TY - CPAPER T1 - Environmental indicators for acid mine drainage: advances in knowledge and challenges ahead T2 - Mine Closure 2012: Seventh International Conference on Mine Closure AU - Lottermoser, BG ED - Fourie, AB A2 - Fourie, AB ED - Tibbett, M A2 - Tibbett, M DA - 2012/09/25 PY - 2012 PB - Australian Centre for Geomechanics PP - Perth CY - Perth C1 - Perth SP - 3 EP - 12 AB - Environmental indicators are measures to track changes in the quality of the air, water, land and ecological systems. At mine sites, such indicators provide information on conditions and processes that exist or may develop during the life of mine phases and after mine closure. The objectives of this contribution are to review predictive environmental indicators for acid mine drainage (AMD) and to illustrate our advances in knowledge and the challenges ahead. Since the first scientific observations on AMD processes at mine sites hundreds of years ago, we have gained some phenomenal knowledge on indicators and their application in life of mine planning. Yet, today’s AMD indicators still have serious limitations, are riddled with uncertainties that are hard to quantify, or only allow predictions that represent the best estimate of what will happen in the future. The time has come to drastically improve our scientific efforts to precisely predict impacts and closure liabilities on all scales. The route to greater confidence in the prediction of AMD processes is not through more sophisticated modelling. Our skills at modelling have run ahead of our understanding of the complex mineralogical, geochemical and microbiological processes leading to AMD, and our ability to test models against real data from the laboratory and the field. Improvements will come from better environmental tests and better understanding of the underlying processes at individual mine sites. There is reason for optimism that the required progress is possible. Such optimism is based on the phenomenal advances in our ability to predict AMD processes and impacts using environmental indicators. However, detailed studies on the design and validity of new predictive AMD indicators are necessary if we are to achieve more cost-effective mine closure and reduce environmental liabilities in the long term. Such progress also requires the application of AMD indicators at the beginning of the mine life cycle and well before mine closure. In future, life of mine plans including closure plans should be based on less verbiage and fragmented environmental knowledge, a greater use of scientific data and environmental indicators, and a much improved knowledge of environmental processes. This has to include the early use of AMD indicators, most appropriately from the exploration stage onwards. UR - https://papers.acg.uwa.edu.au/p/1208_01_Lottermoser/ ER - DO - 10.36487/ACG_rep/1208_01_Lottermoser