Human health risk of mercury in street dust: A case study of children in the vicinity of compact fluorescence lamp factory, Hanoi, Vietnam.
Quang Phan DinhSylvester Addai-ArhinHuiho JeongWilly Cahya NugrahaPham Hung VietNobuaki TominagaYasuhiro IshibashiKoji ArizonoPublished in: Journal of applied toxicology : JAT (2021)
Urban dust has been contaminated with toxic heavy metals from various diffused sources. On August 28, 2019, the compact fluorescence lamp (CFL) factory that generates light for Rang Dong Light Source and Vacuum Flask in Hanoi City in Vietnam was accidentally fired. The assessment for Hg contamination and its human health impact 2 months after the incident was conducted in autumn 2019. The heavy Hg pollution is still found near CFL. Additionally, localized Hg pollution by air and wind direction was identified at sites in the northeast direction from CFL. Namely, in the area located downstream of the southwest monsoon wind, Hg had a trend higher than other directions. The hazard quotient (HQ) and the hazard index (HI) were evaluated by four routes of Hg exposure pathways. The HI values for children and adults in the most polluted site (Site 15) were 0.968 and 0.468, respectively. This meant that children who lived around this site and commuted to schools were the most at risk regarding the potential adverse health effects of Hg in street dust around the polluted areas. This study also showed that Hg levels were affected by wind direction and that the higher Hg levels in the most polluted sites resulted from the wind flow to the sites. This study revealed that street dust may be a useful tool for the assessment of human and environmental health.
Keyphrases
- human health
- risk assessment
- heavy metals
- fluorescent probe
- health risk assessment
- climate change
- health risk
- living cells
- aqueous solution
- young adults
- healthcare
- cardiovascular disease
- sewage sludge
- drinking water
- endothelial cells
- emergency department
- type diabetes
- health information
- induced pluripotent stem cells
- quantum dots
- energy transfer