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Geochronology, Metallogenesis and Deposit Styles of Loei Foldbelt in Thailand and Laos PDR. The Loei volcanic-plutonic belt occurs in Thailand and Laos PDR between two major crustal terranes in mainland SE Asia: Shan-Thai in the west and Indochina terrane in the east. Several skarn type copper-gold and porphyry related epithermal gold deposits are distributed along the Loei belt, and yet these deposits are not well documented in the literature. Detailed metallogenic relations and evolution of th ....Geochronology, Metallogenesis and Deposit Styles of Loei Foldbelt in Thailand and Laos PDR. The Loei volcanic-plutonic belt occurs in Thailand and Laos PDR between two major crustal terranes in mainland SE Asia: Shan-Thai in the west and Indochina terrane in the east. Several skarn type copper-gold and porphyry related epithermal gold deposits are distributed along the Loei belt, and yet these deposits are not well documented in the literature. Detailed metallogenic relations and evolution of these mineral deposits are also poorly understood; it is not known whether they formed from single, long-lived intrusive-centred mineralised systems or multiple/episodic mineralised systems. Understanding the geotectonic and metallogenic relations of this belt have a direct benefit to Australian companies exploring in SE Asia, and the research results also can be applied back in Australia for exploration of Cu-Au deposits.Read moreRead less
Minerals replacement reactions: understanding mineral formation under hydrothermal conditions. Many geological processes involve the transformation of one mineral into another. By understanding molecular-level reaction mechanisms, we can predict how fast reactions progress, and what the final product will look like. This project focuses on a reaction mechanism called 'coupled dissolution-reprecipitation', in which the parent mineral is dissolved into a thin layer of fluid at the reaction front, ....Minerals replacement reactions: understanding mineral formation under hydrothermal conditions. Many geological processes involve the transformation of one mineral into another. By understanding molecular-level reaction mechanisms, we can predict how fast reactions progress, and what the final product will look like. This project focuses on a reaction mechanism called 'coupled dissolution-reprecipitation', in which the parent mineral is dissolved into a thin layer of fluid at the reaction front, and the daughter mineral subsequently precipitates. This concept will be applied to sulfide minerals for the first time. The results have many applications for the Australian mining industry, in particular in improving the efficiency of the processing of Ni- and Au-ores.Read moreRead less
Application of 3D Modelling to Mineral Exploration Under Cover: an Example from the Woods Point Region, Victoria. This project aims to develop and test cost-effective tools in understanding and exploring for buried mineral deposits. We will apply our research via a) constructing three-dimensional models to analyse, characterise and compare ore system geometries, b) constraining structural controls that lead to mineralisation in a variety of settings, c) development and testing of fluid properti ....Application of 3D Modelling to Mineral Exploration Under Cover: an Example from the Woods Point Region, Victoria. This project aims to develop and test cost-effective tools in understanding and exploring for buried mineral deposits. We will apply our research via a) constructing three-dimensional models to analyse, characterise and compare ore system geometries, b) constraining structural controls that lead to mineralisation in a variety of settings, c) development and testing of fluid properties, and d) integration of geological, structural and geochemical datasets to predict favourable sites for gold mineralisation. This project will result in a greatly improved understanding of the formation of a range of gold deposit styles, and further strategic alliances between Monash University, the Geological Survey of Victoria and exploration companies.Read moreRead less