• Title of article

    Chemical Characteristics of Discharges from Two Derelict Coal Mine Sites in Enugu Nigeria: Implication for Pollution and Acid Mine Drainage

  • Author/Authors

    Akpan, Lauren Department of Geology - University of Port Harcourt - Port Harcourt, Nigeria , Celestine Tse, Akaha Department of Geology - University of Port Harcourt - Port Harcourt, Nigeria , Dumbari Giadom, Ferdinand Department of Geology - University of Port Harcourt - Port Harcourt, Nigeria , Adamu, Christopher Iorfa Department of Geology - University of Calabar - Calabar, Nigeria

  • Pages
    23
  • From page
    89
  • To page
    111
  • Abstract
    In this study, the chemical composition of water and sediments contiguous to two abandoned coal mines in southeastern Nigeria, were assessed to determine the impact on the geoenvironment and potential for acid mine drainage (AMD). Parameters including the pH, anions and cations, and the heavy metals were measured. These were used to evaluate contamination/pollution using hybrid factors including Pollution Load Index, factors, enrichment factors, pollution load index and index of geoaccumulation. The pH range of 3.4 to 5.9 classified the water as weakly to strongly acidic, typical of AMD. The SO42– ion, which indicates pollution by mine waters, showed moderate to high concentrations. Iron, zinc lead and copper were the most abundant heavy metals. Pollution Load Index values were greater than unity which shows progressive deterioration in water and sediment quality. The Enrichment Factor values of up to 1 indicated enrichment through lithogenic and anthropogenic sources. The mine dumps serve as pools that can release toxic heavy metals into the water bodies by various processes of remobilization. Based on the lithology, mineralogy, chemical concentrations and environmental factors, the study has shown that there exists a potential for the generation of AMD. The heavy metals enriched mine flow, especially iron, empty into the nearby water bodies which serve as sources of municipal water supply. Consumption of untreated water over a prolonged period from these water sources may be detrimental to health. Remedial measure and continuous monitoring are recommended for good environmental stewardship.
  • Keywords
    Acid mine drainage , Discharges , Derelict mines , Pollution , Fossil fuel
  • Journal title
    Journal of Mining and Environment
  • Serial Year
    2021
  • Record number

    2686829