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Personal exposures to fine particulate matter and black carbon in households cooking with biomass fuels in rural Ghana.
Van Vliet, Eleanne D S; Asante, Kwakupoku; Jack, Darby W; Kinney, Patrick L; Whyatt, Robin M; Chillrud, Steven N; Abokyi, Livesy; Zandoh, Charles; Owusu-Agyei, Seth.
Affiliation
  • Van Vliet ED; Mailman School of Public Health, Columbia University, 722 West 168th Street, 11th Floor, Room 1104E, New York, NY, USA. Electronic address: ev2117@columbia.edu.
Environ Res ; 127: 40-8, 2013 Nov.
Article in En | MEDLINE | ID: mdl-24176411
OBJECTIVE: To examine cooking practices and 24-h personal and kitchen area exposures to fine particulate matter (PM2.5) and black carbon in cooks using biomass in Ghana. METHODS: Researchers administered a detailed survey to 421 households. In a sub-sample of 36 households, researchers collected 24-h integrated PM2.5 samples (personal and kitchen area); in addition, the primary cook was monitored for real-time PM2.5. All filters were also analyzed for black carbon using a multi-wavelength reflectance method. Predictors of PM2.5 exposure were analyzed, including cooking behaviors, fuel, stove and kitchen type, weather, demographic factors and other smoke sources. RESULTS: The majority of households cooked outdoors (55%; 231/417), used biomass (wood or charcoal) as their primary fuel (99%; 412/413), and cooked on traditional fires (77%, 323/421). In the sub-sample of 29 households with complete, valid exposure monitoring data, the 24-h integrated concentrations of PM2.5 were substantially higher in the kitchen sample (mean 446.8 µg/m3) than in the personal air sample (mean 128.5 µg/m3). Black carbon concentrations followed the same pattern such that concentrations were higher in the kitchen sample (14.5 µg/m3) than in the personal air sample (8.8 µg/m3). Spikes in real-time personal concentrations of PM2.5 accounted for the majority of exposure; the most polluted 5%, or 72 min, of the 24-h monitoring period accounted for 75% of all exposure. Two variables that had some predictive power for personal PM2.5 exposures were primary fuel type and ethnicity, while reported kerosene lantern use was associated with increased personal and kitchen area concentrations of black carbon. CONCLUSION: Personal concentrations of PM2.5 exhibited considerable inter-subject variability across kitchen types (enclosed, semi-enclosed, outdoor), and can be elevated even in outdoor cooking settings. Furthermore, personal concentrations of PM2.5 were not associated with kitchen type and were not predicted by kitchen area samples; rather they were driven by spikes in PM2.5 concentrations during cooking. Personal exposures were more enriched with black carbon when compared to kitchen area samples, underscoring the need to explore other sources of incomplete combustion such as roadway emissions, charcoal production and kerosene use.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Air Pollution, Indoor / Cooking / Particulate Matter / Biofuels Type of study: Prognostic_studies Limits: Adult / Female / Humans / Male / Middle aged Country/Region as subject: Africa Language: En Journal: Environ Res Year: 2013 Document type: Article Country of publication: Netherlands

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Air Pollution, Indoor / Cooking / Particulate Matter / Biofuels Type of study: Prognostic_studies Limits: Adult / Female / Humans / Male / Middle aged Country/Region as subject: Africa Language: En Journal: Environ Res Year: 2013 Document type: Article Country of publication: Netherlands