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Trace elements in magnetite as petrogenetic indicators
by
Dare, Sarah A. S.
, Potvin-Doucet, Christophe
, Barnes, Sarah-Jane
, Boutroy, Emilie
, Beaudoin, Georges
, Méric, Julien
in
Continental crust
/ Crystallization
/ Earth and Environmental Science
/ Earth Sciences
/ Fractionation
/ Geochemistry
/ Geology
/ Letter
/ Low temperature
/ Mineral Resources
/ Mineralogy
/ Petrology
/ Sedimentology
/ Sulfides
/ Trace elements
/ Zonation
2014
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Trace elements in magnetite as petrogenetic indicators
by
Dare, Sarah A. S.
, Potvin-Doucet, Christophe
, Barnes, Sarah-Jane
, Boutroy, Emilie
, Beaudoin, Georges
, Méric, Julien
in
Continental crust
/ Crystallization
/ Earth and Environmental Science
/ Earth Sciences
/ Fractionation
/ Geochemistry
/ Geology
/ Letter
/ Low temperature
/ Mineral Resources
/ Mineralogy
/ Petrology
/ Sedimentology
/ Sulfides
/ Trace elements
/ Zonation
2014
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Do you wish to request the book?
Trace elements in magnetite as petrogenetic indicators
by
Dare, Sarah A. S.
, Potvin-Doucet, Christophe
, Barnes, Sarah-Jane
, Boutroy, Emilie
, Beaudoin, Georges
, Méric, Julien
in
Continental crust
/ Crystallization
/ Earth and Environmental Science
/ Earth Sciences
/ Fractionation
/ Geochemistry
/ Geology
/ Letter
/ Low temperature
/ Mineral Resources
/ Mineralogy
/ Petrology
/ Sedimentology
/ Sulfides
/ Trace elements
/ Zonation
2014
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Journal Article
Trace elements in magnetite as petrogenetic indicators
2014
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Overview
We have characterized the distribution of 25 trace elements in magnetite (Mg, Al, Si, P, Ca, Sc, Ti, V, Cr, Mn, Co, Ni, Cu, Zn, Ga, Ge, Y, Zr, Nb, Mo, Sn, Hf, Ta, W, and Pb), using laser ablation ICP-MS and electron microprobe, from a variety of magmatic and hydrothermal ore-forming environments and compared them with data from the literature. We propose a new multielement diagram, normalized to bulk continental crust, designed to emphasize the partitioning behavior of trace elements between magnetite, the melt/fluid, and co-crystallizing phases. The normalized pattern of magnetite reflects the composition of the melt/fluid, which in both magmatic and hydrothermal systems varies with temperature. Thus, it is possible to distinguish magnetite formed at different degrees of crystal fractionation in both silicate and sulfide melts. The crystallization of ilmenite or sulfide before magnetite is recorded as a marked depletion in Ti or Cu, respectively. The chemical signature of hydrothermal magnetite is distinct being depleted in elements that are relatively immobile during alteration and commonly enriched in elements that are highly incompatible into magnetite (e.g., Si and Ca). Magnetite formed from low-temperature fluids has the lowest overall abundance of trace elements due to their lower solubility. Chemical zonation of magnetite is rare but occurs in some hydrothermal deposits where laser mapping reveals oscillatory zoning, which records the changing conditions and composition of the fluid during magnetite growth. This new way of plotting all 25 trace elements on 1 diagram, normalized to bulk continental crust and elements in order of compatibility into magnetite, provides a tool to help understand the processes that control partitioning of a full suit of trace elements in magnetite and aid discrimination of magnetite formed in different environments. It has applications in both petrogenetic and provenance studies, such as in the exploration of ore deposits and in sedimentology.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
Subject
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