Lifting the veil on the Geological Dark Ages: The search for Hadean Crust on Earth. The project involves detailed field and isotopic study of some of the oldest known rocks and minerals to develop the first comprehensive picture of the earliest growth of the Australian continent. The data will reveal the timing and processes of continent formation and shed new light on the enigmatic early period of the Earth's evolution.
Lifting the lid on a supercontinent. This project will reveal the time-integrated growth and collapse of a supercontinental orogen in order to advance knowledge on the influence that mountain-building events have on the cycling of materials between the major near surface Earth reservoirs. Given that this cycling is key to understanding deep-time climate and the formation of mineral resources the outcomes of this study will have important economic benefits for targeting mineral resources and plac ....Lifting the lid on a supercontinent. This project will reveal the time-integrated growth and collapse of a supercontinental orogen in order to advance knowledge on the influence that mountain-building events have on the cycling of materials between the major near surface Earth reservoirs. Given that this cycling is key to understanding deep-time climate and the formation of mineral resources the outcomes of this study will have important economic benefits for targeting mineral resources and placing the geochemical proxies for the deep-time climate in context. Read moreRead less
Unraveling the geology of Mars. This project aims to use a suite of innovative conceptual and technical tools that target specific weaknesses in existing Mars exploration programs – where comparatively modest investment could deliver transformative change in one of the largest global research efforts, on which current expenditure is in billions of dollars. The project expects to provide context for the geologic processes that affected Mars. Expected outcomes include a better understanding of the ....Unraveling the geology of Mars. This project aims to use a suite of innovative conceptual and technical tools that target specific weaknesses in existing Mars exploration programs – where comparatively modest investment could deliver transformative change in one of the largest global research efforts, on which current expenditure is in billions of dollars. The project expects to provide context for the geologic processes that affected Mars. Expected outcomes include a better understanding of the habitability and geological history of Mars as well as facilitating both future mission landing site selection and providing context for comparison to the early history of Earth.Read moreRead less