A study of urban housing demolition as a source of lead in ambient dust on sidewalks, streets, and alleys

We examined changes in ambient dust lead (Pb) levels associated with the demolition of older row houses containing lead paint in Baltimore, MD, USA. Our previous paper describes the three study sites, the demolition processes, and increases in the Pb dustfall rate during demolition (>40-fold) and...

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Bibliographic Details
Published in:Environmental research 2005-10, Vol.99 (2), p.204-213
Main Authors: Farfel, Mark R., Orlova, Anna O., Lees, Peter S.J., Rohde, Charles, Ashley, Peter J., Julian Chisolm, J.
Format: Article
Language:English
Subjects:
Air
Air Pollutants - analysis
Air Pollutants - standards
Biological and medical sciences
Chemical and industrial products toxicology. Toxic occupational diseases
Cities
Construction Materials
Demolition
Dust
Dust - analysis
Environmental Monitoring
Environmental pollutants toxicology
Housing
Lead - analysis
Lead - standards
Lead sources
Maryland
Medical sciences
Metals and various inorganic compounds
Paint
Public Health
Street dust
Toxicology
Urban housing
Urban Renewal
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Summary:We examined changes in ambient dust lead (Pb) levels associated with the demolition of older row houses containing lead paint in Baltimore, MD, USA. Our previous paper describes the three study sites, the demolition processes, and increases in the Pb dustfall rate during demolition (>40-fold) and debris removal (>6-fold) within 10 m of sites where wetting was of limited effectiveness. This paper presents the analysis of settled dust collected using a cyclone device from streets, sidewalks, and alleys within 100 m of study sites before, immediately after, and 1 month after demolition. We found acute increases in Pb loadings and dust loadings after demolition and debris removal that are of public health concern. Streets and alleys had the greatest increases in Pb loadings and the highest levels overall. At one site, geometric mean (GM) Pb loadings immediately after demolition increased 200% for streets to 8080 μg/ft 2, 138% for alleys to 6020 μg/ft 2, and 26% for sidewalks to 2170 μg/ft 2. One month after demolition, the GM Pb loadings for streets, alleys, and sidewalks were reduced on average by 41–67% from postdemolition levels and were below baseline levels for alleys and sidewalks. The other main site had smaller increases in GM Pb loadings immediately after demolition—18% for alleys to 1740 μg/ft 2 and 18% for sidewalks to 2050 μg/ft 2—and a decrease of 29% for streets to 2730 μg/ft 2. Exterior dust is a public health concern because it is a pathway of ambient Pb exposure and a potential source of residential exposure via tracking and reaerosolization and redeposition. Our findings highlight the need to control demolition-related Pb deposition and to educate planners, contractors, and health and housing agencies. This is particularly important given the large numbers of aging US dwellings that will be razed as part of future urban redevelopment efforts.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2004.10.005