Personal exposures to fine particulate matter and carbon monoxide in relation to cooking activities in rural Malawi

Saleh, Sepeedeh ORCID: 0000-0003-1944-1677, Sambakunsi, Henry, Makina, Debora, Chinouya, Martha ORCID: 0000-0001-7744-0061, Kumwenda, Moses, Chirombo, James ORCID: 0000-0003-3132-3710, Semple, Sean ORCID: 0000-0002-0462-7295, Mortimer, Kevin and Rylance, Jamie ORCID: 0000-0002-2323-3611 (2023) Personal exposures to fine particulate matter and carbon monoxide in relation to cooking activities in rural Malawi. Wellcome Open Research, 7. p. 251.

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Official URL: http://dx.doi.org/10.12688/wellcomeopenres.18050.2

Abstract

<ns7:p><ns7:bold>Background: </ns7:bold>Air pollution is a major environmental risk factor for cardiorespiratory disease. Exposures to household air pollution from cooking and other activities, are particularly high in Southern Africa. Following an extended period of participant observation in a village in Malawi, we aimed to assess individuals’ exposures to fine particulate matter (PM<ns7:sub>2.5</ns7:sub>) and carbon monoxide (CO) and to investigate the different sources of exposure, including different cooking methods.</ns7:p><ns7:p> <ns7:bold>Methods: </ns7:bold>Adult residents of a village in Malawi wore personal PM<ns7:sub>2.5</ns7:sub> and CO monitors for 24-48 hours, sampling every 1 (CO) or 2 minutes (PM<ns7:sub>2.5</ns7:sub>). Subsequent in-person interviews recorded potential exposure details over the time periods. We present means and interquartile ranges for overall exposures and summaries stratified by time and activity (exposure). We employed multivariate regression to further explore these characteristics, and Spearman rank correlation to examine the relationship between paired PM<ns7:sub>2.5</ns7:sub> and CO exposures.</ns7:p><ns7:p> <ns7:bold>Results</ns7:bold><ns7:bold>: </ns7:bold>Twenty participants (17 female; median age 40 years, IQR: 37–56) provided 831 hours of paired PM<ns7:sub>2.5</ns7:sub> and CO data. Concentrations of PM<ns7:sub>2.5</ns7:sub> during combustion activity, usually cooking, far exceeded background levels (no combustion activity): 97.9μg/m<ns7:sup>3</ns7:sup> (IQR: 22.9–482.0), vs 7.6μg/m<ns7:sup>3</ns7:sup>, IQR: 2.5–20.6 respectively. Background PM<ns7:sub>2.5</ns7:sub> concentrations were higher during daytime hours (11.7μg/m<ns7:sup>3</ns7:sup> [IQR: 5.2–30.0] vs 3.3μg/m<ns7:sup>3</ns7:sup> at night [IQR: 0.7–8.2]). Highest exposures were influenced by cooking location but associated with charcoal use (for CO) and firewood on a three-stone fire (for PM<ns7:sub>2.5</ns7:sub>). Cooking-related exposures were higher in more ventilated places, such as outside the household or on a walled veranda, than during indoor cooking.</ns7:p><ns7:p> <ns7:bold>Conclusions</ns7:bold><ns7:bold>: </ns7:bold>The study demonstrates the value of combining personal PM<ns7:sub>2.5</ns7:sub> exposure data with detailed contextual information for providing deeper insights into pollution sources and influences. The finding of similar/lower exposures during cooking in seemingly less-ventilated places should prompt a re-evaluation of proposed clean air interventions in these settings.</ns7:p>

Item Type:	Article
Divisions:	Faculty of Health and Life Sciences Faculty of Health and Life Sciences > Institute of Population Health
Depositing User:	Symplectic Admin
Date Deposited:	27 Apr 2023 08:47
Last Modified:	27 Apr 2023 08:47
DOI:	10.12688/wellcomeopenres.18050.2
Open Access URL:	https://wellcomeopenresearch.org/articles/7-251/v2
Related URLs:	Publisher
URI:	https://livrepository.liverpool.ac.uk/id/eprint/3170015