The Monticellite-bearing Rocks of the Krestovskaya Intrusion: Genesis according to Melt Inclusion Study

The investigation of monticellitolites and olivine–monticellite rocks from the Krestovskaya Intrusion shows that the major minerals (olivine and monticellite) have higher MgO content than the same minerals in olivinites and kugdites of the intrusion. In the studied rocks olivine contains 90–93 mol %...

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Published in	Petrology Vol. 30; no. Suppl 1; pp. S101 - S118
Main Authors	Panina, L. I., Isakova, A. T., Rokosova, E. Yu
Format	Journal Article
Language	English
Published	Moscow Pleiades Publishing 01.12.2022 Springer Nature B.V
Subjects	Aluminum oxide Carbonates Components Composition Crystallization Earth and Environmental Science Earth Sciences Geochemistry High temperature Immiscibility Intrusion Iron Magnesium Magnesium oxide Melts (crystal growth) Mineralogy Minerals Miscibility Monticellite Olivine Perovskites Phosphates Rock Rocks Salts Silicates Silicon Sulfates silicate–carbonate liquid immiscibility K-rich larnite-normative ultramafic magma Na-rich picrite magma magma mixing polyphase carbonate–salt immiscibility monticellite rocks
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Abstract	The investigation of monticellitolites and olivine–monticellite rocks from the Krestovskaya Intrusion shows that the major minerals (olivine and monticellite) have higher MgO content than the same minerals in olivinites and kugdites of the intrusion. In the studied rocks olivine contains 90–93 mol % Fo and monticellite has 41.6–42.3 mol % Fo, whereas olivine and monticellite in olivinites and kugdites contain 86–87 and 37.2–41.2 mol % Fo , respectively. Melt inclusion study in minerals of monticellite rocks demonstrates that the monticellite rocks of the Krestovskaya Intrusion were formed by mixing of volatile-rich melts of different composition: K-rich high-iron low-alumina kamafugitic melt and Na-rich high-magnesium high-alumina picritic melt. Minerals crystallized at high temperatures in the following sequence: perovskite I (1250–1230°C) → perovskite II (≥1200°C) ↔ olivine (>1200°C) → monticellite (>1150°C). Perovskite I in monticellite rocks, as well as olivine in olivinites, crystallized from K-rich high-iron (Mg# = MgO/(MgO + FeO) = 0.37), low-alumina kamafugitic melt. During crystallization of late perovskite II in the monticellite rocks, the melt became more enriched in MgO (Mg# = 0.41) and richer in Na 2 O and Al 2 O 3 , which is intermediate in composition between kamafugite and alkali picrite. Olivine in the monticellite rocks crystallized from melts similar in composition to melilitite, having a K-rich composition with Mg# = 0.39, whereas monticellite formed from a heterogeneous high-Mg Si-undersaturated melt, which is highly enriched with volatile components (including H 2 O) and salts. The crystallization of minerals was accompanied by subsequent accumulation of volatile components in mixing melts, silicate–carbonate liquid immiscibility under 1250–1190°C, and polyphase carbonate–salt immiscibility under below 1190°C. In the latter event, the exsolved carbonate melt began to split into simpler immiscible fractions: alkali–sulfate–carbonate, alkali–phosphate–carbonate, and calcio–carbonate.
AbstractList	The investigation of monticellitolites and olivine–monticellite rocks from the Krestovskaya Intrusion shows that the major minerals (olivine and monticellite) have higher MgO content than the same minerals in olivinites and kugdites of the intrusion. In the studied rocks olivine contains 90–93 mol % Fo and monticellite has 41.6–42.3 mol % Fo, whereas olivine and monticellite in olivinites and kugdites contain 86–87 and 37.2–41.2 mol % Fo, respectively. Melt inclusion study in minerals of monticellite rocks demonstrates that the monticellite rocks of the Krestovskaya Intrusion were formed by mixing of volatile-rich melts of different composition: K-rich high-iron low-alumina kamafugitic melt and Na-rich high-magnesium high-alumina picritic melt. Minerals crystallized at high temperatures in the following sequence: perovskite I (1250–1230°C) → perovskite II (≥1200°C) ↔ olivine (>1200°C) → monticellite (>1150°C). Perovskite I in monticellite rocks, as well as olivine in olivinites, crystallized from K-rich high-iron (Mg# = MgO/(MgO + FeO) = 0.37), low-alumina kamafugitic melt. During crystallization of late perovskite II in the monticellite rocks, the melt became more enriched in MgO (Mg# = 0.41) and richer in Na2O and Al2O3, which is intermediate in composition between kamafugite and alkali picrite. Olivine in the monticellite rocks crystallized from melts similar in composition to melilitite, having a K-rich composition with Mg# = 0.39, whereas monticellite formed from a heterogeneous high-Mg Si-undersaturated melt, which is highly enriched with volatile components (including H2O) and salts. The crystallization of minerals was accompanied by subsequent accumulation of volatile components in mixing melts, silicate–carbonate liquid immiscibility under 1250–1190°C, and polyphase carbonate–salt immiscibility under below 1190°C. In the latter event, the exsolved carbonate melt began to split into simpler immiscible fractions: alkali–sulfate–carbonate, alkali–phosphate–carbonate, and calcio–carbonate. The investigation of monticellitolites and olivine–monticellite rocks from the Krestovskaya Intrusion shows that the major minerals (olivine and monticellite) have higher MgO content than the same minerals in olivinites and kugdites of the intrusion. In the studied rocks olivine contains 90–93 mol % Fo and monticellite has 41.6–42.3 mol % Fo, whereas olivine and monticellite in olivinites and kugdites contain 86–87 and 37.2–41.2 mol % Fo , respectively. Melt inclusion study in minerals of monticellite rocks demonstrates that the monticellite rocks of the Krestovskaya Intrusion were formed by mixing of volatile-rich melts of different composition: K-rich high-iron low-alumina kamafugitic melt and Na-rich high-magnesium high-alumina picritic melt. Minerals crystallized at high temperatures in the following sequence: perovskite I (1250–1230°C) → perovskite II (≥1200°C) ↔ olivine (>1200°C) → monticellite (>1150°C). Perovskite I in monticellite rocks, as well as olivine in olivinites, crystallized from K-rich high-iron (Mg# = MgO/(MgO + FeO) = 0.37), low-alumina kamafugitic melt. During crystallization of late perovskite II in the monticellite rocks, the melt became more enriched in MgO (Mg# = 0.41) and richer in Na 2 O and Al 2 O 3 , which is intermediate in composition between kamafugite and alkali picrite. Olivine in the monticellite rocks crystallized from melts similar in composition to melilitite, having a K-rich composition with Mg# = 0.39, whereas monticellite formed from a heterogeneous high-Mg Si-undersaturated melt, which is highly enriched with volatile components (including H 2 O) and salts. The crystallization of minerals was accompanied by subsequent accumulation of volatile components in mixing melts, silicate–carbonate liquid immiscibility under 1250–1190°C, and polyphase carbonate–salt immiscibility under below 1190°C. In the latter event, the exsolved carbonate melt began to split into simpler immiscible fractions: alkali–sulfate–carbonate, alkali–phosphate–carbonate, and calcio–carbonate.
Author	Panina, L. I. Rokosova, E. Yu Isakova, A. T.
Author_xml	– sequence: 1 givenname: L. I. surname: Panina fullname: Panina, L. I. email: panina@igm.nsc.ru organization: Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences – sequence: 2 givenname: A. T. surname: Isakova fullname: Isakova, A. T. email: atnikolaeva@igm.nsc.ru organization: Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences – sequence: 3 givenname: E. Yu surname: Rokosova fullname: Rokosova, E. Yu email: rokosovae@igm.nsc.ru organization: Sobolev Institute of Geology and Mineralogy, Siberian Branch, Russian Academy of Sciences
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Cites_doi	10.1007/BF00687205 10.1016/j.rgg.2009.11.002 10.1134/S086959111902005X 10.1007/s004100050254 10.1016/S0024-4937(98)00067-X 10.1038/346459a0 10.1016/S0024-4937(96)00022-9 10.1016/j.rgg.2012.09.007 10.1016/j.lithos.2007.10.009 10.1093/petrology/36.3.797 10.1180/minmag.1988.052.364.04 10.1134/S0016702908050029 10.1134/S0869591109030059 10.1093/petroj/39.11-12.2015 10.1180/minmag.1992.056.382.01 10.1093/petroj/38.9.1113 10.1134/S0016702913020080 10.3749/canmin.46.4.779 10.1134/S001670291609007X 10.1134/S001670290904003X 10.1134/S0869591118020042 10.1134/S0869591116060047
ContentType	Journal Article
Copyright	Pleiades Publishing, Ltd. 2022. ISSN 0869-5911, Petrology, 2022, Vol. 30, Suppl. 1, pp. S101–S118. © Pleiades Publishing, Ltd., 2022. Russian Text © The Author(s), 2023, published in Petrologiya, 2023, Vol. 31, No. 1, pp. 81–100.
Copyright_xml	– notice: Pleiades Publishing, Ltd. 2022. ISSN 0869-5911, Petrology, 2022, Vol. 30, Suppl. 1, pp. S101–S118. © Pleiades Publishing, Ltd., 2022. Russian Text © The Author(s), 2023, published in Petrologiya, 2023, Vol. 31, No. 1, pp. 81–100.
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Keywords	silicate–carbonate liquid immiscibility K-rich larnite-normative ultramafic magma Na-rich picrite magma magma mixing polyphase carbonate–salt immiscibility monticellite rocks
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Snippet	The investigation of monticellitolites and olivine–monticellite rocks from the Krestovskaya Intrusion shows that the major minerals (olivine and monticellite)...
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SubjectTerms	Aluminum oxide Carbonates Components Composition Crystallization Earth and Environmental Science Earth Sciences Geochemistry High temperature Immiscibility Intrusion Iron Magnesium Magnesium oxide Melts (crystal growth) Mineralogy Minerals Miscibility Monticellite Olivine Perovskites Phosphates Rock Rocks Salts Silicates Silicon Sulfates
Title	The Monticellite-bearing Rocks of the Krestovskaya Intrusion: Genesis according to Melt Inclusion Study
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