2009
DOI: 10.1016/j.gexplo.2008.03.003
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Contaminant fluxes from point and diffuse sources from abandoned mines in the River Tamar catchment, UK

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Cited by 71 publications
(52 citation statements)
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“…Moreover, metal redistribution in vertical profiles, which reflects to some extent metal transfer from sediments to surface waters, is also related to changes in redox conditions and precipitation with Fe hydroxides (Cappuyns and Swennen 2004;Kraus and Wiegand 2006). Investigations of metal mine-contaminated catchments indicate the role of channel and floodplain sediments as an important diffuse metal source (Owens and Walling 2003;Mighanetara et al 2009). This should be recognised in the context of their spatial variability and the rate of post-depositional metal migration, so as to formulate management and site remediation strategies (Hudson-Edwards et al 1998).…”
Section: Introductionmentioning
confidence: 99%
“…Moreover, metal redistribution in vertical profiles, which reflects to some extent metal transfer from sediments to surface waters, is also related to changes in redox conditions and precipitation with Fe hydroxides (Cappuyns and Swennen 2004;Kraus and Wiegand 2006). Investigations of metal mine-contaminated catchments indicate the role of channel and floodplain sediments as an important diffuse metal source (Owens and Walling 2003;Mighanetara et al 2009). This should be recognised in the context of their spatial variability and the rate of post-depositional metal migration, so as to formulate management and site remediation strategies (Hudson-Edwards et al 1998).…”
Section: Introductionmentioning
confidence: 99%
“…Metals can enter aqueous systems through washout from surface soils, diffuse groundwater inflow, metal-enriched sediments, leaching from agricultural areas and mine tailings, catastrophic tailings dam failure and the discharge of industrial and mining effluents (e.g. Hudson-Edwards 2003;Macklin et al 2006;Mighanetara et al 2009;Inam et al 2011).…”
Section: Introductionmentioning
confidence: 99%
“…Some authors use a collective term AMD or acid drainage (AD) when describing both naturally and anthropogenically induced processes (e.g., Taylor and Wheeler 1994;Nordstrom 2009). The ARD is the source of acidification (pH below 5) and may be associated with the release of sulfates and potentially deleterious metals into the environmental, in particular into waters, sediments, soils, wetlands and biota (e.g., Runkel et al 2007;Cravotta III 2008a, b;Cánovas et al 2008;Cidu et al 2009;Mighanetara et al 2009;Nordstrom 2009Nordstrom , 2011a. The oxidation of pyrite or marcasite and subsequent conversion to sulfuric acid occurs through several reactions, with simplified equations as follows:…”
Section: Introductionmentioning
confidence: 99%