Hasalová, P. , Schulmann, K. , Tabaud, A.S. and Oliot, E. 2015. Microstructural evidences for mineralogical inheritance in partially molten rocks: example from the Vosges Mts. Bulletin de la Société Géologique de France. 186, 131–143.
DOI Google ScholarTracking magmas from source to pluton: new insight into granites diversity
Melting of the crust leads to granitic magmas that vary widely in composition and in ability to generate metal deposits or cause explosive volcanism. A number of superposing, competing processes control this variability. Much has been learnt from investigating processes late in the magma history, but not much is known about magma generation at depth and what happens to it during transport to the upper crust. Indirect knowledge or inferences based on little data, leads to speculation and controversies. This project aims to better understand the early history of granitic magmas from the time they are generated at depth to when they are delivered to magma chambers in the upper crust, impacting on our understanding of granitic rocks.
Period
-Registration number
14-25995SProvider
GAČRBudget
240 000 EURProject publications
Finch, M. , Hasalová, P. , Weinberg, R. and Fanning, C.M. 2014. Switch from thrusting to normal shearing in the Zanskar shear zone, NW Himalaya: Implications for channel flow. Geological Society of America Bulletin. B30817–1.
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