristics for small children to compare potential risk of ingestion of Hg-contaminated soil with current health standards. Simulated GF extraction can be used as a risk assessment screening tool for effective allocation of time and resources to households that have measurable concentrations of bioaccessible Hg. Combining simulated GF extraction data with health standards enables intervention strategies targeted at households with the greatest potential health threat from ingestion of Hg-contaminated particles.
ISSN:0269-4042
1573-2983
DOI:10.1007/s10653-014-9644-1