Geochemical, physical and microbiological controls on zinc mobility and implications for bioremediation strategies in Western Tasmanian acid mine drainage. We propose to study heavy metal pollution (e.g., zinc, arsenic, iron, tin) and biogeochemical processes operating in acid mine drainage at the abandoned Mt Bischoff tin mine in Western Tasmania. The drainage waters at this site have pH values as low as 2, but contain an extensive and thriving natural biological community. We will evaluate w ....Geochemical, physical and microbiological controls on zinc mobility and implications for bioremediation strategies in Western Tasmanian acid mine drainage. We propose to study heavy metal pollution (e.g., zinc, arsenic, iron, tin) and biogeochemical processes operating in acid mine drainage at the abandoned Mt Bischoff tin mine in Western Tasmania. The drainage waters at this site have pH values as low as 2, but contain an extensive and thriving natural biological community. We will evaluate whether the natural biogeochemical processes operating at Mt Bischoff have the potential to remediate mine waters under the full gamut of climatic conditions, so as to evaluate whether the biota could be exported to other mine sites to help in ameliorating acid drainage problems.Read moreRead less
Interactions between sulfur, nitrogen, and iron cycles in the sustainable management and use of acid sulfate soils. Acid Sulfate Soils (ASS) can cause major land management and environmental problems. It has been proposed that the linkages between the Sulfur, Nitrogen, and Iron biogeochemical cycles deterrmine the environmental and crop production hazards associated with use of ASS. In order to develop best management practices for ASS, it is important to research those linkages and determine th ....Interactions between sulfur, nitrogen, and iron cycles in the sustainable management and use of acid sulfate soils. Acid Sulfate Soils (ASS) can cause major land management and environmental problems. It has been proposed that the linkages between the Sulfur, Nitrogen, and Iron biogeochemical cycles deterrmine the environmental and crop production hazards associated with use of ASS. In order to develop best management practices for ASS, it is important to research those linkages and determine their contribution to fluxes of materials exported from these soils. This project will carry out that research and will transfer results to industry partners to improve land management practices and identify appropriate landuses in ASS landcapes.Read moreRead less