Zhang Zhibo, Li Huan, Zheng Weiqing, Whattam Scott A, Zhu Zhijun, Jiang Weicheng, Zhao Difei
School of Resources and Geosciences, China University of Mining and Technology, Xuzhou, Jiangsu 221116, China.
School of Geosciences and Info-Physics, Central South University, Changsha 410083, China.
ACS Omega. 2023 Jul 12;8(29):26458-26478. doi: 10.1021/acsomega.3c03144. eCollection 2023 Jul 25.
The Chamdo Basin is a secondary basin in the eastern part of Tibet China and is one of the most promising of petroliferous basins for new petroleum exploration. The Qamdo Basin records a complex burial history from the Mesozoic to the Cenozoic; however, the poorly constrained sedimentology of Cenozoic strata in this basin has severely obscured the overall profile and impeded further explorations of oil and gas resources. Here, we conduct whole-rock geochemical analyses of major, trace, and rare earth elements in fine-grained clastic rocks of the Paleocene Gongjue Formation, Qamdo Basin to reveal depositional environments, provenance, and tectonic setting. Petrologically, the Gongjue Formation is dominated by red fine-grained sandy mudstones/siltstones with ripple marks. The high values of the chemical index of alteration (avg. of 78.93), chemical index of weathering (avg. of 90.10), and index of compositional variability (avg. of 2.5) suggest that the basin has undergone heavy weathering. Cross-plots of La vs Th, Th vs Sc vs Zr/10, and Th vs Co vs Zr/10 reveal a continental arc tectonic setting. Paleosalinity (Sr/Ba), paleoclimate (Sr/Cu), and redox proxies (V/Cr, U/Th, and enrichment factors of Mo and U) indicate brackish to saline and oxidizing paleowater masses during deposition of the Gongjue Formation. Provenance analyses via elements and petrology reveal that sediments in the Gongjue Formation are mainly derived from intermediate-acidic rocks of the upper crust. We conclude that the first and third members are more arid climate and heavily chemically weathered than the second member. In combination with previous studies of the structural evolution of the Qamdo Basin since the Paleogene, a model is built to describe the sedimentary environment and evolution of the Qamdo Basin during transition to the Paleocene. The first and third members, i.e., the Eg and Eg members of the Gongjue Formation, are dominated by an oxidizing environment of seawater-saltwater, and the climate ranges from warm and humid to arid and hot, with relatively stable environmental changes. The Eg member of the Gongjue Formation is dominated by an oxidizing environment of seawater-saltwater, and the climate ranges from warm and humid to arid and hot, with more frequent environmental evolution. Our model aids in better understanding of the Paleocene climate evolution of the eastern Tibetan Plateau.
昌都盆地是中国西藏东部的一个次级盆地,是新石油勘探最具潜力的含油盆地之一。昌都盆地记录了从中生代到新生代复杂的埋藏历史;然而,该盆地新生代地层沉积学约束较差,严重模糊了整体轮廓,阻碍了油气资源的进一步勘探。在此,我们对昌都盆地古新世贡觉组细粒碎屑岩中的主量、微量和稀土元素进行了全岩地球化学分析,以揭示沉积环境、物源和构造背景。岩石学上,贡觉组以具波纹的红色细粒砂质泥岩/粉砂岩为主。蚀变化学指数(平均78.93)、风化化学指数(平均90.10)和成分变异指数(平均2.5)的高值表明该盆地经历了强烈风化作用。La与Th、Th与Sc与Zr/10以及Th与Co与Zr/10的交会图揭示了大陆弧构造背景。古盐度(Sr/Ba)、古气候(Sr/Cu)和氧化还原指标(V/Cr、U/Th以及Mo和U的富集系数)表明贡觉组沉积期间为微咸至咸水和氧化的古水体。通过元素和岩石学进行的物源分析表明,贡觉组沉积物主要来源于上地壳的中酸性岩石。我们得出结论,第一段和第三段的气候比第二段更干旱,化学风化更强烈。结合前人对昌都盆地古近纪以来构造演化的研究,建立了一个模型来描述昌都盆地向古新世过渡期间的沉积环境和演化。第一段和第三段,即贡觉组的E1g段和E3g段,以海水-咸水氧化环境为主,气候从温暖湿润到干旱炎热,环境变化相对稳定。贡觉组E2g段以海水-咸水氧化环境为主,气候从温暖湿润到干旱炎热,环境演化更为频繁。我们的模型有助于更好地理解青藏高原东部古新世的气候演化。
