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W4311781151 endingPage "105540" @default.
W4311781151 startingPage "105540" @default.
W4311781151 abstract "Recovering the Mg isotopic composition of seawater using penecontemporaneous dolomite is possible; however, the Mg isotopic composition of dolomite may be changed by later diagenesis and hydrothermal activities. Solving this problem requires further research on the behavior of Mg isotopes in dolomitization systems. Diagenesis and hydrothermal fluids have significantly altered the considerable amount of dolomites in the Lower Cambrian Qiulitage Formation in the Gucheng region of the Tarim Basin. Thus, this formation is excellent for examining the behavior of dolomite Mg isotopes after diagnostic and hydrothermal alterations. The results of major and trace elements and C–O–Mg isotope analysis show that the dolomite of Qiulitage Formation is penecontemporaneous dolomite, and the Mg in dolomite is mainly from the Early Cambrian seawater. The dolomites of the Qiulitage Formation in the Gucheng area are formed by carbonate platform facies. The stratigraphic variability of Mg isotopes is small, averaging −2.08‰± 0.23‰, which indicates that the Mg isotope of the dolomitized fluid in the large-scale dolomitization process of the carbonate platform is uniform and balanced with the seawater in the same period. In addition, the Mg isotopic composition of dolomite is stable, and the δ26Mg value is not affected by burial diagenesis and hydrothermal fluid activities. we found that the Mg isotopic composition and stratigraphic age of the dolomites of the Lower Cambrian Qiulitage Formation are consistent with the simulated results, the δ26Mg value of the ancient seawater in the Early Cambrian is estimated to be about −0.08‰±0.23‰. This study shows that the δ26Mg of penecontemporaneous massive dolomite may have been used to invert the Mg isotopic composition of seawater during the same period, within a confidence range of ±0.2‰, using massive dolomite, and provided a new idea for quantitatively reconstructing the marine Mg cycle in the geological history." @default.
W4311781151 created "2022-12-28" @default.
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W4311781151 date "2023-01-01" @default.
W4311781151 modified "2023-10-11" @default.
W4311781151 title "Conservative behavior of Mg isotopes in dolomite during diagenesis and hydrothermal alteration: A case study in the Lower Cambrian Qiulitage Formation, Gucheng area, Tarim Basin" @default.
W4311781151 cites W1142500717 @default.
W4311781151 cites W1965439550 @default.
W4311781151 cites W1968171173 @default.
W4311781151 cites W1968555610 @default.
W4311781151 cites W1972740260 @default.
W4311781151 cites W1974589124 @default.
W4311781151 cites W1975505597 @default.
W4311781151 cites W1976651809 @default.
W4311781151 cites W1977203661 @default.
W4311781151 cites W1987114242 @default.
W4311781151 cites W1987314508 @default.
W4311781151 cites W1992587729 @default.
W4311781151 cites W1993749654 @default.
W4311781151 cites W2011751579 @default.
W4311781151 cites W2028823240 @default.
W4311781151 cites W2035770736 @default.
W4311781151 cites W2039135764 @default.
W4311781151 cites W2042155317 @default.
W4311781151 cites W2042512309 @default.
W4311781151 cites W2043286382 @default.
W4311781151 cites W2045570344 @default.
W4311781151 cites W2045734656 @default.
W4311781151 cites W2052281463 @default.
W4311781151 cites W2052559198 @default.
W4311781151 cites W2078575433 @default.
W4311781151 cites W2082320108 @default.
W4311781151 cites W2083644798 @default.
W4311781151 cites W2087280943 @default.
W4311781151 cites W2087565300 @default.
W4311781151 cites W2089660798 @default.
W4311781151 cites W2092542586 @default.
W4311781151 cites W2099101784 @default.
W4311781151 cites W2099239324 @default.
W4311781151 cites W2114318257 @default.
W4311781151 cites W2121880798 @default.
W4311781151 cites W2128419417 @default.
W4311781151 cites W2129347742 @default.
W4311781151 cites W2132075414 @default.
W4311781151 cites W2141135506 @default.
W4311781151 cites W2142156816 @default.
W4311781151 cites W2151496045 @default.
W4311781151 cites W2155967341 @default.
W4311781151 cites W2157997003 @default.
W4311781151 cites W2161722526 @default.
W4311781151 cites W2167087774 @default.
W4311781151 cites W2252439761 @default.
W4311781151 cites W2481082856 @default.
W4311781151 cites W2561407405 @default.
W4311781151 cites W2564246888 @default.
W4311781151 cites W2601019536 @default.
W4311781151 cites W2730387433 @default.
W4311781151 cites W2741037876 @default.
W4311781151 cites W2764094046 @default.
W4311781151 cites W2770811858 @default.
W4311781151 cites W2772797022 @default.
W4311781151 cites W2793986365 @default.
W4311781151 cites W2807147277 @default.
W4311781151 cites W2874966572 @default.
W4311781151 cites W2901825750 @default.
W4311781151 cites W2905038519 @default.
W4311781151 cites W2905223808 @default.
W4311781151 cites W2908192673 @default.
W4311781151 cites W2912611334 @default.
W4311781151 cites W2977933802 @default.
W4311781151 cites W2996840698 @default.
W4311781151 cites W3026229130 @default.
W4311781151 cites W3036329988 @default.
W4311781151 cites W3037418885 @default.
W4311781151 cites W3093962131 @default.
W4311781151 cites W3111216371 @default.
W4311781151 cites W3157992838 @default.
W4311781151 cites W4292771378 @default.
W4311781151 doi "https://doi.org/10.1016/j.apgeochem.2022.105540" @default.
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