简 介

男，1987年生，博士，副研究员。主要从事构造变形、地表剥蚀、地貌演化及其与气候变化、地质灾害之间的相互作用等方面研究，具体研究兴趣包括：1）山脉形成及大陆变形过程；2）构造演化与气候变化之间的耦合关系；3）气候变化对地表剥蚀和地形塑造的影响。

通过前期工作，研究了位于中国大陆两大构造域（西部的青藏高原构造域与东部的太平洋构造域）交汇部位的阿拉善地块及鄂尔多斯西缘的万年尺度构造活动习性，构建了两大构造域交汇位置的晚新生代构造变形模式；利用低温热年代学方法研究了青藏高原东北缘百万年尺度新生代构造变形，并结合断裂活动与沉积特征构建了祁连山地区新生代构造变形演化模式。目前正针对华北、青藏高原东南缘等区域开展新生代构造变形及其与气候、地表过程之间相互作用的相关研究。

Google Scholar  Researchgate

教育背景

2013.09-2016.06   中国地震局地质研究所，构造地质学专业，博士

2015.01-2015.12   俄勒冈州立大学，联合培养，合作导师：Eric Kirby

2010.09-2013.06   中国地震局地质研究所，地球化学专业，硕士

2006.09-2010.06   合肥工业大学，资源勘查工程专业，本科

工作经历

2020.04-至今    中国地震局地质研究所，副研究员

2019.03-2020.03  香港大学地球科学系，研究助理，合作导师：李盛华

2017.01-2019.02  牛津大学地球科学系，博士后，合作导师：Philip England和Richard Walker

2016.07-2016.12  中国地震局地质研究所，助理研究员

研究方向

主要从事新构造与活动构造等方面的研究。

学术任职

2021-至今   中国地震学会地震地质专业委员会委员

2021-至今   中国地震学会构造地貌专业委员会委员

2022-至今  《地震科学进展》第一届青年编委会委员

承担科研项目

1. 准噶尔盆地西缘晚新生代构造变形样式及变形时间研究，国家自然科学基金面上项目（42272260），2023.01-2026.12，项目负责人

2. 研究生野外地质实习基地建设，中国地震局地质研究所中央级公益性科研院所基本科研业务专项（JB-22-07），2022.01-2024.12，项目负责人

3. 滇缅地块区北东向断裂系新生代构造变形历史研究，中国地震局地质研究所中央级公益性科研院所基本科研业务专项（JB-21-17），2021.01-2023.12，项目负责人

4. 中国地震科学实验场活动构造体系调查及数据库建设-中国地震科学实验场及邻区新构造活动与区域地貌特征研究，科技部基础资源调查专项项目（2021FY100101-3），2021.09-2026.08，专题负责人

5. 塔城盆地东缘断裂晚第四纪活动特征和滑动速率研究，国家自然科学基金青年项目（41902199），2020.01-2022.12，项目负责人

代表论著

1. Yu, J.X., Zheng, D.W., Wang, W.T., Pang, J.Z., Li, C.P., Wang, Y.Z., Hao, Y.Q., Zhang, H.P., and Zhang, P.Z., Cenozoic tectonic development in the northeastern Tibetan Plateau: Evidence from thermochronological and sedimentological records. Global and Planetary Change, 224, 104098. https://doi.org/10.1016/j.gloplacha.2023.104098
2. Hao, Y.Q.*, Yu, J.X.*, Wang, Y.Z., Li, C.P., Pang, J.Z., Wang, Y., and Zheng, D.W., 2023. Coupling of Cenozoic geomorphic development in North China and subduction of the Pacific Plate. Palaeogeography, Palaeoclimatology, Palaeoecology, 620, 111546. https://doi.org/10.1016/j.palaeo.2023.111546
3. Yu, J.X., Zheng, D.W., Pang, J.Z., Li, C.P., Wang, Y., Wang, Y.Z., Hao, Y.Q., and Zhang, P.Z., 2022. Cenozoic mountain building in eastern China and its correlation with reorganization of the Asian climate regime. Geology, 50, 859-863. https://doi.org/10.1130/G49917.1
4. Lei, Q.Y., Yu, J.X.*, Zhang, P.Z., Zheng, W.J., Zhang, Z.Q., Du, P. and Wang, Y., 2022. Tectonic geomorphology and prehistoric earthquakes of the West Helanshan fault, West Ordos, and its implications for regional tectonics and seismic hazard. Tectonophysics, 833, 229375. https://doi.org/10.1016/j.tecto.2022.229375
5. Yu, J.X., Zheng, D.W., Zhang, H.P., Wang, Y.Z., Hao, Y.Q., and Li, C.P., 2022. Initial Cenozoic Exhumation of the Northern Chinese Tian Shan Deduced from Apatite (U-Th)/He Thermochronological Data. Lithosphere, 2022(1), 8099539. https://doi.org/10.2113/2022/8099539
6. Yu, J.X., Walker, R.T., Rhodes, E.J., Zhang, P.Z., Li, C.P., Wang, S.Y., Wang, Y.Z., Liu, F.B., and Hao, Y.Q., 2021. East Tacheng (Qoqek) fault zone: Late Quaternary tectonics and slip rate of a left-lateral strike-slip fault zone north of the Tian Shan, Tectonics, 40(2), e2020TC006377. https://doi.org/10.1029/2020TC006377
7. Yu, J.X., Zheng, D.W., Pang, J.Z., Wang, Y.Z., Fox, M., Vermeesch, P., Li, C.P., Xiao, L., Hao, Y., and Wang, Y. 2019. Miocene range growth along the Altyn Tagh fault: Insights from apatite fission track and (U-Th)/He thermochronometry in the western Danghenan Shan, China. JGR: Solid Earth, 124, 9433-9453. https://doi.org/10.1029/2019JB017570
8. Yu, J.X., Pang, J.Z., Wang, Y.Z., Zheng, D.W., Liu, C.C., Li, Y.J., Li, C.P., and Xiao, L. 2019. Mid-Miocene uplift of the northern Qilian Shan as a result of the northward growth of the northern Tibetan Plateau. Geosphere, 15(1): 423-432. https://doi.org/10.1130/GES01520.1
9. Pang J.Z., Yu, J.X.*, Zheng, D.W., Wang, Y.Z., Zhang, H.P., Li, C.P., Wang, W.T., and Hao, Y.Q. 2019. Constraints of new apatite fission-track ages on the tectonic pattern and geomorphic development of the northern margin of the Tibetan Plateau. Journal of Asian Earth Sciences, 181, 103909. https://doi.org/10.1016/j.jseaes.2019.103909
10. Yu, J.X., Zheng, W.J., Zhang, P.Z., Lei, Q.Y., Wang, X.L., Wang, W.T., Li, X.N., Zhang, N. 2017. Late Quaternary strike-slip along the Taohuala Shan-Ayouqi fault zone and its tectonic implications in the Hexi Corridor and the southern Gobi Alashan, China. Tectonophysics, 21: 28-44. https://doi.org/10.1016/j.tecto.2017.09.014
11. Yu, J.X., Zheng, W.J., Kirby, E., Zhang, P.Z., Lei, Q.Y., Wang, W.T., Ge, W.P., Li, X.N., and Zhang, N. 2016. Kinematics of Late Quaternary Slip along the Yabrai Fault: Implications for Cenozoic Tectonics across the Gobi Alashan Block, China. Lithosphere, 8(3): 199-218. https://doi.org/10.1130/L509.1
12. 俞晶星，郑文俊，袁道阳等. 2012. 西秦岭西段光盖山-迭山断裂带坪定-化马断裂的新活动性与滑动速率. 第四纪研究, 32(5), 957-967.
13. 俞晶星，郑文俊，雷启云等. 2013. 阿拉善地块南部雅布赖山前断裂的运动学特征及意义初探. 地震地质, 35(4), 731-744.

部分合作作者文章

1. Li, C.P., Zheng, D.W., Yu, J.X., Zhou, R.J., Wang, Y.Z., Pang, J.Z., Wang, Y., Hao, Y.Q., and Xu, Y.G., 2023. Late Oligocene mountain building of the East Kunlun Shan in northeastern Tibet: Impact on the Cenozoic climate evolution in East Asia. Global and Planetary Change, 224, 104114.

2. Li, C.P., Zheng, D.W., Zhou, R.J., Yu, J.X., Wang, Y.Z., Pang, J.Z., Wang, Y., Hao, Y.Q., and Li, Y.J. 2021. Late Oligocene Tectonic Uplift of the East Kunlun Shan: Expansion of the Northeastern Tibetan Plateau, Geophysical Research Letters, 48, e2020GL091281.

3. Wang, Y.Z., Liu, C.R., Zheng, D.W., Zhang, H.P., Yu, J.X., Pang, J.Z., Li, C.P., and Hao, Y.Q. 2021. Multistage Exhumation in the Catchment of the Anninghe River in the SE Tibetan Plateau: Insights From Both Detrital thermochronology and Topographic Analysis. Geophysical Research Letters, 48, e2021GL092587.

4. Wang, Y.Z., Zheng, D.W., Zhang, H.P., Yu, J.X., Pang, J.Z., and Hao, Y.Q. 2021. Channel Profile Response to Abrupt Increases in Mountain Uplift Rates: Implications for Late Miocene to Pliocene Acceleration of Intracontinental Extension in the Northern Qinling Range-Weihe Graben, Central China. Lithosphere, 1, 7866972.

5. Li, C., Zheng, D., Sun, J., Yu, J.X., Ma, Y., Zhang, H., ... and Hao, Y., 2020. Reconstruction on regional paleo-drainage evolution in the northern Junggar Basin, China during the last ~27 myr from provenance analyses and its implications for uplift of the Altai Mountains. Palaeogeography, Palaeoclimatology, Palaeoecology, 537, 109373.

6. Ou, Q., Kulikova, G., Yu, J.X., Elliott, A., Parsons, B., and Walker, R. 2020. Magnitude of the 1920 Haiyuan Earthquake Reestimated Using Seismological and Geomorphological Methods. JGR: Solid Earth, 125, e2019JB019244.

7. Wang, W.T., Zheng, D.W., Li, C.P., Wang, Y., Zhang, Z.Q., Pang, J.Z., Wang, Y., Yu, J.X., Wang, Y.Z., Zheng, W.J., Zhang, H.P., and Zhang, P.Z. 2020. Cenozoic Exhumation of the Qilian Shan in the Northeastern Tibetan Plateau: Evidence from Low‐Temperature Thermochronology. Tectonics, 39, e2019TC005705.

8 Wu, C.Y., Ren, G.X., Yu, J.X., Zheng, W.J., Li, X.N., Liu, J.R., Wang, S.Y., Li, C.Y., Zhang, Z.Q., Yang, H.L., and Zhang, D.L. 2020. Oblique Right‐Lateral Faulting Along the Northern Margin of the Ili Basin in the Northern Tian Shan, Northwest China. Tectonics, 39, e2020TC006061.

9. Chen, G., Zheng, W.J., Xiong, J.G., Zhang, P.Z., Li, Z.G., Yu, J.X., Li, X.N., Wang, Y., and Zhang, Y.P. 2020. Late Quaternary fluvial landform evolution and controlling factors along the Yulin River on the Northern Tibetan Plateau. Geomorphology, 363, 107213.

10. Pang, J., Yu, J.X., Zheng, D., Wang, W., Ma, Y., Wang, Y., et al., 2019. Neogene expansion of the Qilian Shan, north Tibet: Implications for the dynamic evolution of the Tibetan Plateau. Tectonics, 38, 1018–1032.

11. Wu, C.Y., Zheng, W.J., Zhang, P.Z., Zhang, Z.Q., Jia, Q.C., Yu, J.X., Zhang, H.P. et al., 2019. Oblique thrust of the Maidan fault and late Quaternary tectonic deformation in the southwestern Tian Shan, Northwestern China. Tectonics, 38.

12. Ren, Z.K, Zielke, O., & Yu, J.X, 2018. Active tectonics in 4D high-resolution. Journal of Structural Geology, 117, 264-271.

13. Wu, C.Y., Zheng, W.J., Zhang, Z.Q., Jia, Q.C., Yu, J.X., Zhang, H.P., ... & Yao, Y., 2018. Terrace sequence along the Yushanguxi River in the southern piedmont of Tian Shan and its relationship to climate and tectonics in northwestern China. Geomorphology, 313, 48-57.

14 Wang, Y.Z., Zheng, D.W., Pang, J.Z., Zhang, H.P., Wang, W.T., Yu, J.X., ... & Li, Y.J., 2018. Using slope-area and apatite fission track analysis to decipher the rock uplift pattern of the Yumu Shan: New insights into the growth of the NE Tibetan Plateau. Geomorphology, 308, 118-128.

15. Middleton, T. A., Elliott, J. R., Rhodes, E. J., Sherlock, S., Walker, R. T., Wang, W., Yu, J.X., and Zhou, Y., 2017. Extension rates across the northern Shanxi Grabens, China, from Quaternary geology, seismicity and geodesy. Geophysical Journal International, 209(2), 535-558.

16. Wang, Y.Z., Zhang, H.P., Zheng, D.W., Yu, J.X., Pang, J.Z., and Ma, Y., 2017. Coupling slope-area analysis, integral approach and statistic tests to steady-state bedrock river profile analysis. Earth Surface Dynamics, 5(1), 145.

17. Wang, Y.Z., Zhang, H.P., Zheng, D.W., Dassow, W., Zhang, Z.Q., Yu, J.X., and Pang, J.Z. 2017. How a stationary knickpoint is sustained: New insights into the formation of the deep Yarlung Tsangpo Gorge. Geomorphology, 285, 28-43.

18. Wang, W.T., Zhang, P.Z., Yu, J.X., Wang, Y.Z., Zheng, D.W., Zheng, W.J., and Zhang, H.P., 2016. Constrains on the mountain building in the northeast Tibet: Detrital zircon records from synorogenic deposits in the Yumen basin. Scientific Reports, doi: 10.1038/srep27604.

19. Wang, W.T., Zhang, P.Z., Pang J.Z., Garzione, C, Zhang, H.P., Liu, C.C., Zheng, D.W., Zheng, W.J., and Yu, J.X., 2016. The Cenozoic growth of the Qilian Shan in the norhteastern Tibetan Plateau: A sedimentary archive from the Jiuxi Basin. Journal of Geophysical Research: Solid Earth, 121, 2235-2257.

20. Wang, W.T., Zhang, P.Z., Zheng, W.J., Zheng, D.W., Liu, C.C., Xu, H.Y., Zhang, H.P., Yu, J.X., and Pang, J.Z. 2016. Uplift-driven sediment redness decrease at ~16.5 Ma in the Yumen Basin along the northeastern Tibetan Plateau. Scientific Reports, doi: 10.1038/srep29568.

21. Wang, W.T., Zhang, P.Z., Liu, C.C., Zheng, D.W., Yu, J.X., Zheng, W.J., Wang, Y.Z., Zhang, H.P., and Chen, X.Y. 2016. Pulsed growth of the western Qinling at ~30 Ma in northeastern Tibet: Evidence from Lanzhou Basin magnetostratigraphy and provenance. JGR: Solid Earth, 121.

22. Lei, Q.Y., Zhang, P.Z., Zheng, W.J., Chai, Z.Z., Wang, W.T., Du, P., and Yu, J.X., 2016. Dextral strike-slip of Sanguankou-Niushoushan fault zone and extension of arc tectonic belt in the northeastern margin of the Tibet Plateau. Science China (Serious D)，59(5): 1025-1040.

23. Zheng, W.J., Liu, X.W., Yu, J.X., Yuan, D.Y., Zhang, P.Z., Ge, W.P., Pang, J.Z., and Liu, B.Y. 2016. Geometry and late Pleistocene slip rates of the Liangdang-Jiangluo fault in the western Qinling mountains, NW China, Tectonophysics, 687: 1-13.

24 Wang, Y.Z., Zhang, H.P., Zheng, D.W., Zheng, W.J., Zhang, Z.Q., Wang, W.T., and Yu, J.X., 2014. Controls on decadal erosion rates in Qilian Shan: Re-evaluation and new insights into landscape evolution in north-east Tibet. Geomorphology, 223: 117-128.