Инд. авторы:	Sun J., Zhu X.K., Belshaw N.S., Chen W., Doroshkevich A.G., Luo W.J., Song W.L., Chen B.B., Cheng Z.G., Li Z.H., Wang Y., Kynicky J., Henderson G.M.
Заглавие:	Ca isotope systematics of carbonatites: Insights into carbonatite source and evolution
Библ. ссылка:	Sun J., Zhu X.K., Belshaw N.S., Chen W., Doroshkevich A.G., Luo W.J., Song W.L., Chen B.B., Cheng Z.G., Li Z.H., Wang Y., Kynicky J., Henderson G.M. Ca isotope systematics of carbonatites: Insights into carbonatite source and evolution // GEOCHEMICAL PERSPECTIVES LETTERS. - 2021. - Vol.17. - P.11-15. - ISSN 2410-339X.
Внешние системы:	DOI: 10.7185/geochemlet.2107; РИНЦ: 46089810; WoS: 000624493400001;
Реферат:	eng: Carbonatite, an unusual carbonate-rich igneous rock, is known to be sourced from the mantle which provides insights into mantle-to-crust carbon transfer. To constrain further the Ca isotopic composition of carbonatites, investigate the behaviour of Ca isotopes during their evolution, and constrain whether recycled carbonates are involved in their source regions, we report delta Ca-44/42 for 47 worldwide carbonatite and associated silicate rocks using a refined analytical protocol. Our results show that primary carbonatite and associated silicate rocks are rather homogeneous in Ca isotope compositions that are comparable to delta Ca-44/42 values of basalts, while non-primary carbonatites show detectable delta Ca-44/42 variations that are correlated to delta C-13 values. Our finding suggests that Ca isotopes fractionate during late stages of carbonatite evolution, making it a useful tool in the study of carbonatite evolution. The finding also implies that carbonatite is sourced from a mantle source without requiring the involvement of recycled carbonates.
Ключевые слова:	GENESIS; FRACTIONATION; CALCIUM ISOTOPES; CONSTRAINTS; ROCKS;
Издано:	2021
Физ. характеристика:	с.11-15
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