Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution

Carbonatites are igneous rocks comprising more than 50 modal percent of carbonate minerals and characterized by highly variable modal compositions. The majority of carbonatites are confined to intra-continental rifts, whereas occurrences associated with plate margins and orogenic settings are less c...

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Main Author: Reguir, Ekaterina
Other Authors: Halden, Norman (Geological Sciences)
Published: 2011
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Online Access:http://hdl.handle.net/1993/4761
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spelling ndltd-MANITOBA-oai-mspace.lib.umanitoba.ca-1993-47612014-01-31T03:32:30Z Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution Reguir, Ekaterina Halden, Norman (Geological Sciences) Sokolova, Elena (Geological Sciences) Bieringer, Mario (Chemistry) McDonald, Andrew (Laurentian University) carbonatites trace-elements partitioning amphibole clinopyroxene phlogopite magnetite perovskite petrogenesis evolution Carbonatites are igneous rocks comprising more than 50 modal percent of carbonate minerals and characterized by highly variable modal compositions. The majority of carbonatites are confined to intra-continental rifts, whereas occurrences associated with plate margins and orogenic settings are less common. Petrogenesis of carbonatites has been a matter of intense debate for several decades. The possible genetic models include crystallisation from a primary carbonatite magma, liquid immiscibility and crystal fractionation from carbonate-rich silicate magma. In contrast to the voluminous bulk-rock trace-element data and major-element analyses of minerals from carbonatites available in the literature, there has been no systematic study concerned with the trace-element signatures of the most common constituents of these rocks. This work is the first comprehensive study of the interrelations between the trace-element chemistry of the most common constituents of carbonatites, the geochemistry of these rocks, and their tectonic setting. The rock samples examined represent 21 different localities worldwide. The extent of major- and trace-element substitutions in amphibole, clinopyroxene, trioctahedral micas, dolomite, magnetite and perovskite is investigated in detail. The silicate minerals from carbonatites exhibit much larger compositional diversity than previously recognized. They can incorporate significant amounts of such petrogenetically important elements as Sr, REE, Zr, Nb and Ta. The majority of studied clino-amphibole- and clinopyroxene-group minerals exhibit previously unrecognized a bimodal distribution patterns of REE, which can be explained in terms of crystal chemistry of these phases. The trace-element signature of phlogopite from carbonatites, particularly Nb, Mn, Ni and Cr, is distinctly different from that of phlogopite from kimberlites, and can be used as a reliable petrogenetic indicator. Compositional variations in dolomite reflect magmatic and subsolidus processes in carbonatites. Magnetite from carbonatites follows a well-defined magmatic and previously unrecognized reaction trend. Contrary to prior studies, this mineral is only a minor host of HFSE in carbonatitic rocks. The U-Pb age data, trace-element and Sr-isotopic composition of perovskite from the Afrikanda carbonatite and clinopyroxenite suggest that the two rocks are not related by crystal fractionation. This study underlines the importance of a systematic approach in petrogenetic studies based on trace-element distribution. 2011-08-22T16:51:07Z 2011-08-22T16:51:07Z 2011-08-22 Reguir E.P., Camacho A., Yang P., Chakhmouradian A.R., Kamenetsky, D.S. & Halden N.M. (2010) Uranium-lead dating and trace-element study of perovskite from the Afrikanda plutonic complex, Kola Peninsula (Russia) using LA-ICP-MS. Mineralogy and Petrology, 100, 95-103. Reguir E.P., Chakhmouradian A.R., Halden N.M., Malkovets V.G. & Yang P. (2009) Major- and trace-element compositional variation of phlogopite from kimberlites and carbonatites as a petrogenetic indicator. Lithos, 112S, 372-384. Chakhmouradian A.R., Böhm C.O., Demény A., Reguir E.P., Hegner E., Creaser R.A., Halden N.M. & Yang P. (2009) “Kimberlite” from Wekusko Lake, Manitoba: Actually a diamond-indicator-bearing dolomite carbonatite. Lithos, 112S, 347-357. Reguir, E.P., Chakhmouradian, A.R., Halden, N., Yang, P. and Zaitsev, A. (2008) Magmatic and reaction trends in magnetite from the Kerimasi carbonatites, Tanzania. Canadian Mineralogist, Special Issue, 46, 879-900. http://hdl.handle.net/1993/4761
collection NDLTD
sources NDLTD
topic carbonatites
trace-elements
partitioning
amphibole
clinopyroxene
phlogopite
magnetite
perovskite
petrogenesis
evolution
spellingShingle carbonatites
trace-elements
partitioning
amphibole
clinopyroxene
phlogopite
magnetite
perovskite
petrogenesis
evolution
Reguir, Ekaterina
Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
description Carbonatites are igneous rocks comprising more than 50 modal percent of carbonate minerals and characterized by highly variable modal compositions. The majority of carbonatites are confined to intra-continental rifts, whereas occurrences associated with plate margins and orogenic settings are less common. Petrogenesis of carbonatites has been a matter of intense debate for several decades. The possible genetic models include crystallisation from a primary carbonatite magma, liquid immiscibility and crystal fractionation from carbonate-rich silicate magma. In contrast to the voluminous bulk-rock trace-element data and major-element analyses of minerals from carbonatites available in the literature, there has been no systematic study concerned with the trace-element signatures of the most common constituents of these rocks. This work is the first comprehensive study of the interrelations between the trace-element chemistry of the most common constituents of carbonatites, the geochemistry of these rocks, and their tectonic setting. The rock samples examined represent 21 different localities worldwide. The extent of major- and trace-element substitutions in amphibole, clinopyroxene, trioctahedral micas, dolomite, magnetite and perovskite is investigated in detail. The silicate minerals from carbonatites exhibit much larger compositional diversity than previously recognized. They can incorporate significant amounts of such petrogenetically important elements as Sr, REE, Zr, Nb and Ta. The majority of studied clino-amphibole- and clinopyroxene-group minerals exhibit previously unrecognized a bimodal distribution patterns of REE, which can be explained in terms of crystal chemistry of these phases. The trace-element signature of phlogopite from carbonatites, particularly Nb, Mn, Ni and Cr, is distinctly different from that of phlogopite from kimberlites, and can be used as a reliable petrogenetic indicator. Compositional variations in dolomite reflect magmatic and subsolidus processes in carbonatites. Magnetite from carbonatites follows a well-defined magmatic and previously unrecognized reaction trend. Contrary to prior studies, this mineral is only a minor host of HFSE in carbonatitic rocks. The U-Pb age data, trace-element and Sr-isotopic composition of perovskite from the Afrikanda carbonatite and clinopyroxenite suggest that the two rocks are not related by crystal fractionation. This study underlines the importance of a systematic approach in petrogenetic studies based on trace-element distribution.
author2 Halden, Norman (Geological Sciences)
author_facet Halden, Norman (Geological Sciences)
Reguir, Ekaterina
author Reguir, Ekaterina
author_sort Reguir, Ekaterina
title Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
title_short Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
title_full Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
title_fullStr Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
title_full_unstemmed Distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
title_sort distribution of incompatible trace elements in rock-forming and accessory minerals from carbonatites as a tracer of magma evolution
publishDate 2011
url http://hdl.handle.net/1993/4761
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