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Researchgate ID: https://www.researchgate.net/profile/Yang-Chu-7
Google scholar: https://scholar.google.com/citations?user=tFBcFEoAAAAJ&hl=en
ORCID: https://orcid.org/0000-0003-3253-9599

發(fā)表文章（^#指導學(xué)生，*通訊作者）：

2024年：

1. Meng, L.T.#, Chu, Y.*, Lin, W., Ross, M.N., Zhao, L. 2024. Bulldoze and rebuild: Modifying cratonic lithosphere via removal and replacement induced by continental subduction. Geology, https://doi.org/10.1130/G51766.1.
   
2. Chu, Y., Liu, T.J., Lin, W., Meng, L.T., Feng, Z.T., Wei, W., Ji, W.B., Xue, Z.H. 2024. Lithospheric reworking and thinning by cyclical continental extension: A synthesis of Cretaceous extensional domes in the South China Block. Comptes Rendus-Geosciences, 356, https://doi.org/10.5802/crgeos.245.

2023年：

2. Meng, L.^#, Chu, Y.*, Lin, W., Zhao, L., Wei, W., Liu, F., Wang, Y., Song, C., Wu, Q., 2023. Decoding the link between magmatic cyclicity and episodic variation of tectonics and crustal thickness in the overriding plate. Tectonics, 42, e2023TC008040.
3. Wan, B., Chu, Y., Chen, L., Zhang, Z., Ao, S., Talebian, M. 2023. When and why the Neo-Tethyan subduction initiated along the Eurasian margin: a case study from a Jurassic eclogite in southern Iran. In Compressional Tectonics: Plate Convergence to Mountain Building (pp. 245-260). John Wiley & Sons Inc New Jersey.
4. Liang, X.F., Chu, Y., Wan, B., Chen, L., Chen, L., Sandvol, E., Grand, S.P., Li, Y.B., Wang, M.L., Tian, X.B., Chen, Y., Xu, T., Li, Y., Ji, W.Q. 2023. Fragmentation of continental subduction is ending the Himalayan orogeny, Science Bulletin. https://doi.org/10.1016/j.scib.2023.10.017.
5. 梁曉峰, 陳凌, 田小波, 褚楊, 李文濤. 2023. 青藏高原地殼結構特征指示的高原隆升機制, 中國科學(xué): 地球科學(xué), https://doi.org/10.1360/SSTe-2023-0027.
6. Liang, X., Chen, L., Tian, X., Chu, Y., & Li, W. 2023. Uplifting mechanism of the Tibetan Plateau inferred from the characteristics of crustal structures. Science China Earth Sciences, 1-21.
7. Li, T., Jiang, M., Zhao, L., Chu, Y., Yao, W., Wan, B., et al. 2023. Continental fragments in the South China Block: Constraints from crustal radial anisotropy. Journal of Geophysical Research: Solid Earth, 128, e2023JB026998. https://doi.org/10.1029/2023JB026998.
8. Liu, F., Lin, W., Wang, Y., Meng, L., Faure, M., Van Nguyen, V., Wu, Q., Chu, Y., Wei, W., Thu, HL., Van Vu, T. 2023. Heterogeneity of the Ailaoshan–Song Ma ophiolitic mélange and their palaeogeographic implications for the evolution of Eastern Palaeo-Tethys. Tectonophysics, 25:229848.

2022年：

9. Feng, Z.^#, Chu, Y.*, Wei, W., Xue, Z.H., Xin, G., Meng, L. T., Zhang, D., Lin, W., 2022. Basal Décollement Splaying Induces Mid-Crustal Tectonic Imbrication in an Intracontinental Orogen. Tectonics, 41, e2022TC007583. https://doi.org/10.1029/2020TC007583.
10. Feng, Z.^#, Chu, Y.*, Wei, W.,* Lin, W., Xin, G., Wang, Y., Qiu, H., Ren, Z., 2022. Splitting a large pluton by Cretaceous crustal extension: Evolution of the Ziyuan Detachment and crustal thinning of the South China Block. Tectonophysics, 838: 229481.
11. Xin, G.^#, Chu, Y.*, Su, B., Lin, W., Cui, M., Liu, X., Uysal, I., Li, J., Feng, Z., 2022. Induced Subduction Initiation of the Neo-Tethys and formation of the Bursa Ophiolite in NW Turkey. Lithos, 422-423: 106746. Doi: https://doi.org/10.1016/j.lithos.2022.106746.
12. Xue, Z.H., Lin, W., Chu, Y., Wei, W., Feng, Z.T., Zhang, J.F. 2022. Late Triassic successive amalgamation between the South China and North China blocks: Insights from structural analysis and magnetic fabrics study of the Bikou Terrane and its adjacent area, northwestern Yangtze block, central China. GSA Bulletin, 134 (7-8): 2051-2071
13. Xue, Z.H., Lin, W., Chu, Y., Faure, M., Chen, Y., Ji, W. B., Qiu, H.N. 2022. An intracontinental orogen exhumed by basement-slice imbrication in the Longmenshan Thrust Belt of the Eastern Tibetan Plateau. GSA Bulletin, 134 (1-2): 15–38. Doi: https://doi.org/10.1130/B35826.1.
14. Meng, L., Lin, W., Li, S., Chu, Y., Wei, W., Wang, Y., Song, C., Qiu, H., Ren, Z., Zeng, J., Wu, Q., 2022. Latest Triassic and Late Jurassic extensional tectonics of the Sulu UHP orogenic belt, East China: Evidence from geological and geophysical data. Tectonophysics, 838: 229473.
15. Li, T., Jiang, M., Zhao, L., Yao, W., Chen, L., Chu, Y., Sun, B., Ai, Y., Wan, B., Gessner, K., Yuan H. 2022. Wedge tectonics in South China: Constraints from new seismic data, Science Bulletin, doi: https:// doi.org/10.1016/j.scib.2022.05.007.
16. Zeng, J.P., Lin, W., Qiu, H.B., Wei, W., Meng, L.T., Chu, Y., Ren, Z.H., Wang, Y., Feng, Z.T. 2022. When did the large-scale extensional tectonics begin in North China Craton? Tectonophysics, 840: 229563.
17. Wang, Y., Lin, W., Faure, M., Van Nguyen, V., Meng, L., Chu, Y., Wei, W., Thu, H.L.T., Lepvrier, C., Van Vu, T. and Li, Q., 2022. Correlation among the Ailaoshan–Song Ma–Song Chay orogenic belts and implications for the evolution of the eastern Paleo-Tethys Ocean. Tectonophysics, 834, p.229618.
18. Wang, X., Chen, L., Talebian, M., Ai, Y., Jiang, M., Yao, H., He, Y., Ghods, A., Sobouti, F., Wan, B., Chu, Y., Hou, G., Chen, Q., Chung, S., Xiao, W., Wu, F., Zhu, R. 2022. Shallow crustal response to Arabia-Eurasia convergence in northwestern Iran: Constraints from multifrequency P-wave receiver functions. Journal of Geophysical Research: Solid Earth, 127, e2022JB024515. https://doi.org/10.1029/2022JB024515
19. 林偉, 王印, 劉飛, 孟令通, 冀文斌, 衛巍, 褚楊, 宋超, 吳欽穎. 2022. 蛇綠混雜巖的基質(zhì)組成及其構造內涵: 以東古特提斯為例. 地質(zhì)學(xué)報, 96(10):3449~3467.
    

2021年：

20. Xin, G. Y.^#, Chu, Y.*, Su, B. X., Lin, W., Uysal, I., Feng, Z. T. 2021. Rapid transition from MORB-type to SSZ-type oceanic crust generation following subduction initiation: insights from the mafic dikes and metamorphic soles in the Pozant?-Karsant? ophiolite, SE Turkey. Contributions to Mineralogy and Petrology, 176:64. https://doi. org/10.1007/s00410-021-01821-5.
21. Chu, Y., Wan, B., Allen, M. B., Chen, L., Lin, W., Talebian, M., & Xin, G. 2021. Detrital zircon age constraints on the evolution of Paleo-Tethys in NE Iran: Implications for subduction and collision tectonics. Tectonics, 40(8), e2020TC006680. https://doi.org/10.1029/2020TC006680.
22. Chu, Y., Allen, M. B., Wan, B., Chen, L., Lin, W., Talebian, M., Wu, L., Xin, G., Feng, Z. 2021. Tectonic exhumation across the Talesh-Alborz Belt, Iran, and its implication to the Arabia-Eurasia convergence. Earth-Science Reviews, 221, 103776. Doi: 10.1016/j.earscirev.2021.103776.
23. Wan, B., Chu, Y., Chen, L., Liang, X., Zhang, Z., Ao, S., Talebian, M., 2021. Paleo-Tethys subduction induced slab-drag opening the Neo-Tethys: Evidence from an Iranian segment of Gondwana. Earth-Science Reviews, 221, 103788.
24. Li, Q., Lin, W., Wang, Y., Faure, M., Meng, L., Wang, H., Van Nguyen, V., Thu, H.L.T., Lepvrier, C., Chu, Y., Wei, W., Van Vu, T., 2021. Detrital zircon U-Pb age distributions and Hf isotopic constraints of the Ailaoshan-Song Ma Suture Zone and their paleogeographic implications for the Eastern Paleo-Tethys evolution. Earth-Science Reviews 221, 103789.
25. Wang, Y., Lin, W., Faure, M., Lepvrier, C., Chu, Y., Van Nguyen, V., Thi Thu, H.L., Wei, W., Liu, F. & Van Vu, T. 2021. Detrital zircon U‐Pb age distribution and Hf isotopic constraints from the terrigenous sediments of the Song Chay Suture Zone (NE Vietnam) and their paleogeographic implications on the Eastern Paleo‐Tethys evolution. Tectonics, 40(8), e2020TC006611.
26. 林偉, 曾紀培, 孟令通, 邱華標, 衛巍, 任志恒,褚楊, 李雙建, 宋超, 王清晨. 2021. 伸展構造與華北克拉通破壞——花崗巖磁組構和變質(zhì)核雜巖的構造分析. 中國科學(xué): 地球科學(xué), 51: 1–37.
27. Lin, W., Zeng, J. P., Meng, L. T., Qiu, H. B., Wei, W., Ren, Z. H., Chu, Y., Li, S., Song, C., Wang, Q. C. 2021. Extensional tectonics and North China Craton destruction: Insights from the magnetic susceptibility anisotropy (AMS) of granite and metamorphic core complex. Science China Earth Sciences, 64, https://doi. org/10.1007/s11430-020-9754-1.
28. Zeng, J.P., Wei, W., Lin, W., Meng, L.T., Qiu, H.B., Chu, Y., Ren, Z.H., Wang, Y., Feng, Z.T., Li, Q.L., Ling, X.X. 2021. The Late Jurassic extensional event in the Yanshan fold and thrust belt (North China): New insights from an integrated study of structural geology, geophysics, and geochemistry of the Siganding granitic pluton. Journal of Asian Earth Sciences, 211, 104708.

2020年：

29. Chu, Y., Lin, W., Faure, M., Allen, M. B., Feng, Z., 2020. Cretaceous exhumation of the Triassic intracontinental Xuefengshan Belt: Delayed unroofing of an orogenic plateau across the South China Block? Tectonophysics, 793, 228592.
30. Chen, C., Su, B.X., Xiao, Y., Uysal, ?., Lin, W., Chu, Y., Jing, J.J. and Sakyi, P.A., 2020. Highly siderophile elements and Os isotope constraints on the genesis of peridotites from the Kizildag ophiolite, southern Turkey. Lithos, 368-369: 105583.

2019年：

31. Chu, Y., Lin, W., Faure, M., Xue, Z., Ji, W., and Feng, Z. 2019. Cretaceous episodic extension in the South China Block, East Asia: Evidence from the Yuechengling Massif of central South China. Tectonics, 38(10), 3675-3702.
32. Liu, X., Su, B.X., Xiao, Y., Chen, C., Uysal, I., Jing, J.J., Zhang, P.F., Chu, Y., Lin, W., Sakyi, P.A., 2019. Initial subduction of Neo-Tethyan ocean: Geochemical records in chromite and mineral inclusions in the Pozanti-Karsanti ophiolite, southern Turkey. Ore Geology Review, https://doi.org/10.1016/j.oregeorev.2019.05.012.
33. Jing, J.-J., Su, B.-X., Xiao, Y., Zhang, H.-F., Uysal, ?., Chen, C., Lin, W., Chu, Y., Saka, S., 2019. Reactive origin of mantle harzburgite: Evidence from orthopyroxene-spinel association. Lithos,342-343, 175-186.
34. 林偉, 許德如, 侯泉林, 李雙建, 孟令通, 任志恒, 邱華標, 褚楊. 2019. 中國大陸中東部早白堊世伸展穹隆構造與多金屬成礦. 大地構造與成礦學(xué), 43(3): 409-430.

2018年：

35. Chu, Y. and Lin, W., 2018. Strain analysis of the Xuefengshan Belt, South China: From internal strain variation to formation of the orogenic curvature. Journal of Structural Geology, 116: 131-145.
36. Ji, W., Faure, M., Lin, W, Chen, Y., Chu, Y., and Xue, Z. 2018, Multiple emplacement and exhumation history of the Late Mesozoic Dayunshan–Mufushan batholith in southeast China and its tectonic significance: 1. Structural analysis and geochronological constraints. Journal of Geophysical Research: Solid Earth, 123: 689–710.
37. Lin, W., Rossi, P., Faure, M., Li, X.-H., Ji, W., Chu, Y., 2018. Detrital zircon age patterns from turbidites of the Balagne and Piedmont nappes of Alpine Corsica (France): Evidence for a European margin source. Tectonophysics, 722: 69-105.
38. Jing J., Su B., Xiao Y., Martin L., Zhang H., Uysal I., Chen Ch., Lin W., Chu Y., Seitz H., Zhang P., 2018, Cryptic metasomatism revealed by Li isotopes of mantle xenoliths beneath the Thrace Basin, NW Turkey. Journal of Asian Earth Sciences, 166: 270-278.
39. 陳晨, 蘇本勛, 景揭俊, 肖燕, 林偉, 褚楊, 劉霞. 2018. 白洋新特提斯洋俯沖起始的地質(zhì)記錄: 土耳其南部蛇綠巖和變質(zhì)底板. 巖石學(xué)報, 34(1): 302-314.

2017年：

40. Ji W., Lin W., Faure M., Chen Y., ChuY., Xue Z., 2017. Origin of the Late Jurassic to Early Cretaceous peraluminous granitoids in the northeastern Hunan province (middle Yangtze region), South China: Geodynamic implications for the Paleo-Pacific subduction. Journal of Asian Earth Sciences, 141: 174-193.

2016年：

41. Chu, Y., Lin, W., Faure, M., and Wang, Q. C. 2016. Detrital zircon U-Pb ages and Hf isotopic constraints on the terrigenous sediments of the Western Alps and their paleogeographic implications, Tectonics, 35(11), 2734-2753, doi:10.1002/2016TC004276.
42. Faure, M., W. Lin, Y. Chu, and C. Lepvrier, 2016. Triassic tectonics of the Ailaoshan Belt (SW China): Early Triassic collision between the South China and Indochina Blocks, and Middle Triassic intracontinental shearing, Tectonophysics, 683, 27-42.
43. Lin, W., M. Faure, X.H. Li, Y. Chu, W. Ji, and Z. Xue, 2016. Detrital zircon age distribution from Devonian and Carboniferous sandstone in the Southern Variscan Fold-and-Thrust belt (Montagne Noire, French Massif Central), and their bearings on the Variscan belt evolution, Tectonophysics, 677-678, 1-33.
44. Faure, M., W. Lin, Y. Chu, and C. Lepvrier, 2016. Triassic tectonics of the southern margin of the South China Block, Comptes Rendus-Geoscience, 348(1), 5-14.

2015年：

45. 褚楊, 林偉, Faure Michel, 王清晨. 2015. 華南板塊早中生代陸內造山過(guò)程———以雪峰山-九嶺為例. 巖石學(xué)報, 31(8): 2145-2155.

2014年：

46. Chu, Y. and Lin, W., 2014. Phanerozoic polyorogenic deformation in southern Jiuling massif, northern South China block: constraints from structural analysis and geochronology. Journal of Asian Earth Sciences, 86:117-130.
47. Ji, W., Lin, W., Faure, M., Chu, Y., Wu, L., Wang, F., Wang, J., and Wang, Q., 2014. Origin and tectonic significance of the Huangling massif within the Yangtze craton, South China. Journal of Asian Earth Sciences, 86: 59-75.

2013年：

48. Lin, W., Chu, Y., Ji, W., Zhang, Z., Shi, Y., Wang, Z., Li, Z., and Wang, Q., 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.
49. 林偉, 冀文斌, 石永紅, 褚楊, 李秋立, 陳澤超, 劉飛, 王清晨. 2013. 高壓-超高壓變質(zhì)巖石多期構造折返: 桐柏-紅安-大別造山帶為例. 科學(xué)通報, 2013, 58: 1-8.
50. 陳澤超, 林偉, Michel Faure, Claude Lepvrier, 褚楊, 王清晨. 2013. 越南東北部早中生代構造事件的年代學(xué)約束. 巖石學(xué)報, 29(5): 1825-1840.
51. 姜琳, 王清晨, 王香增, 姜呈馥, 張麗霞, 薛振華, 褚楊, 2013. 鄂爾多斯盆地東南部中生界地層節理發(fā)育特征與古應力場(chǎng). 巖石學(xué)報, 29(5): 1811-1824. Wang, W., Chen, F., Hu, R., Chu, Y., Yang, Y.-Z., 2012. Provenance and tectonic setting of Neoproterozoic sedimentary sequences in the South China Block: evidence from detrital zircon ages and Hf–Nd isotopes. International Journal of Earth Sciences, 101(7): 1723-1744.

2012年：

52. Chu, Y., Faure, M., Lin, W., Wang, Q., 2012. Early Mesozoic tectonics of the South China block: Insights from the Xuefengshan intracontinental orogen. Journal of Asian Earth Sciences, 61: 199-220.
53. Chu, Y., Faure, M., Lin, W., Wang, Q., Ji, W., 2012. Tectonics of the Middle Triassic intracontinental Xuefengshan Belt, South China: new insights from structural and chronological constraints on the basal décollement zone. International Journal of Earth Sciences, 101(8): 2125-2150.
54. Chu, Y., Lin, W., Faure, M., Wang, Q., Ji, W., 2012. Phanerozoic tectonothermal events of the Xuefengshan Belt, central South China: Implications from U-Pb age and Lu-Hf determinations of granites. Lithos, 150: 243-255.

2011年：

55. 褚楊, 林偉, Faure M., 王清晨. 2011. 雪峰山早中生代構造演化：構造學(xué)和年代學(xué)分析. 地質(zhì)科學(xué), 46(01): 146-160.
56. Lin, W., Wang, Q. C., Wang, J., Wang, F., Chu, Y., and Chen, K., 2011. Late Mesozoic extensional tectonics of the Liaodong Peninsula massif: Response of crust to continental lithosphere destruction of the North China Craton. Science China-Earth Science, 54, 843-857.
57. 林偉, 王清晨, 王軍, 王非, 褚楊, 陳科, 2011. 遼東半島晚中生代伸展構造—華北克拉通破壞的地殼響應. 中國科學(xué)-地球科學(xué)41: 638-653.
58. 林偉, Faure M., Lepvrier C., 陳澤超, 褚楊, 王清晨, Van N., Vu T. 2011.華南板塊南緣早中生代的逆沖推覆構造及其相關(guān)的動(dòng)力學(xué)背景. 地質(zhì)科學(xué), 46(01): 134-145.
59. 冀文斌, 林偉, 石永紅, 王清晨, 褚楊. 2011. 大別山早白堊世變質(zhì)核雜巖的結構與演化. 地質(zhì)科學(xué), 46(01): 161-180.

2010年及以前：

60. 王軍, 褚楊, 林偉, 王清晨. 2010. 黃陵背斜的構造幾何形態(tài)及其成因探討. 地質(zhì)科學(xué),45(03): 615-625.
61. 褚楊, 陳科, 林偉, 嚴德天, 王清晨. 2009. 從多系統年代學(xué)透視云開(kāi)地塊古生代-中生代的構造演化. 地質(zhì)科學(xué), 44(3), 922-930.
62. Yan, D., Chen, D., Wang, Q., Wang, J. and Chu, Y. 2008. Environmental Redox Changes of the Ancient Sea in the Yangtze Area during the Ordo-Silurian Transition. Acta Geologica Sinica-English Edition, 82(3), 679-689.
    
    

會(huì )議口頭報告：

1. Coevolution of Paleotethys and Rheic: A geological comparison between Iran and Turkey. 2023-9. Second Symposium of the International Geoscience Programme IGCP Project 710. Krakow, Poland.
2. 伊朗東北緣新生代構造演化與高原隆升. 2023-7. 第七屆地球系統科學(xué)大會(huì ). 上海，中國.
3. Synced deformation of the Talesh-Alborz-Kopet Dagh belt and formation of the Iranian Plateau. 2023-4. EGU General Assembly, Vienna, Austria.
4. Basal Décollement Splaying characterizes Mid-Crustal Deformation and Exhumation of orogenic cores in an intracontinental orogen. 2023-4. EGU General Assembly, Vienna, Austria.
5. 伊朗古特提斯演化: 從俯沖到碰撞的約束. 2022-12. 2022年中國地球科學(xué)聯(lián)合學(xué)術(shù)年會(huì ). 專(zhuān)題邀請報告.
6. 伊朗高原隆升機制討論. 2022-11. “大陸演化與季風(fēng)系統演變”基礎科學(xué)中心項目網(wǎng)絡(luò )系列學(xué)術(shù)研討會(huì )（第二十三次）“高原隆升的深部機制與生長(cháng)歷史”會(huì )議.
7. 阿拉伯-歐亞碰撞與伊朗高原生長(cháng). 2022-09. 構造地質(zhì)學(xué)與地球動(dòng)力學(xué)網(wǎng)絡(luò )論壇.
8. Paleotethyan evolution of NE Iran. 2022-08. Invited talk. 21st International Sedimentological Congress, Beijing.
9. 歐亞中段的Rheic和古特提斯. 2022-05. “古特提斯構造演化”研討會(huì ).
10. 伊朗古-新特提斯的演化和轉變. 2022-04. “新特提斯演化：誕生、生長(cháng)與消亡”研討會(huì ).
11. 尋找巖石中的地震記錄. 2022-04. 巖石圈演化國家重點(diǎn)實(shí)驗室年會(huì ).
12. 古新特提斯的轉變. 2022-01. 中國科學(xué)院地質(zhì)與地球物理研究所2021年學(xué)術(shù)年會(huì ).
13. Intracontinental tectonics of the Talesh-Alborz Belt as a response to the Neo-Tethyan evolution of Iran. 2021-10. International Symposium on Deep Earth Exploration and Practices, DEEP-2021. Nanjing.
14. 華南周期性伸展與古太平洋俯沖. 2021-07. 第六屆地球系統科學(xué)大會(huì ). 上海.
15. Tectonic evolution of Paleo-Tethys in NE Iran. 2021. EGU General Assembly, Vienna, Austria.
16. Temporal and spatial exhumation variations across the Talesh-Alborz Belt, Iran. 2020. AGU Fall Meeting. San Francisco. USA.
17. 陸內造山與華南中生代演化. 2020-09. 第三屆構造地質(zhì)學(xué)與地球動(dòng)力學(xué)青年學(xué)術(shù)論壇. 大會(huì )特邀報告. 浙江杭州.
18. 從應變分析反演造山帶橫向變化. 2019-04. 第二屆構造地質(zhì)學(xué)與地球動(dòng)力學(xué)青年學(xué)術(shù)論壇. 江蘇南京.
19. Initiation of continental subduction? Insights from intracontinental deformation of NE Iran. 2018. AOGS Annual Meeting. Honolulu, USA.
20. 伊朗東北部新生代陸內變形. 2017-05. 特提斯-青藏高原學(xué)術(shù)交流會(huì ). 中國地質(zhì)大學(xué)(北京).
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