<p>This study evaluated heavy metal contamination and associated health risks in soils from industrial, slum, and mining areas in Liberia. A total of 81 soil samples were collected at predetermined contamination points identified through field reconnaissance of major anthropogenic pollution sources, and at 100 m, and 500 m distances from these points. Concentrations of arsenic (As), cadmium (Cd), lead (Pb), and mercury (Hg) were determined using Atomic Absorption Spectrophotometer (AAS). Highest mean concentrations were observed in the mining area for all metals: As = 425.16 ± 53.88 mg/kg, Cd = 3.80 ± 0.89 mg/kg, Pb = 772.53 ± 108.05 mg/kg, and Hg = 4.24 ± 1.10 mg/kg, decreasing with distance from sources. Industrial and slum zones recorded lower concentrations of As (417.66 ± 119.77 mg/kg and 381.47 ± 107.93 mg/kg, respectively). Health risk assessment indicated that ingestion was the dominant exposure route, with hazard indices (HI) for children exceeding 20 in mining areas (As: 18.9, HI total: 21.3), highlighting their extreme vulnerability. Non-carcinogenic risks for adults were also elevated, particularly for As (HI up to 2.39 in mining soils). Monte Carlo simulations confirmed significant carcinogenic risk, particularly from As and Pb in mining zones. Source apportionment using PMF revealed contributions from mixed urban–industrial emissions and mining activities. Therefore, stricter&#xa0;regulation&#xa0;policies to reduce toxic-based&#xa0;industrial and mining&#xa0;areas exposure levels must be encouraged in Liberia&#xa0;to safeguard public health.</p> Graphical abstract <p></p>

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Spatial distribution and health risk assessment of heavy metals in soils around industrial, slum, and mining areas in Liberia

  • Anthony Saah Tengbeh,
  • Ismail Olawale Akande,
  • Chideraa Courage Offor,
  • Prosper Manu Abdulai,
  • Chiara Frazzoli,
  • Orish Ebere Orisakwe

摘要

This study evaluated heavy metal contamination and associated health risks in soils from industrial, slum, and mining areas in Liberia. A total of 81 soil samples were collected at predetermined contamination points identified through field reconnaissance of major anthropogenic pollution sources, and at 100 m, and 500 m distances from these points. Concentrations of arsenic (As), cadmium (Cd), lead (Pb), and mercury (Hg) were determined using Atomic Absorption Spectrophotometer (AAS). Highest mean concentrations were observed in the mining area for all metals: As = 425.16 ± 53.88 mg/kg, Cd = 3.80 ± 0.89 mg/kg, Pb = 772.53 ± 108.05 mg/kg, and Hg = 4.24 ± 1.10 mg/kg, decreasing with distance from sources. Industrial and slum zones recorded lower concentrations of As (417.66 ± 119.77 mg/kg and 381.47 ± 107.93 mg/kg, respectively). Health risk assessment indicated that ingestion was the dominant exposure route, with hazard indices (HI) for children exceeding 20 in mining areas (As: 18.9, HI total: 21.3), highlighting their extreme vulnerability. Non-carcinogenic risks for adults were also elevated, particularly for As (HI up to 2.39 in mining soils). Monte Carlo simulations confirmed significant carcinogenic risk, particularly from As and Pb in mining zones. Source apportionment using PMF revealed contributions from mixed urban–industrial emissions and mining activities. Therefore, stricter regulation policies to reduce toxic-based industrial and mining areas exposure levels must be encouraged in Liberia to safeguard public health.

Graphical abstract