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Global Geology 2023, 26(2) 74-97 DOI:
ISSN: 1673-9736 CN: 22-1371/P |
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Geochemical characteristics and provenance analysis of Lower Jurassic Badaowan Formation in Changji area of Xinjiang, China |
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LIU Zhanjin1 , XIA Zhaode1 , LIU Yunhua1* , DU Jinhua1 , WANG Shuo1 , ZHANG Yunfei2 and GAO Jinghui3 |
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1. College of Earth Sciences and Resources, Chang’an University, Xi’an 710054, China;
2. PetroChina Changqing Oilfield South Sulige Operating Company, Xi'an 710018, China;
3. Sino Shaanxi Nuclear Industry Group 214 Brigade Co. Ltd, Xi’an 710054, China |
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Abstract:
Based on the field survey of Lower Jurassic Badaowan Formation (Fm.) in Changji area of Xinjiang, China, the authors studied the sedimentary environment and provenance characteristics using the analyses of stratigraphic profiles, sedimentary structures, petrography, zircon U-Pb chronology and geochemistry. The results show that Badaowan Fm. deposited in fluvial to swamp shallow-deep�lacustrine sedimentary facies deposition. Contents of Sr and ratios of Sr/Cu, Sr/Ba, Th/U, SiO2/Al2O3, V/(V+Ni), V/Cr, and Cu/Zn together indicate that Badaowan Fm. was deposited in an oxygen-poor transitional freshwater environment, under humid climatic conditions. Geochemical characteristics and Q–F–L, Qm–E–Lt , Th–Co–Zr/10, La–Th–Sc, and Th–Sc–Zr/10 discrimination diagrams indicate that the tectonic setting of the source area was a continental island arc environment. Lithological composition, Th/U ratios, and Co/Th–La/Sc, La/Th–Hf, and La/Yb–REE discrimination diagrams show that the source rocks of Badaowan Fm. were upper-crust felsic volcanic rocks. U-Pb dating of detrital zircons yields ages of 1 542.3±15.0 to 232.9±3.3 Ma and mostly in the ranges of 470–410 and 370–280 Ma. A comparison of these ages with the age data from different blocks of crystalline rock in Tianshan Mountains area reveals that the sedimentary rocks in the Badaowan Fm. were sourced predominantly from the central and subordinately from the southern Tianshan Mountains during Early Jurassic. |
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Keywords:
Junggar Basin
Badaowan Fm.
geochemistry
zircon U-Pb age
provenance
tectonic setting
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