Fingerprints of kamafugite-like magmas in mesozoic lamproites of the aldan shield: evidence from olivine and olivine-hosted inclusions

Chayka, Ivan F., Sobolev, Alexander V., Izokh, Andrey E., Batanova, Valentina G., Krasheninnikov, Stepan P., Chervyakovskaya, Maria V., Kontonikas-Charos, Alkiviadis, Kutyrev, Anton V. ORCID: https://orcid.org/0000-0001-5933-6455, Lobastov, Boris M. and Chervyakovskiy, Vasiliy S. 2020. Fingerprints of kamafugite-like magmas in mesozoic lamproites of the aldan shield: evidence from olivine and olivine-hosted inclusions. Minerals 10 (4) , 337. 10.3390/min10040337

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Abstract

Mesozoic (125–135 Ma) cratonic low-Ti lamproites from the northern part of the Aldan Shield do not conform to typical classification schemes of ultrapotassic anorogenic rocks. Here we investigate their origins by analyzing olivine and olivine-hosted inclusions from the Ryabinoviy pipe, a well preserved lamproite intrusion within the Aldan Shield. Four types of olivine are identified: (1) zoned phenocrysts, (2) high-Mg, high-Ni homogeneous macrocrysts, (3) high-Ca and low-Ni olivine and (4) mantle xenocrysts. Olivine compositions are comparable to those from the Mediterranean Belt lamproites (Olivine-1 and -2), kamafugites (Olivine-3) and leucitites. Homogenized melt inclusions (MIs) within olivine-1 phenocrysts have lamproitic compositions and are similar to the host rocks, whereas kamafugite-like compositions are obtained for melt inclusions within olivine-3. Estimates of redox conditions indicate that “lamproitic” olivine crystallized from anomalously oxidized magma (∆NNO +3 to +4 log units.). Crystallization of “kamafugitic” olivine occurred under even more oxidized conditions, supported by low V/Sc ratios. We consider high-Ca olivine (3) to be a fingerprint of kamafugite-like magmatism, which also occurred during the Mesozoic and slightly preceded lamproitic magmatism. Our preliminary genetic model suggests that low-temperature, extension-triggered melting of mica- and carbonate-rich veined subcontitental lithospheric mantle (SCLM) generated the kamafugite-like melts. This process exhausted carbonate and affected the silicate assemblage of the veins. Subsequent and more extensive melting of the modified SCLM produced volumetrically larger lamproitic magmas. This newly recognized kamafugitic “fingerprint” further highlights similarities between the Aldan Shield potassic province and the Mediterranean Belt, and provides evidence of an overlap between “orogenic” and “anorogenic” varieties of low-Ti potassic magmatism. Moreover, our study also demonstrates that recycled subduction components are not an essential factor in the petrogenesis of low-Ti lamproites, kamafugites and leucitites.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Earth and Environmental Sciences
Publisher:	MDPI
ISSN:	2075-163X
Date of Acceptance:	6 April 2020
Last Modified:	04 Nov 2024 12:00
URI:	https://orca.cardiff.ac.uk/id/eprint/173088

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