Contaminant fluxes from point and diffuse sources from abandoned mines in the River Tamar catchment, UK

K Mighanetara, CB Braungardt, JS Rieuwerts, F Azizi

Research output: Contribution to journalArticlepeer-review

Abstract

Acid mine waters have the potential to seriously impair the environmental quality of aquatic systems long after mining activities have ceased. This detailed study of dissolved and particulate metal fluxes from adits, drains and streams in the River Tamar catchment, southwest England, showed that seven specific sources, of the 25 adits and streams surveyed, accounted for more than 75% each of the 13 t a(-1) Fe, 4.3 t a(-1) Mn, 4.2 t a(-1) Cu, 3.6 t a(-1) Zn and 1.4 t a(-1) As that we estimated to be discharged annually from the abandoned metalliferous mining area centred around Calstock and Gunnislake. Upstream of this study area, widespread multi-metallic mineralisation contributed to the flux of Fe. Mn, As, Co, Cu and Zn within the River Tamar. Simple mass balance calculations indicated that a large proportion (>= 50% for most dissolved and particulate metals) of the metal flux in the River Tamar was unaccounted for by our survey, and therefore is likely to have an important diffuse component, which is subject to ongoing investigations. Potential impacts of mine contamination on the estuarine environment are discussed. The study provided information necessary to prioritise monitoring and remediation efforts in the context of sustainable catchment management. (C) 2008 Elsevier B.V. All rights reserved.
Original languageEnglish
Pages (from-to)116-124
Number of pages0
JournalJournal of Geochemical Exploration
Volume100
Issue number0
DOIs
Publication statusPublished - Feb 2009
EventIMWA Symposium on Water in Mining Environments - Cagliari, ITALY
Duration: 27 May 200731 May 2007

Keywords

  • Metal mine
  • Drainage
  • Point source
  • Diffuse contamination
  • Flux
  • Tamar
  • TRACE-METALS
  • COPPER MINE
  • SW ENGLAND
  • AFON GOCH
  • DRAINAGE
  • ESTUARY
  • BEHAVIOR
  • GEOCHEMISTRY
  • CORNWALL
  • ELEMENT

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