Discussion on Mesozoic Geochemical Characteristics and Genesis of Nadanhada Terrane

Guohui Qu; Weizhong He; Zilu Zhang; Xuebin Tian; Bowen Li; Xiunan Li; Yikun Liu

doi:10.54691/fse.v2i10.2548

Authors

Guohui Qu
Weizhong He
Zilu Zhang
Xuebin Tian
Bowen Li
Xiunan Li
Yikun Liu

DOI:

https://doi.org/10.54691/fse.v2i10.2548

Keywords:

Nadanhada Terrane, Cooling and Exhumation History, Siliceous Rocks, Geochemistry

Abstract

Through field geological survey and drilling exploration in Sanjiang Basin, combined with geochemical analysis, the tectonic thermal evolution history of intrusive rocks is studied. The results show that the Early Mesozoic siliceous rocks in Qianjin Depression of Sanjiang Basin are widely distributed. The siliceous rocks are of post diagenetic hydrothermal metasomatic origin, and the hydrocarbon source rock indicators are good, which is expected to be a new formation for oil and gas exploration in Sanjiang area. The time temperature thermal history simulation of fission track shows that there have been two rapid cooling events (late Early Cretaceous Late Cretaceous and Paleocene Eocene) in the Nadanhadaling area since the Mesozoic era, with cooling rates of 3.42~4.81 ℃/Ma and 1.43~1.83 ℃/Ma, respectively. The two rapid cooling processes were caused by the subduction of the Pacific plate. The rapid cooling during the Early Cretaceous to the Late Cretaceous was caused by the change of the subduction direction of the Pacific plate and the collision and superposition of the Okot Motsk block and the East Asian continental margin; The rapid cooling from Paleocene to Eocene was mainly caused by the subduction and retreat of the Pacific plate, which made the East Asian continental margin in an extensional environment and caused denudation and cooling in most parts of Northeast China.

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References

Zhang Wenhao, Liu Weibin, Wang Dandan, Zhang Jiaodong, Zhou Xingui, Li Shizhen, Meng Yuanlin, Zhou Jianbo, Chen Kongquan, Liu Yabin, Xiao Lihua. 2020. Hydrocarbon generation potential of Early Mesozoic siliceous mudstone in Sanjiang Basin, Northeast China[J]. Geology in China, 47(1): 121-132(in Chinese with English abstract).

G.H. Qu,N. Liu, Y.L. Meng and X.N. Li(2019). Research progress on migration and accretion of Nadanhada terrane. International Conference on Oil & Gas Engineering and Geological Sciences, vol.384,no.1,p.12120.

G.H. Qu,N. Liu, Y.L. Meng and X.N. Li(2019). Advances in tectonic genesis of Nadanhada terrane. International Conference on Oil & Gas Engineering and Geological Sciences, vol.384,no.1,p.12121.

G.H. Qu,N. Liu, Y.L. Meng and X.N. Li(2019). Evaluation of Source Rocks in Sanjiang Basin of Nadanhada Terrane, vol.6,no.5,p.276-279.

WANG Shan, CAO Yinghui, ZHANG Yajin, et al.Origin and geochemical characteristics of siliceous rocks in the third Member of Yingshan Formationin Guchengarea, Tarim Basin[J]. Natural Gas Geoscience, 2020, 31(5):710-720.

G.H. Qu,N. Liu,Y.K. Liu Y.L. Meng,Z.L. Zhang,W.Z. He(2021). Simulation Study of Hydrocarbon Generation Characteristics in the Siliceous Rock. CHEMISTRY AND TECHNOLOGY OF FUELS AND OILS, vol.56,no.6,p. 985-993.

Yang Xueye, Yin Jiyuan, Xiao Wenjiao, Chen Wen, Chen Yuelong, Sun Jingbo, Zhang Bin, Wang Yamei.2021. Late Mesozoic and Cenozoic tectono-thermal history of the Nadanhada region, NE China: evidence from combined fission track and (U-TH)/He the rom chromo chronology. Acta Geologica Sinica, 95(12):3660~3675.