塔里木盆地古生代关键期构造演变驱动机制：来自柯坪地区碎屑物源属性示踪的约束

郭春涛; 高剑; 李忠

doi:10.3799/dqkx.2023.169

Volume 49 Issue 11

Nov. 2024

Turn off MathJax

Article Contents

Article Navigation > Earth Science > 2024 > 49(11): 4112-4129

Guo Chuntao, Gao Jian, Li Zhong, 2024. Driving Mechanism of Tectonic Evolution in Key Paleozoic Period in Tarim Basin: Constraints from Tracing of Provenance Attributes in Keping Area. Earth Science, 49(11): 4112-4129. doi: 10.3799/dqkx.2023.169

Citation:

Guo Chuntao, Gao Jian, Li Zhong, 2024. Driving Mechanism of Tectonic Evolution in Key Paleozoic Period in Tarim Basin: Constraints from Tracing of Provenance Attributes in Keping Area. Earth Science, 49(11): 4112-4129. doi: 10.3799/dqkx.2023.169

Citation:

Guo Chuntao, Gao Jian, Li Zhong, 2024. Driving Mechanism of Tectonic Evolution in Key Paleozoic Period in Tarim Basin: Constraints from Tracing of Provenance Attributes in Keping Area. Earth Science, 49(11): 4112-4129. doi: 10.3799/dqkx.2023.169

PDF( 7078 KB)

Driving Mechanism of Tectonic Evolution in Key Paleozoic Period in Tarim Basin: Constraints from Tracing of Provenance Attributes in Keping Area

doi: 10.3799/dqkx.2023.169

Guo Chuntao^{1, 2, 3
,
,},
Gao Jian^{3, 4},
Li Zhong^{3, 5
,
,
,}

1.
The Cultivation Base of Shanxi Key Laboratory of Mining Area Ecological Restoration and Solid Wastes Utilization, Yangquan 045000, China
2.
Department of Earth Sciences and Engineering, Shanxi Institute of Technology, Yangquan 045000, China
3.
Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing 100029, China
4.
Beijing Institute of Geothermal Research, Beijing 100143, China
5.
College of Earth and Planetary Sciences, University of Chinese Academy of Sciences, Beijing 100049, China

Received Date: 2023-08-19
Publish Date: 2024-11-25

Abstract

Abstract

The dynamic source of the Paleozoic multistage tectonic pattern changes in Tarim basin, especially the reason for the sharp change of the basin tectonic pattern in the Middle and Late Early Paleozoic, has always been the focus of controversy among many scholars. Based on the analysis of heavy mineral assemblages, in this paper it conducts a detailed U-Pb chronological study of detrital zircons from the Furongian to the Cisuralian sandstone samples in Keping area, northwest margin of Tarim basin, in order to determine the provenance system of Keping area, and describe the sedimentary tectonic evolution process of this area. The results show that the detrital zircon samples recorded five tectonic thermal events at 500-420 Ma, 870-710 Ma, 1 100-880 Ma, 2 000-1 710 Ma, and 2 570-2 400 Ma, with the previous three periods being the main age. Compared with the potential provenance areas, the palaeouplift in Tarim basin has always been an important provenance area in Keping area during the Furongian; In addition to the palaeouplift within the basin, there may also be two source areas during the Silurian to the Devonian. The northern source area is the northern margin of the Tarim craton, and the southern source area may be the West Kunlun orogenic belt. The main source of study area is the palaeouplift within the basin during the Carboniferous to the earliest Permian, which originated from the erosion of previous strata. Comprehensive research suggests that the Middle Tianshan terrane may have been connected to the Tarim craton before the Early and Middle Devonian. After this period, the Middle Tianshan terrane gradually separated from the Tarim craton, and the South Tianshan Ocean gradually formed. Correspondingly, due to the formation, subduction, closure of the ocean basin on the north side of the Tarim craton, the structural attributes of the northern margin of the basin have undergone multi-stage changes.
- Keping area,
- Paleozoic tectonic evolution,
- detrital zircon,
- provenance system,
- tectonic evolution,
- U-Pb,
- isotopes,
- tectonics

FullText(HTML)

References(56)

References

Biske, Y. S., Alexeiev, D. V., Ershova, V. B., et al., 2019. Detrital Zircon U⁃Pb Geochronology of Middle Paleozoic Sandstones from the South Tianshan (Kyrgyzstan): Implications for Provenance and Tectonic Evolution of the Turkestan Ocean. Gondwana Research, 75: 97-117. https://doi.org/10.1016/j.gr.2019.04.010

Carroll, A. R., Graham, S. A., Chang, E. Z., et al., 2001. Sinian through Permian Tectonostratigraphic Evolution of the Northwestern Tarim Basin, China. Geological Society of America Memoir, 194: 47-70.

Carroll, A. R., Graham, S. A., Hendrix, M. S., et al., 1995. Late Paleozoic Tectonic Amalgamation of NorthWestern China: Sedimentary Record of the Northern Tarim, Northwestern Turpan, and Southern Junggar Basins. Geological Society of America Bulletin, 107(5): 571-594. https://doi.org/10.1130/0016⁃7606(1995)1070571: lptaon>2.3.co;2 doi: 10.1130/0016⁃7606(1995)1070571:lptaon>2.3.co;2

Chang, J., Qiu, N. S., Li, J. W., 2012. U⁃Pb Dating of Detrital Zircon from Lower Silurian in Keping Area of Tarim Basin and Its Geological Implication. Journal of Earth Sciences and Environment, 34(3): 32-43 (in Chinese with English abstract).

Charvet, J., Shu, L. S., Laurent⁃Charvet, S., 2007. Paleozoic Structural and Geodynamic Evolution of Eastern Tianshan (NW China): Welding of the Tarim and Junggar Plates. Episodes, 30(3): 162-186.

Charvet, J., Shu, L. S., Laurent⁃Charvet, S., et al., 2011. Palaeozoic Tectonic Evolution of the Tianshan Belt, NW China. Science China Earth Sciences, 54(2): 166-184. https://doi.org/10.1007/s11430⁃010⁃4138⁃1

Gao, J., Qian, Q., Long, L. L., et al., 2009. Accretionary Orogenic Process of Western Tianshan, China. Geological Bulletin of China, 28(12): 1804-1816 (in Chinese with English abstract).

Ge, R. F., Wilde, S. A., Zhu, W. B., et al., 2022. Formation and Evolution of Archean Continental Crust: A Thermodynamic⁃Geochemical Perspective of Granitoids from the Tarim Craton, NW China. Earth⁃Science Reviews, 234: 104219. https://doi.org/10.1016/j.earscirev.2022.104219

Ge, R. F., Zhu, W. B., Wu, H. L., et al., 2012. The Paleozoic Northern Margin of the Tarim Craton: Passive or Active? Lithos, 142: 1-15. https://doi.org/10.1016/j.lithos.2012.02.010

Guo, C. T., Dong, S. L., Li, Z., 2019. Detrital Zircon U⁃Pb Geochronology of Upper Cambrian⁃Lower Silurian Sandstone in the Wushi Area, Northwestern Margin of Tarim Basin: Implications for Provenance System and Tectonic Evolution. Acta Geologica Sinica, 93(11): 2759-2769 (in Chinese with English abstract). doi: 10.3969/j.issn.0001-5717.2019.11.004

Guo, C. T., Gao, J., Li, Z., 2018. Depositional and Provenance Record of Lower Permian Sandstones from Sishichang Area, Northwestern Tarim Basin: Implications for Tectonic Evolution. Earth Science, 43(11): 4149-4168 (in Chinese with English abstract).

Guo, C. T., Gao, J., Li, Z., et al., 2017. Depositional and Provenance Records of Upper Devonian to Lower Carboniferous Sandstones from Bachu Area, Northwestern Tarim Basin: Implications for Tectonic Evolution. Earth Science, 42(3): 421-434 (in Chinese with English abstract).

Han, Y. G., Zhao, G. C., Sun, M., et al., 2015. Paleozoic Accretionary Orogenesis in the Paleo⁃Asian Ocean: Insights from Detrital Zircons from Silurian to Carboniferous Strata at the Northwestern Margin of the Tarim Craton. Tectonics, 34(2): 334-351. https://doi.org/10.1002/2014tc003668

Li, P. F., Sun, M., Rosenbaum, G., et al., 2020. Tectonic Evolution of the Chinese Tianshan Orogen from Subduction to Arc⁃Continent Collision: Insight from Polyphase Deformation along the Gangou Section, Central Asia. GSA Bulletin, 132(11-12): 2529-2552. https://doi.org/10.1130/b35353.1

Li, X. Q., Ding, H. K., Peng, P., et al., 2021. Provenance of Silurian Kepingtage Formation in Tazhong Area, Tarim Basin: Evidence from Detrital Zircon U⁃Pb Geochronology. Earth Science, 46(8): 2819-2831 (in Chinese with English abstract).

Li, Z., Gao, J., 2016. Characteristic Source⁃Sink Systems and Palaeogeographic Reconstruction in Active Tectonic Regions: A Case Research on Detrital Zircons Recording the Pan⁃African Event in Northern Tarim Block. Journal of Palaeogeography, 18(3): 424-440 (in Chinese with English abstract).

Li, Z., Gao, J., Guo, C. T., et al., 2015. Devonian⁃ Carboniferous Tectonic Evolution of Continental Margins in Northern Tarim Block, Northwest China: Constrained by Basin⁃Fill Sequences and Provenance Systems. Earth Science Frontiers, 22(1): 35-52 (in Chinese with English abstract).

Li, Z., Peng, S. T., 2013. U⁃Pb Geochronological Records and Provenance System Analysis of the Mesozoic⁃ Cenozoic Sandstone Detrital Zircons in the Northern and Southern Piedmonts of Tianshan, Northwest China: Responses to Intracontinental Basin⁃Range Evolution. Acta Petrologica Sinica, 29(3): 739-755 (in Chinese with English abstract).

Lin, C. S., Li, S. T., Liu, J. Y., et al., 2011. Tectonic Framework and Paleogeographic Evolution of the Tarim Basin during the Paleozoic Major Evolutionary Stages. Acta Petrologica Sinica, 27(1): 210-218 (in Chinese with English abstract).

Lin, W., Chu, Y., Ji, W. B., et al., 2013. Geochronological and Geochemical Constraints for a Middle Paleozoic Continental Arc on the Northern Margin of the Tarim Block: Implications for the Paleozoic Tectonic Evolution of the South Chinese Tianshan. Lithosphere, 5(4): 355-381. https://doi.org/10.1130/l231.1

Liu, G. P., 2021. Paleozoic Crustal Growth and Evolution of the Southern Tianshan Orogenic Belt-Constraints from Zircon Chronology and Hf Isotopes of Modern River Detrital (Dissertation). China University of Mining and Technology, Xuzhou, 175 (in Chinese with English abstract).

Liu, J. Y., Lin, C. S., Li, S. T., et al., 2012a. Detrital Zircon U⁃Pb Geochronology and Its Provenance Implications on Silurian Tarim Basin. Journal of Earth Science, 23(4): 455-475.

Liu, J. Y., Yang, H. J., Yang, Y. H., et al., 2012b. The U⁃Pb Chronologic Evidence and Sedimentary Responses of Silurian Tectonic Activities at Northeastern Margin of Tarim Basin. Science China Earth Sciences, 55(9): 1445-1460.

Ma, X. X., Shu, L. S., Jahn, B. M., et al., 2012a. Precambrian Tectonic Evolution of Central Tianshan, NW China: Constraints from U⁃Pb Dating and In Situ Hf Isotopic Analysis of Detrital Zircons. Precambrian Research, 222: 450-473.

Ma, X. X., Shu, L. S., Santosh, M., et al., 2012b. Detrital Zircon U⁃Pb Geochronology and Hf Isotope Data from Central Tianshan Suggesting a Link with the Tarim Block: Implications on Proterozoic Supercontinent History. Precambrian Research, 206: 1-16. https://doi.org/10.1016/j.precamres.2012.02.015

Morton, A., Allen, M., Simmons, M., et al., 2003. Provenance Patterns in a Neotectonic Basin: Pliocene and Quaternary Sediment Supply to the South Caspian. Basin Research, 15(3): 321-337. https://doi.org/10.1046/j.1365⁃2117.2003.00208.x

Rojas⁃Agramonte, Y., Kröner, A., Alexeiev, D. V., et al., 2014. Detrital and Igneous Zircon Ages for Supracrustal Rocks of the Kyrgyz Tianshan and Palaeogeographic Implications. Gondwana Research, 26(3-4): 957-974. https://doi.org/10.1016/j.gr.2013.09.005

Shu, L. S., Deng, X. L., Zhu, W. B., et al., 2011. Precambrian Tectonic Evolution of the Tarim Block, NW China: New Geochronological Insights from the Quruqtagh Domain. Journal of Asian Earth Sciences, 42(5): 774-790. https://doi.org/10.1016/j.jseaes.2010.08.018

Wang, B., Shu, L. S., Faure, M., et al., 2011. Paleozoic Tectonics of the Southern Chinese Tianshan: Insights from Structural, Chronological and Geochemical Studies of the Heiyingshan Ophiolitic Mélange (NW China). Tectonophysics, 497(1-4): 85-104. https://doi.org/10.1016/j.tecto.2010.11.004

Wang, B., Song, F., Ni, X. H., et al., 2022. Paleozoic Accretionary Orogenesis and Major Transitional Tectonic Events of the Tianshan Orogen. Acta Geologica Sinica, 96(10): 3514-3540 (in Chinese with English abstract).

Wang, X. S., Klemd, R., Gao, J., et al., 2018. Final Assembly of the Southwestern Central Asian Orogenic Belt as Constrained by the Evolution of the South Tianshan Orogen: Links with Gondwana and Pangea. Journal of Geophysical Research: Solid Earth, 123(9): 7361-7388. https://doi.org/10.1029/2018jb015689

Wang, Z. H., Qi, Y. P., Bergström, S. M., 2007. Ordovician Conodonts of the Tarim Region, Xinjiang, China: Occurrence and Use as Paleoenvironment Indicators. Journal of Asian Earth Sciences, 29(5-6): 832-843. https://doi.org/10.1016/j.jseaes.2006.05.007

Xu, Z. Q., Li, S. T., Zhang, J. X., et al., 2011. Paleo⁃Asian and Tethyan Tectonic Systems with Docking the Tarim Block. Acta Petrologica Sinica, 27(1): 1-22 (in Chinese with English abstract).

Zhang, C. L., Li, H. K., Santosh, M., et al., 2012. Precambrian Evolution and Cratonization of the Tarim Block, NW China: Petrology, Geochemistry, Nd⁃Isotopes and U⁃Pb Zircon Geochronology from Archaean Gabbro⁃TTG⁃Potassic Granite Suite and Paleoproterozoic Metamorphic Belt. Journal of Asian Earth Sciences, 47: 5-20. https://doi.org/10.1016/j.jseaes.2011.05.018

Zhang, C. L., Zou, H. B., Li, H. K., et al., 2013. Tectonic Framework and Evolution of the Tarim Block in NW China. Gondwana Research, 23(4): 1306-1315. https://doi.org/10.1016/j.gr.2012.05.009

Zhang, S. B., Gao, Q. Q., 1992. Stratigraphy and Paleontology through Sinian to Permian in Tarim. Petroleum Industrial Press, Beijing, 383 (in Chinese).

Zhang, X., Wang, X. S., Jiang, T., et al., 2022. Petrogenesis and Tectonic Setting of the Late Carboniferous Igneous Rocks in the Baluntai Region of the Chinese Western Tianshan. Earth Science, 47(3): 1038-1058 (in Chinese with English abstract).

Zhao, Z. J., Pan, M., Yang, H. J., et al., 2010. The Source Rock of Turbidites of Middle⁃Upper Ordovician in Tarim Basin and Its Tectonic Significance. Chinese Journal of Geology (Scientia Geologica Sinica), 45(3): 681-697 (in Chinese with English abstract).

Zhou, Z. Y., 2001. Strata of Various Periods in Tarim Basin. Science Press, Beijing (in Chinese with English abstract).

常健, 邱楠生, 李佳蔚, 2012. 塔里木柯坪地区下志留统碎屑锆石U⁃Pb年代学特征及其地质意义. 地球科学与环境学报, 34(3): 32-43.

高俊, 钱青, 龙灵利, 等, 2009. 西天山的增生造山过程. 地质通报, 28(12): 1804-1816.

郭春涛, 董顺利, 李忠, 2019. 塔里木盆地西北缘乌什地区上寒武统—下志留统碎屑锆石U⁃Pb年代学及对物源体系和构造演化的指示. 地质学报, 93(11): 2759-2769.

郭春涛, 高剑, 李忠, 2018. 塔里木盆地西北缘四石厂地区下二叠统沉积与物源记录及其反映的构造演化. 地球科学, 43(11): 4149-4168. doi: 10.3799/dqkx.2017.595

郭春涛, 高剑, 李忠, 等, 2017. 塔里木盆地巴楚地区上泥盆统‒下石炭统沉积‒物源记录及其构造演化. 地球科学, 42(3): 421-434. doi: 10.3799/dqkx.2017.032

李祥权, 丁洪坤, 彭鹏, 等, 2021. 塔里木盆地塔中志留系柯坪塔格组物源示踪: 碎屑锆石U⁃Pb年代学证据. 地球科学, 46(8): 2819-2831. doi: 10.3799/dqkx.2020.197

李忠, 高剑, 2016. 构造活动区特征源汇体系及古地理重建: 以塔里木块体北缘记录"泛非"事件的碎屑锆石分析为例. 古地理学报, 18(3): 424-440.

李忠, 高剑, 郭春涛, 等, 2015. 塔里木块体北部泥盆‒石炭纪陆缘构造演化: 盆地充填序列与物源体系约束. 地学前缘, 22(1): 35-52.

李忠, 彭守涛, 2013. 天山南北麓中‒新生界碎屑锆石U⁃Pb年代学记录、物源体系分析与陆内盆山演化. 岩石学报, 29(3): 739-755.

林畅松, 李思田, 刘景彦, 等, 2011. 塔里木盆地古生代重要演化阶段的古构造格局与古地理演化. 岩石学报, 27(1): 210-218.

刘桂萍, 2021. 南天山造山带古生代地壳生长与演化: 来自现代河流碎屑锆石年代学及Hf同位素的约束. 徐州: 中国矿业大学.

王博, 宋芳, 倪兴华, 等, 2022. 天山古生代增生造山作用及其构造转换事件. 地质学报, 96(10): 3514-3540.

许志琴, 李思田, 张建新, 等, 2011. 塔里木地块与古亚洲/特提斯构造体系的对接. 岩石学报, 27(1): 1-22.

张师本, 高琴琴, 1992. 塔里木盆地震旦纪至二叠纪地层古生物. 北京: 石油工业出版社, 383.

张喜, 王信水, 江拓, 等, 2022. 西天山巴仑台地区晚石炭世岩浆岩的岩石成因及其构造背景. 地球科学, 47(3): 1038-1058. doi: 10.3799/dqkx.2021.187

赵宗举, 潘懋, 杨海军, 等, 2010. 塔里木盆地中‒上奥陶统浊积岩物源分析及大地构造意义. 地质科学, 45(3): 681-697.

周志毅, 2001. 塔里木盆地各纪地层. 北京: 科学出版社.

Relative Articles

Supplements(0)

Cited By

Proportional views

Proportional views

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Figures(9) / Tables(3)

Get Citation

PDF

XML

Article views (276) PDF downloads(56)

Driving Mechanism of Tectonic Evolution in Key Paleozoic Period in Tarim Basin: Constraints from Tracing of Provenance Attributes in Keping Area

doi: 10.3799/dqkx.2023.169

Abstract

References

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Proportional views

Export File

Citation

Format

Content