Research output: Contribution to journal › Article › peer-review
Sheared and Granular Peridotites from the Udachnaya–East Kimberlite (Yakutia): Mineralogy, Chemistry, and PGE Patterns. / Ilyina, O. V.; Agashev, A. M.; Pokhilenko, L. N. et al.
In: Russian Geology and Geophysics, Vol. 63, No. 9, 09.2022, p. 1001-1019.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Sheared and Granular Peridotites from the Udachnaya–East Kimberlite (Yakutia): Mineralogy, Chemistry, and PGE Patterns
AU - Ilyina, O. V.
AU - Agashev, A. M.
AU - Pokhilenko, L. N.
AU - Kozhemyakina, E. A.
AU - Pokhilenko, N. P.
N1 - Funding Information: The study was carried out as part of government assignment to the V.S. Sobolev Institute of Geology and Mineralogy (Novosibirsk) and was supported by the Ministry of Science and Education of the Russian Federation, as well as by grants 18-05-70064 and 20-05-00662 from the Russian Foundation for Basic Research. Publisher Copyright: © 2022, Novosibirsk State University.
PY - 2022/9
Y1 - 2022/9
N2 - Mantle xenoliths of fresh sheared and granular peridotites from the Udachnaya kimberlite pipe (Yakutian kimberlite prov-ince, Siberia, Russia) are studied in terms of mineralogy, chemistry, and behavior of platinum-group elements (PGE), with a focus on difference between the two types of peridotites and on the role of PGEs in their origin. The analyzed samples of sheared and granular peridotites differ in mineral-liquid equilibrium temperatures and pressures: 1230–1350 °C, 56–67 kbar inferred for the former and 750–1300 °C, 30–67 kbar for the latter. The contents of major oxides, trace elements, and PGEs differ both between sheared and granular peridotites and within each group. Some sheared and all granular peridotites are enriched in incompatible elements, have low percentages of clinopyrox-ene and contain garnet rich in middle rare-earth elements (MREE). These features result from interaction of the peridotites with melts and related fluids of presumably carbonate compositions containing incompatible elements in high abundances. Sheared peridotites were more strongly enriched and gained more Ca, Al, and Ti than the granular variety. On the other hand, granular peridotites have higher light REE (LREE) and lower heavy REE (HREE) enrichment, which may record compositional difference of metasomatic agents. Metasomatism acted in two stages: first silicate agents caused LREE enrichment and HREE depletion of melts and then the fractionated melts percolated through the mantle and affected the compositions of granular peridotites and, partly, sheared peridotites. The two types of peridotites differ also in PGE patterns, with largely variable Os–Pt concentrations in granular peridotite. This difference may be due to uneven distribution of the Os–Ir and Pt–Os–Ir intermetallic compounds, which formed as sulfide melting residue in the lithospheric mantle. Sheared peridotites show almost uniform Os–Pt distribution and are enriched in Pd, Re, and partly Pt. The enrichment possibly occurred during metasomatism when the percentages of garnet and clinopyroxene increased while sulfide phases precipitated into interstitials.
AB - Mantle xenoliths of fresh sheared and granular peridotites from the Udachnaya kimberlite pipe (Yakutian kimberlite prov-ince, Siberia, Russia) are studied in terms of mineralogy, chemistry, and behavior of platinum-group elements (PGE), with a focus on difference between the two types of peridotites and on the role of PGEs in their origin. The analyzed samples of sheared and granular peridotites differ in mineral-liquid equilibrium temperatures and pressures: 1230–1350 °C, 56–67 kbar inferred for the former and 750–1300 °C, 30–67 kbar for the latter. The contents of major oxides, trace elements, and PGEs differ both between sheared and granular peridotites and within each group. Some sheared and all granular peridotites are enriched in incompatible elements, have low percentages of clinopyrox-ene and contain garnet rich in middle rare-earth elements (MREE). These features result from interaction of the peridotites with melts and related fluids of presumably carbonate compositions containing incompatible elements in high abundances. Sheared peridotites were more strongly enriched and gained more Ca, Al, and Ti than the granular variety. On the other hand, granular peridotites have higher light REE (LREE) and lower heavy REE (HREE) enrichment, which may record compositional difference of metasomatic agents. Metasomatism acted in two stages: first silicate agents caused LREE enrichment and HREE depletion of melts and then the fractionated melts percolated through the mantle and affected the compositions of granular peridotites and, partly, sheared peridotites. The two types of peridotites differ also in PGE patterns, with largely variable Os–Pt concentrations in granular peridotite. This difference may be due to uneven distribution of the Os–Ir and Pt–Os–Ir intermetallic compounds, which formed as sulfide melting residue in the lithospheric mantle. Sheared peridotites show almost uniform Os–Pt distribution and are enriched in Pd, Re, and partly Pt. The enrichment possibly occurred during metasomatism when the percentages of garnet and clinopyroxene increased while sulfide phases precipitated into interstitials.
KW - kimberlite
KW - lithospheric mantle
KW - metasomatism
KW - peridotite
KW - PGE
KW - xenolith
UR - http://www.scopus.com/inward/record.url?scp=85140359160&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/2f8e9154-919a-3ff5-ad61-dc745c7ed318/
U2 - 10.2113/RGG20204320
DO - 10.2113/RGG20204320
M3 - Article
AN - SCOPUS:85140359160
VL - 63
SP - 1001
EP - 1019
JO - Russian Geology and Geophysics
JF - Russian Geology and Geophysics
SN - 1068-7971
IS - 9
ER -
ID: 38420167