Carbon 1213 dating
“In recent years our research activity, particularly in geosciences, has grown significantly, driving Curtin’s rapid rise up the international university rankings,” Professor Wright said. On the 8th July 2015, staff at the John de Laeter Centre (Jd LC) hosted a two-hour workshop to discuss current and upcoming projects focused on geochemistry data discovery. All natural occurrences of reidite are associated with the transformation of the mineral zircon during the high pressures and temperatures associated with meteorite impact events. The audience comprised a score of people from around Australia with representatives present from Curtin University's Office of Research and Development, Curtin University Library, CSIRO, ANDS, NCI, GSWA, MRIWA and AMMRF. The John de Laeter Centre provides quantitative data used to understand processes of Earth and planetary evolution, characterise the nature of resources and materials upon which our society depends, and monitor our changing environment. K., Aeppli, C., Samuel, J., Chen, H., De Oliveira, A. The Centre is open to collaborative research projects, non-collaborative access to the equipment by qualified users for research purposes, and commercial services. Professor Reddy’s discovery has been published in the prestigious Geology journal and can be viewed Chemical Geology. Through collaborations with state and national organisations and businesses this project will see more data being made readily available to researchers, industry and the public. J., Danišík, M., Jourdan, F., Mayers, C., Thern, E. Industrial Minerals by Cameron Chai, Friday, April 10, 2015 The declining fortunes of Australia’s mining industry have been a graphic illustration of how the collapse of the commodities boom can pull the rug out from beneath entire economies. 93Ma) norites and hornblendites in the Milin area, eastern Gangdese: Lithosphere-asthenosphere interaction during slab roll-back and an insight into early Late Cretaceous (ca. (DOI: 10.1016/####Cu-(Ni-Co-Au)-bearing massive sulphide deposits associated with mafic-ultramafic rocks of the Main Urals Fault, South Urals: Geological structures, ore textural and mineralogical features, comparison with modern analogs. DOI:10.1016/j.oregeorev.2012Montagna P., Mc Culloch M., Douville E., López Correa M., Trotter J., Rodolfo-Metalpa R., Dissard D., Ferrier-Pagès C., Frank N., Freiwald A., Goldstein S., Mazzoli C., Reynaud S., Rüggeberg A., Russo S., Taviani M. This will foster a richer scientific understanding of our country and promote new discoveries. Data from the financial year 2013-2014 indicates that Western Australia’s (WA) minerals and energy output alone was worth 2bn for the year, dominated by iron ore, which accounted for approximately 60% of the sector’s income. 100-80Ma) magmatic "flare-up" in southern Lhasa (Tibet)SHRIMP U-Pb zircon age for the Segwagwa-Masoke Igneous Complex of southeastern Botswana and implications for the deformation history of the Achaean to Proterozoic Transvaal Supergroup of southern Africa Using zircon u-pb ages and trace element chemistry to constrain the timing of metamorphic events, pegmatite dike emplacement, and shearing in the Southern Parry Sound Domain, Grenville Province, Canada Resilience of cold-water scleractinian corals to ocean acidification: Boron isotopic systematics of p H and saturation state up-regulation. • Paul Gottlieb (Tescan Orsay Holding), who summarised the recent technological and software developments at Tescan and discussed future challenges for the TIMA and automated mineralogy.
• Marek Dosbaba (Tescan Orsay Holding), who reviewed the workflow of the TIMA software.
The hardware component of the project was funded via the Australian Research Council with support from Curtin University, the Geological Survey of Western Australia, University of Western Australia and Murdoch University. One avenue being considered is the public documentation of WA’s mineral resources. J., Curran M., Edwards R., Faluvegi G., Ghan S., Horowitz L.
The project is being jointly run between the John de Laeter Centre, Curtin University Library and Curtin Information Technology Services. Journal of Analytical Atomic Spectrometry, 29, 981-989. It is hoped that by allowing free, open access to this information, further interest in developing domestic mineral reserves will be stimulated and create a more varied and sustainable mineral economy.
DOWNLOAD THE NEWSLETTER Curtin University researchers have for the first time been able to visualise where helium atoms are trapped within individual mineral grains, providing information that can help to determine the geological history of the Earth’s crust and assist in monitoring natural hazards like earthquakes and volcanic eruptions.
November to demonstrate the application and benefits of automated mineralogy to the minerals industry and academic research.