Children’s personal exposure to PM10 and associated metals in urban, rural and mining activity areas

•Personal exposure may not always be high in mining areas compared with urban areas.•Children’s personal exposure to PM10 was highly variable in the study areas.•PM10 was not shown to influence hair metals concentrations.•Hair Mn concentrations were elevated in the mining area.•No significant predic...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2014-08, Vol.108, p.125-133
Main Authors: Hinwood, Andrea, Callan, Anna C., Heyworth, Jane, McCafferty, Peter, Sly, Peter D.
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
Air. Soil. Water. Waste. Feeding
Analysis. Health state
Biological and medical sciences
Biological measures
Child
Children
Environment. Living conditions
Environmental Exposure - analysis
Epidemiology
Female
General aspects
Hair - chemistry
Humans
Iron ore dust
Male
Medical sciences
Metals
Metals, Heavy - analysis
Mining
Particulate Matter - analysis
Personal exposure
PM10
Public health. Hygiene
Public health. Hygiene-occupational medicine
Rural Population
Seasons
Urbanization
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Summary:•Personal exposure may not always be high in mining areas compared with urban areas.•Children’s personal exposure to PM10 was highly variable in the study areas.•PM10 was not shown to influence hair metals concentrations.•Hair Mn concentrations were elevated in the mining area.•No significant predictors of exposure were identified in this small study. There has been limited study of children’s personal exposure to PM10 and associated metals in rural and iron ore mining activity areas where PM10 concentrations can be very high. We undertook a small study of 70 children where 13 children were recruited in an area of iron ore mining processing and shipping, 15 children from an area in the same region with no mining activities, and 42 children in an urban area. Each child provided a 24h personal exposure PM10 sample, a first morning void urine sample, a hair sample, time activity diary, and self administered questionnaire. Children’s 24h personal PM10 concentrations were low (median of 28μgm−3 in the mining area; 48μgm−3 in the rural area and 45μgm−3 in the urban area) with corresponding outdoor PM10 concentrations also low. Some very high personal PM10 concentrations were recorded for individuals (>300μgm−3) with the highest concentrations recorded in the mining and rural areas in the dry season. PM10 concentrations were highly variable. Hair aluminium, cadmium and manganese concentrations were higher in the iron ore activity area, while hair mercury, copper and nickel concentrations were higher in the urban area. Factors such as season and ventilation appear to be important but this study lacked power to confirm this. These results need to be confirmed by a larger study and the potential for absorption of the metals needs to be established along with the factors that increase exposures and the potential for health risks arising from exposure.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2014.02.071