Biomonitoring of arsenic, cadmium and lead in two artisanal and small-scale gold mining areas in Zimbabwe

Stefan Rakete¹, Given Moonga^{2

3

4}, Anna-Maria Wahl², Viola Mambrey², Dennis Shoko⁵, Dingani Moyo^{6

7}, Shamiso Muteti-Fana⁸, Myriam Tobollik⁹, Nadine Steckling-Muschack², Stephan Bose-O'Reilly^{2

10

11}

Affiliations

¹ Institute and Clinic for Occupational-, Social- and Environmental Medicine, University Hospital, LMU Munich, Ziemssenstr. 1, D-80336, Munich, Germany. stefan.rakete@med.uni-muenchen.de.
² Institute and Clinic for Occupational-, Social- and Environmental Medicine, University Hospital, LMU Munich, Ziemssenstr. 1, D-80336, Munich, Germany.
³ Center for International Health, LMU University Hospital Munich, Munich, Germany.
⁴ Department of Epidemiology and Biostatistics, University of Zambia, Lusaka, Zambia.
⁵ Tailjet Consultancy Services, Harare, Zimbabwe.
⁶ School of Public Health, Faculty of Health Sciences, Occupational Health Division, University of the Witwatersrand, Johannesburg, Republic of South Africa.
⁷ Faculty of Medicine & Faculty of Social Sciences, Midlands State University, Gweru, Zimbabwe.
⁸ Department of Community Medicine, UZ College of Health Sciences, Harare, Zimbabwe.
⁹ Section Environmental Medicine and Health Effects Assessment German Environment Agency, Berlin, Germany.
¹⁰ Institute of Public Health, Medical Decision Making and Health Technology Assessment, Department of Public Health, Health Services Research and Health Technology Assessment, UMIT (Private University for Health Sciences, Medical Informatics and Technology), Hall in Tirol, Austria.
¹¹ University Children's Hospital Regensburg (KUNO-Clinics), Clinic St. Hedwig, University of Regensburg, Regensburg, Germany.

PMID: 34409536
PMCID: PMC8741681
DOI: 10.1007/s11356-021-15940-w

Biomonitoring of arsenic, cadmium and lead in two artisanal and small-scale gold mining areas in Zimbabwe

Stefan Rakete et al. Environ Sci Pollut Res Int. 2022 Jan.

. 2022 Jan;29(3):4762-4768.

doi: 10.1007/s11356-021-15940-w. Epub 2021 Aug 19.

Authors

Affiliations

¹ Institute and Clinic for Occupational-, Social- and Environmental Medicine, University Hospital, LMU Munich, Ziemssenstr. 1, D-80336, Munich, Germany. stefan.rakete@med.uni-muenchen.de.
² Institute and Clinic for Occupational-, Social- and Environmental Medicine, University Hospital, LMU Munich, Ziemssenstr. 1, D-80336, Munich, Germany.
³ Center for International Health, LMU University Hospital Munich, Munich, Germany.
⁴ Department of Epidemiology and Biostatistics, University of Zambia, Lusaka, Zambia.
⁵ Tailjet Consultancy Services, Harare, Zimbabwe.
⁶ School of Public Health, Faculty of Health Sciences, Occupational Health Division, University of the Witwatersrand, Johannesburg, Republic of South Africa.
⁷ Faculty of Medicine & Faculty of Social Sciences, Midlands State University, Gweru, Zimbabwe.
⁸ Department of Community Medicine, UZ College of Health Sciences, Harare, Zimbabwe.
⁹ Section Environmental Medicine and Health Effects Assessment German Environment Agency, Berlin, Germany.
¹⁰ Institute of Public Health, Medical Decision Making and Health Technology Assessment, Department of Public Health, Health Services Research and Health Technology Assessment, UMIT (Private University for Health Sciences, Medical Informatics and Technology), Hall in Tirol, Austria.
¹¹ University Children's Hospital Regensburg (KUNO-Clinics), Clinic St. Hedwig, University of Regensburg, Regensburg, Germany.

PMID: 34409536
PMCID: PMC8741681
DOI: 10.1007/s11356-021-15940-w

Abstract

People living and working in artisanal and small-scale gold mining (ASGM) areas are frequently exposed to elemental mercury (Hg), which is used for gold extraction. However, additional exposure to other toxic metals such as arsenic (As), cadmium (Cd) and lead (Pb) may result from mining-related activities and could be ingested via dust, water or food. In these areas, only limited biomonitoring data is available for toxic metals other than Hg. In particular, data about the exposure to As, Cd and Pb is unavailable for the Zimbabwean population. Therefore, we conducted a cross-sectional study in two ASGM areas in Zimbabwe to evaluate the internal exposure to these metals. In total, urine and blood samples from 207 people that identified themselves as miners were collected and analysed for As and Cd in urine as well as Pb in blood by GF-AAS. Median levels (interquartile ranges in μg/l) of As and Pb were 9.7 μg/l (4.0, 18.5) and 19.7 μg/l (12.5, 34.5), respectively. The 25th percentile and the median for Cd were below the limit of detection (0.5 μg/l); the 75th percentile was at 0.9 μg/l. The results were compared to reference values found for the general population in the USA and Germany, and a significant number of participants exceeded these values (As, 33 %; Cd, 27 %; Pb, 32 %), indicating a relevant exposure to toxic metals. Although not representative for the Zimbabwean population, our results demonstrate that the exposure to toxic metals is relevant for the public health in Zimbabwe and requires further investigation.

Keywords: Arsenic; Artisanal and small-scale gold mining; Biomonitoring; Cadmium; Lead; Toxic metals; Zimbabwe.

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Conflict of interest statement

The authors declare no competing interests.

References

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Biomonitoring of arsenic, cadmium and lead in two artisanal and small-scale gold mining areas in Zimbabwe

Affiliations

Biomonitoring of arsenic, cadmium and lead in two artisanal and small-scale gold mining areas in Zimbabwe

Authors

Affiliations

Abstract

Conflict of interest statement

References

MeSH terms

Substances

Grants and funding

LinkOut - more resources

Full Text Sources

Medical

Research Materials