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Human Health Risk Assessment from Mercury-Contaminated Soil and Water in Abu Hamad Mining Market, Sudan

Ahmed Elwaleed, Huiho Jeong, Ali H. Abdelbagi, Nguyễn Thị Quỳnh, Tetsuro Agusa, Yasuhiro Ishibashi, Koji Arizono

2024Toxics19 citationsDOIOpen Access PDF

Abstract

Artisanal and small-scale gold mining (ASGM) poses a significant global threat due to mercury emissions and resulting health hazards. This study focuses on assessing these risks in the Abu Hamad ASGM community in Sudan. Utilizing the Mercury Analyzer 3000 (NIC), analyses of twelve soil samples (including one tailings sample) and seven water samples revealed the highest concentrations near amalgam burning locations: 34.8 mg/kg in soil (S06) and 3.26 µg/L in water (W03). Concentrations decrease with distance, with soil near burning exceeding tailings (S05 = 19.0 mg/kg). Hazard quotients indicate mercury vapor inhalation as the primary exposure route from soil, with the Hazard Index reaching 5.34 for adults and 33.4 for children close to amalgam burning sites. Water samples generally pose little risk except for W03, where children face potential danger via ingestion (HI = 1.74). These findings emphasize the urgent need for adopting retorts and eco-friendly practices to reduce mercury emissions and protect ASGM communities.

Topics & Concepts

Mercury (programming language)TailingsHazard quotientEnvironmental scienceGold miningHealth hazardEnvironmental chemistrySoil waterContaminationEnvironmental healthHeavy metalsChemistryMedicineEcologySoil scienceBiologyPhysical chemistryProgramming languageComputer scienceMercury impact and mitigation studiesMining and Resource ManagementHeavy Metal Exposure and Toxicity
Human Health Risk Assessment from Mercury-Contaminated Soil and Water in Abu Hamad Mining Market, Sudan | Litcius