姓名：张传琳，性别：男 ,民族：汉族 ,1968年生，职称：教授 ,籍贯：浙江安吉人

教育经历：

1986年至1990年 西安地质学院   学士

1994年至1997年 西安地质学院   硕士

1997年至2000年 南京大学       博士

工作经历：

1990年至1994年 新疆阿勒泰第四地质大队

2000年至2016年 南京地质矿产研究所

2016年至2024年 河海大学

2024年2月至今   中国石油大学（北京）克拉玛依校区

主讲课程：

普通地质学 地球科学概论 海陆起源

研究方向：

区域构造 岩石学

代表性成果：

塔里木前寒武纪地质、特提斯造山带研究

奖励：

中国地质学会银锤奖、国土资源部科技进步奖2等、石油化工学会科技进步奖2等、有色工业协会科技进步奖2等

论文：

Masumeh S., Zhang, C.L.*, Song, Z.H., Wang, H.R., 2024. Petrogenesis of the late Cenozoic potassium-rich volcanism in the NW Tibetan Plateau: Constraints on the mantle evolution through post-orogenic events. Lithos 468-469, 107514 (*corresponding author).

Zahid, H., Zhang, C,L.*, Masumeh, S., Song, Z.H., 2024. Fluid provenance and genetic type of the Bubin Cu-Pb polymetallic deposit, Kohistan-Ladakh island arc, north Pakistan: Evidence from mineralogy, fluid inclusion and O-H-S-Pb isotopes. Ore Geology Review 163, 105776 (*corresponding author).

Liu, X.Q., Zhang, C.L., Zou, H.B., Ye, X.T., 2023. Diverse metavolcanic sequences in the Cambrian accretionary complex at the Pamir Syntax: Implications for tectonic evolution from Proto-Tethys to Paleo-Tethys. Journal of Asian Earth Sciences, 241, 105481.

Zhang, C.L., Zou, H.B., Liu, X.Q., 2022. Cretaceous basalt-andesite sequence in the Southern Pamir: arc—back-arc architecture at the Pamir Plateau genetically related to the northward flat subductions of the Neo-Tethys Ocean. Lithos, 422-423, 106747.

Zhang, C.L., Li, H.K., 2022. The Tarim Craton in the Northwestern China. IGR, https://doi.org/10.1080/00206814.2022.2056719.

Hao, X.S., Zhang, C.L., Zhang, H.C., Ding, T., Ye, X.T., 2022. Origin of the Neoproterozoic Baijianshan Banded Iron Formation at the Southeastern Margin of the Tarim Block in NW China: Implication for an Extremely Reducing Ocean. Acta Geologica Sinica,96(1):208-220.

Zhang, C.L., Li, H.K., 2020. Comment on “How did the peripheral subduction drive the Rodinia breakup: Constraints from the Neoproterozoic tectonic process in the northern Tarim Craton” by Ren et al., 2020 (Precambrian Res., 339, 1–17). Precambrian Research https://doi.org/10.1016/j.precamres.2020.105711

Liu, X.Q., Zhang, C.L., Zou, H.B. et al., 2021. Triassic-Jurassic Granitoids and Pegmatites from Western Kunlun-Pamir Syntax: Implications for the Paleo-Tethys Evolution at the Northern Margin of the Tibetan Plateau. Lithosphere, https://doi.org/10.2113/2020/7282037

Liu, X.Q., Zhang, C.L*., Hao, X.S., Zou, H.B., Zhao, H.X., Ye, X.T., 2020. Early Cretaceous granitoids in the Southern Pamir: Implications for the Meso-Tethys evolution of the Pamir Plateau. Lithos, doi.org/10.1016/j.lithos.2020.105492.

Liu, X.Q., Zhang, C.L*., Ye, X.T., Zou, H.B., Zhao, H.X., Hao, X.S., 2019. Cambrian mafic and granitic intrusions in the Mazar-Tianshuihai terrane, West Kunlun Orogenic Belt: Constraints on the subduction orientation of the Proto-Tethys Ocean. Lithos, doi.org/10.1016/j.lithos.2019.105226 (*corresponding author).

Zhang, C.L., Li, H.K., R. Ernst, Liu, X.Q., Zhong, Y., Zhang, J., 2019. A fragment of the ca. 890 Ma large igneous province (LIP) in southern Tarim, NW China: a missing link between São Francisco, Congo and North China cratons. Precambrian Research. https://doi.org/10.1016/j.precamres.2019.105428.

Zhang, C.L., Zou, H.B., Ye, X.T., Chen, X.Y., 2019. Tectonic evolution of the West Kunlun Orogenic Belt along the northern margin of the Tibetan Plateau: implications for the assembly of the Tarim terrane to Gondwana. Geoscience Frontiers 10，973-988.

Zhang, C.L., Ye, X.T., R.E. Ernst, Zhong, Y., Zhang, J. Li, H.K., 2019. Revisiting the Precambrian evolution of the Southwestern Tarim terrane: Implications for its role in Precambrian supercontinents. Precambrian Research 324, 18-31.

Zhang, C.L., Zou, H.B., Ye, X.T., Cheng, X.Y., 2018. Timing of subduction initiation in the Proto-Tethys Ocean: evidence from the Cambrian gabbros from NE Pamir Plateau. Lithos, 314-315, 40-51.

Zhang, C.L., Zou, H.B., Ye, X.T., Chen, X.Y., 2018. A newly identified Precambrian terrane at the Pamir Plateau: The Archean basement and Neoproterozoic granitic intrusions. Precambrian Research 304, 73-87.

Zhang, C.L., Zou, H.B., Ye, X.T., Chen, X.Y., 2018. Tectonic evolution of the NE section of the Pamir Plateau: new evidence from field observations and zircon U-Pb geochronology. Tectonophysics. 723, 27-40.

Zhang, C.L., Zhu, Q.B., Chen, X.Y., Ye, H.M., 2016. Ordovician arc-related mafic intrusions in South China: implications for plate subduction along the southeastern margin of the South China in the early Paleozoic. The Journal of Geology 124, 743-767.

Zhang, C.L., Ye, X.T., Zou, H.B., Chen, X.Y., 2016. Neoproterozoic sedimentary basin evolution in southwestern Tarim, NW China: new evidence from field observations, detrital zircon U-Pb ages and Hf isotope compositions. Precambrian Research 280, 31-45.

Zhang, C.L., M. Santosh, Zhu, Q.B., Chen, X.Y., Huang, W.C., 2015. The Gondwana connection of South China: Evidence from monazite and zircon geochronology in the Cathaysia Block. Gondwana Research 28, 1137-1151.

Zhang, C.L., Zou, H.B., Zhu, Q.B., Chen, X.Y., 2015. Late Mesoproterozoic to early Neoproterozoic ridge subduction along the southern margin of the Jiangnan orogen: new evidences from the northeastern Jiangxi ophiolite (NJO), South China. Precambrian Research 268, 1-15.

Zhang, C.L., Zou, H.B., M. Santosh, Ye, X.T., Li, H.K., 2014. Is the Precambrian basement of the Tarim Craton in NW China composed of discrete terranes? Precambrian Research 254, 226-244.

Zhang, C.L., Zou, H.B., Yao, C.Y., Zou, G., Dong, Y.G., 2014. Origin of the Permian gabbroic intrusions in the southern margin of the Altai Orogen: A possible link to the Permian Tarim mantle plume? Lithos 204, 112-124.

Zhang, C.L., Li, H.K., M. Santosh. 2013. Revisiting to tectonic evolution of the South China: interaction between Rodinia supperplume and plate subduction. Terra Nova 25, 212-220.

Zhang, C.L., M. Santosh, Zou, H.B., Li, H.K., Huang, W.C., 2013. The Fuchuan ophiolite in Jiangnan Orogen: Geochemistry, zircon U–Pb geochronology, Hf isotope and implications for the Neoproterozoic assembly of South China. Lithos 179, 263-274

Zhang, C.L., Zou, H.B., 2013. Comparison between the Permian mafic dykes in Tarim and the western part of Central Asian Orogenic Belt (CAOB), NW China: implications for two mantle domains of the Permian Tarim Large Igneous Province. Lithos 174, 15-27.

Zhang, C.L., Zou, H.B., 2013. Permian A-type granites and Tarim and western part of the Central Asia Orogenic Belt (CAOB): Genetically related to a common Permian mantle plume? Lithos 172-173, 47-60.

Zhang, C.L., Li, H. K., Zou, H.B., 2013. Tectonic framework and evolution of the Tarim Block in NW China. Gondwana Research 23, 1306-1315.

Zhang, C.L., M. Santosh, Li, H.K., Li, Z.X., Zou, H.B., Wang, H.Y., Ye, H.M., 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.

Zhang, C.L., Li, H.K., Zou, H.B., Wang, H.Y., 2012. Multiple phases of Neoproterozoic ultramafic-mafic complex in Kuruqtagh, northern margin of Tarim: interaction between plate subduction and mantle plume? Precambrian Research 222-223, 488-502.

Zhang, C.L., M. Santosh, Zou H.B., Dong, Y.G. 2012. Revisiting the "Irtish tectonic belt": implications for the Paleozoic evolution of the Altaid orogen. Journal of Asian Earth Sciences 52, 117-133.

Zhang, C.L., Li, X.H., Li, Z.X., Ye, H.M., 2011. Neoproterozoic layered ultramafic-mafic intrusive complex in Quruqtagh of the northeastern Tarim Block, NW China: two phases of mafic igneous activities with different mantle sources. Gondwana Research 19, 177-190.

Zhang, C.L., Li, Z.X., Li, X.H., Xu, Y.G., Zhou, G., Ye, H.M., 2010. A Permian Large Igneous Province in Tarim and Central Asian Orogenic Blet (CAOB), NW China: Results of a ca. 275 Ma mantle plume? GSA Bulletin. 2020-2040.

Zhang, C.L., Xu, Y.G., Li, Z.X., Wang, H.Y., 2010. Diverse Permian magmatism in the Tarim Block, NW China: Genetically linked to the Permian Tarim mantle plume? Lithos, 119, 537-552.

Zhang, C.L., Yang, D.S., Wang, H.Y., 2010. Neoproterozoic mafic dyke swarm and basalt in southern margin of the Tarim Block: age, geochemistry and their geodynamic implications. Acta Geologica Sinica. 84, 549-562 (English edition).

Zhang, C.L., Li, Z.X., Li, X.H., Ye, H.M., 2009. Neoproterozoic mafic dyke swarms in northern margin of the Tarim Block: Age, geochemistry and implications on the breakup of Rodinia. Journal of Asian Earth Sciences 35, 167-179.

Zhang, C.L., Li, X.H., Li, Z.X., Ye, H.M., 2008. Permian layered ultramafic-mafic-syenite intrusive complex in western Tarim block, NW China: genetically related to a Permian mantle plume under Tarim? The Journal of Geology 116, 263-281.

Zhang, C.L., Li, Z.X., Li, X.H., Ye, H.M., 2007. Neoproterozoic ultramafic-mafic- carbonate complex, adakite-like granodiorite-granite plutons in Kuruketage, northeastern Tarim Block, NW China: geochronology, geochemistry and their tectonic implications. Precambrian Research 152: 149-169.

Zhang, C.L., Li Z. X., Li X. H., Wang A. G. and Guo K. Y., 2006. Neoproterozoic bimodal intrusive complex in southwestern Tarim block of NW China: age, geochemistry and Nd isotope and implications for the rifting of Rodinia. International Geology Review 48, 112-128.

Zhang, C.L., Yu, H. F., Ye, H. M., 2006. Discussions on the Neoproterozoic diorites in central Tarim basin: a comment on “Geochronology and geochemistry of deep-drill-core samples from the basement of the central Tarim basin” by Guo et al. (Journal of Asia Earth Sciences, 2005, vol. 25, 45-56). Journal of Asia Earth Sciences 29, 177-180.

Zhang, C.L., Li, Z.X., Li, X.H., Ye, H.M., 2007. Early Palaeoproterozoic high-K intrusive complex in southwestern Tarim Block, NW China: age, geochemistry and implications for the Paleoproterozoic tectonic evolution of Tarim. Gondwana Research 12: 101-112.

Zhang, C.L., Yu, H. F., Ye, H. M., et al., 2006. Aoyitake plagiogranite in western Tarim Block, NW China: Age, geochemistry, petrogenesis and its tectonic implications. Science in China (series D) 49(11),1121-1134.

Zhang, C.L., Lu S. N., Yu H. F., Ye H. M., 2007. Tectonic evolution of Western Orogenic belt: evidences from zircon SHRIMP and LA-ICP-MS U-Pb ages. Science in China (series D) 50(1), 1-12.

Ye, H., Li, X.H., Li, Z.X., Zhang, C.L.*, 2008. Age and origin of the high Ba-Sr granitoids from northern Qinghai-Tibet Plateau: implications for the early Paleozoic tectonic evolution of the Western Kunlun orogenic belt. Gondwana Research 13, 126-138 (*Corresponding author).

Ye, X.T., Zhang, C.L.*, Zou, H.B., Zhou, G., Yao, C.Y., Dong, Y.G., 2015. Devonian Alaskan-type ultramafic–mafic intrusions and silicic igneous rocks along the southern Altai orogen: Implications on the Phanerozoic continental growth of the Altai orogen of the Central Asian Orogenic Belt. Journal of Asian Earth Sciences 113, 75-89 (*Corresponding author).

Ye, X.T., Zhang, C.L *, M. Santosh, Zhang, J., Fan, X.K., Zhang, J., 2016. Growth and evolution of Precambrian continental crust in thesouthwestern Tarim terrane: New evidence from the ca. 1.4 Ga A-typegranites and Paleoproterozoic intrusive complexg. Precambrian Research 275, 18–34 (*Corresponding author).

Ye, X.T., Zhang, C.L.*, Zou, H.B., Zhou, G., Yao, C.Y., Dong, Y.G., 2017. Age and geochemistry of the Zhaheba ophiolite complex in eastern Junggar of the Central Asian Orogenic Belt (CAOB): implications for the accretion process of the Junggar terrane. Geol. Mag., 154, 419-440 (*Corresponding author).

专利：

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联系方式：

Email: zhangchuanlin@hhu.edu.cn