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W2495413552 abstract "Available data in the literature have demonstrated a broad magnesium (Mg) isotope range for mantle and lower continental crustal rocks, implying an isotopically heterogeneous continental lithosphere, but its origin has not been thoroughly understood. Here, to investigate the primary cause of lithospheric Mg isotopic heterogeneity, we report major-trace elements, Sr and Mg isotope data for thirty deep-seated mafic xenoliths, which sampled different lithospheric depths in the southeastern North China Craton (NCC). The xenoliths are classified into three types based upon petrology and mineralogy, sampling from middle continental crust (Group I), lower continental crust (Group II) and lithospheric mantle (Group III), respectively. The Group I xenoliths have mantle-like to slightly high δ26Mg values (−0.32‰ to +0.01‰), whereas some of the Group II xenoliths have very low δ26Mg values (−0.93‰ to −0.07‰), reflecting substantial reaction with intracrustal carbonate-derived fluids. Combined with data in the literature, the results suggest that the Mg isotopic composition of the lower continental crust is much more heterogeneous and lighter on average relative to the middle continental crust. Except for one sample, the Group III xenoliths have extremely low δ26Mg values (−1.23‰ to −0.73‰), the lightest among values already reported for mantle-derived rocks including peridotites and basalts. They also have highly variable 87Sr/86Sr ratios, of 0.70387 to 0.71675. The covariation of Mg and Sr isotopes in Group III xenoliths can be explained by Mg and Sr isotopic exchange reactions during mantle metasomatism, implying that the sub-continental mantle has been significantly modified by fluids derived from recycled carbonate-pelite bearing oceanic crust. Together with the metasomatism age of ∼400 Ma obtained for one Group III xenolith, the results provide new evidence for the presence of extremely low-δ26Mg rocks in the lithosphere and indicate ancient carbonate recycling during Paleo-Tethys slab subduction. Experimental and computational studies have demonstrated that the solubility of carbonate in aqueous fluids increases with increasing pressures. Therefore, we suggest that the decreasing δ26Mg values of mantle-derived rocks with increasing depths across cratonic lithosphere, as found in the NCC and other regions, have probably been caused by carbonate metasomatism to various extents at different lithospheric depths." @default.
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W2495413552 date "2016-10-01" @default.
W2495413552 modified "2023-10-16" @default.
W2495413552 title "Magnesium isotopic heterogeneity across the cratonic lithosphere in eastern China and its origins" @default.
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W2495413552 cites W1972673094 @default.
W2495413552 cites W1973182365 @default.
W2495413552 cites W1974509843 @default.
W2495413552 cites W1979473654 @default.
W2495413552 cites W1979683218 @default.
W2495413552 cites W1982431875 @default.
W2495413552 cites W1990130984 @default.
W2495413552 cites W1997297461 @default.
W2495413552 cites W2002772745 @default.
W2495413552 cites W2002847449 @default.
W2495413552 cites W2005647481 @default.
W2495413552 cites W2007192582 @default.
W2495413552 cites W2014224630 @default.
W2495413552 cites W2019606633 @default.
W2495413552 cites W2024230365 @default.
W2495413552 cites W2024569109 @default.
W2495413552 cites W2025109266 @default.
W2495413552 cites W2027802498 @default.
W2495413552 cites W2034601870 @default.
W2495413552 cites W2035283420 @default.
W2495413552 cites W2038881038 @default.
W2495413552 cites W2047197891 @default.
W2495413552 cites W2054755040 @default.
W2495413552 cites W2059429327 @default.
W2495413552 cites W2062089904 @default.
W2495413552 cites W2062633761 @default.
W2495413552 cites W2084439549 @default.
W2495413552 cites W2092385684 @default.
W2495413552 cites W2093381825 @default.
W2495413552 cites W2099101784 @default.
W2495413552 cites W2103490462 @default.
W2495413552 cites W2105566244 @default.
W2495413552 cites W2113785517 @default.
W2495413552 cites W2117109670 @default.
W2495413552 cites W2121615354 @default.
W2495413552 cites W2128419417 @default.
W2495413552 cites W2131499022 @default.
W2495413552 cites W2132213038 @default.
W2495413552 cites W2133781578 @default.
W2495413552 cites W2152967648 @default.
W2495413552 cites W2163393460 @default.
W2495413552 cites W2164163223 @default.
W2495413552 cites W220726169 @default.
W2495413552 cites W2298474740 @default.
W2495413552 cites W2376402588 @default.
W2495413552 cites W2398536598 @default.
W2495413552 cites W3041667805 @default.
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W2495413552 doi "https://doi.org/10.1016/j.epsl.2016.07.021" @default.
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