REESources: experimental investigation of the role of fluids in the formation of rare metals ore deposits (REESources)
Basic data for this project
Type of project: EU-project hosted at University of Münster
Duration: 01/01/2019 - 31/12/2020
Description
High-field strength elements (HFSE: Ti, Zr, Nb, Ta, Hf) and rare earth elements (REE: La to Lu, +Sc, Y) have become critical resources to the industry, being labeled the ‘keys to green technologies’. Their rarity does not stem from their low abundance in the Earth’s crust but rather from difficulties in separating them from each other and China’s monopoly on their supply chain. Strikingly, little is known about the geological processes leading to their economic concentration in different environments. Especially, how high-temperature fluids can extract rare metals from magmas and reconcentrate them up to economic levels is poorly understood.The proposed research will investigate this question combining innovative experimental technics. High-pressure high-temperature experiments will be conducted at the Institute for Mineralogy at the University of Münster (WWU) and different synchrotron facilities (ESRF, Grenoble; PETRA, Hamburg) to determine the solubility, speciation and fluid-melt partitioning of the HFSE and REE. The experimental results are expected to constitute a necessary theoretical framework for the exploration and sustainable mining of these critical metal resources. The applicant has 9 years experience of experimental petrology, with particular expertise in the in situ study of high P-T fluids with synchrotron radiation and Raman spectroscopy. Especially, she has been working on the role of fluids in the formation of various ore deposits over the last 4 years (at the Australian National University and the University of Bristol). The WWU would benefit from the applicant’s previous research experience in in situ technics, X-ray and Raman spectroscopies and in the field of economic geology. In return, the applicant will receive crucial support to develop her research and especially benefit from the comprehensive experimental and analytical environment at WWU, which is one of Europe’s leading research institutes in Petrology and Geochemistry.
Keywords: Mineralogy; petrology; geochemistry; ore genesis