In this paper, we show that supercritical fluids have a greater significance in the generation of pegmatites, and for ore-forming processes related to granites than is usually assumed. We show that the supercritical melt or fluid is a silicate phase in which volatiles; principally H2O are completely miscible in all proportions at magmatic temperatures and pressures. This phase evolves from felsic melts and changes into hydrothermal fluids, and its unique properties are particularly important in sequestering and concentrating low abundance elements, such as metals. In our past research, we have focused on processes observed at upper crustal levels, however extensive work by us and other researchers have demonstrated that supercritical melt/fluids should be abundant in melting zones at deep-crustal levels too. We propose that these fluids may provide a connecting link between lower and upper crustal magmas, and a highly efficient transport mechanism for usually melt incompatible elements. In this paper, we explore the unique features of this fluid which allow the partitioning of various elements and compounds, potentially up to extreme levels, and may explain various features both of mineralization and the magmas that produced them.
History
Publication title
Acta Geochimica
Volume
38
Pagination
335-349
ISSN
2096-0956
Department/School
School of Natural Sciences
Publisher
Science Press
Place of publication
China
Rights statement
Copyright 2019 Science Press and Institute of Geochemistry, CAS and Springer-Verlag GmbH Germany, part of Springer Nature
Repository Status
Restricted
Socio-economic Objectives
Mineral exploration not elsewhere classified; Expanding knowledge in the earth sciences