Abstract
This paper summarizes international state-of-the-art applications and opportunities for employing and deploying hydrological, geochemical, and isotopic tools in an integrated manner for investigations of mining operations. It is intended to aid formulation of more integrated approaches for evaluating the overall sustainability of mining projects. The focus is particularly on mine waters, including: environmental water sources, mine water dynamics, and as a source and vector for pollution in the wider environment. The guidance is generic to mining projects and not just reflective of a particular extraction (e.g. coal, metalliferous, uranium) industry. A mine life cycle perspective has been adopted to highlight the potential for more integrated investigations at each stage of a mining operation. Three types of mines have been considered: new (i.e. those in the planning stage), active (i.e. working mines), and historical mines (i.e. inactive and abandoned mines). The practical usage of geochemical analyses and isotopic studies described here emphasise characterisation, dynamics, and process understanding for water quality considerations in tandem with water resource and environmental impact implications. Both environmental (i.e. ambient) and applied (i.e. injected) tracers are considered. This guide is written for scientists (including isotope specialists) who have limited or no mine water experience, environmental managers, planners, consultants, and regulators with key interests in planned, active, and legacy mining projects.
Highlights
Our primary objective with this paper is to provide relevant information on integrating hydrological/hydraulic, hydrogeochemical, and isotopic tools regarding characterization, monitoring, and remediation of metal and coal mine sites
This paper was initiated by the IAEA Vienna based on a need by member states to understand ground- and mine water issues and the use of isotope tools for the identification of environmental problems related to mine sites
Written for scientists, environmental managers on mine sites, consultants, and regulators who wish to answer questions with tools other than mine water statistics, thermodynamics, and numerical modelling. Given that it is intended for such a broad audience with various areas of expertise, we anticipate that some sections, though needed by some readers, will be too basic for others; feel free to skip over such sections
Summary
Our primary objective with this paper is to provide relevant information on integrating hydrological/hydraulic, hydrogeochemical, and isotopic tools regarding characterization, monitoring, and remediation of metal and coal mine sites. This paper was initiated by the IAEA Vienna based on a need by member states to understand ground- and mine water issues and the use of isotope tools for the identification of environmental problems related to mine sites. It is not meant for an experienced mine water researcher, but for someone who needs to know the basics of mine water.
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