黃周傳:教育經歷,工作經歷,教學情況,獲獎情況,研究方向,發表論文,

黃周傳，博士，教授，博士生導師，德國洪堡學者。

2002年考入南京大學地球科學系地質學基地班，2011年獲得構造地質學博士學位。先後任南京大學地球科學與工程學院副研究員(2011.07)、副教授(2013.05)、教授(2018.12) ，2017.09任博士生導師。

基本介紹

中文名：黃周傳
國籍：中國
民族：漢族
出生地：山東棗莊
出生日期：1984年12月
畢業院校：南京大學
學位/學歷：博士
職業：教師
專業方向：固體地球物理、地震學
任職院校：南京大學

教育經歷,工作經歷,教學情況,獲獎情況,研究方向,發表論文,

教育經歷

2006.09-2011.06 南京大學地球科學與工程學院研究生
2002.09-2006.06 南京大學地球科學系地質學基地班本科

工作經歷

2018.12 至今南京大學地球科學與工程學院教授
2013.05-2018.12 南京大學地球科學與工程學院副教授
2016.03-2018.04 德國波茨坦地學研究中心洪堡研究員
2011.09-2012.08 日本東北大學JSPS Global-COE研究員
2011.07-2013.04 南京大學地球科學與工程學院副研究員

教學情況

本科生《地球物理基礎》，《中俄貝加爾湖國際化實習》
碩士生《地震學》，《高等地球物理》
博士生《深部結構與地球動力學》

獲獎情況

2020年南京大學魅力導師、學業導師優秀示範獎
2018年教育部自然科學一等獎（排名第2）
2015年德國洪堡基金會“洪堡學者”
2015年南京大學登峰人才支持計畫（B類）
2014年中國地球物理學會“劉光鼎青年科技獎”
2013年中國地球物理學會“傅承義青年科技獎”
2013年全國優秀博士學位論文提名
2012年江蘇省、南京大學優秀博士學位論文
2010年教育部博士研究生學術新人獎

研究方向

地殼-上地幔成像與構造變形
大陸岩石圈結構
青藏高原深部結構與動力學
俯衝帶結構與動力學
大地震孕震機制

發表論文

標#為研究生，*為通訊作者

69.*Huang, Z., Zhao, D., 2022. Seismotectonics of Mongolia and Baikal Rift Zone Controlled by Lithospheric Structures. Geophysical Research Letters 49, e2022GL099525.

68. #Wu, H., *Huang, Z., 2022. Upper mantle anisotropy and deformation beneath the western Mongolian Plateau revealed by SKS splitting. Tectonophysics 835, 229376.

67. #Wang, X., Wu, H., Wang, H., *Wu, B., *Huang, Z., 2022. Rayleigh wave tomography of central and southern Mongolia. Tectonophysics 836, 229426.

66. #Zhang, C., *Huang, Z., 2022. D″ anisotropy inverted from shear wave splitting intensity. Earthquake Science 35, 93–104.

65. Gou, T., *Xia, S., Huang, Z., Zhao, D., 2022. Structural Heterogeneity of the Alaska‐Aleutian Forearc: Implications for Interplate Coupling and Seismogenic Behaviors. JGR Solid Earth 127, e2022JB024621.

64. #Han, C., *Huang, Z., Hao, S., Wang, L., Xu, M., Hammond, J.O.S., 2022. Restricted lithospheric extrusion in the SE Tibetan Plateau: Evidence from anisotropic Rayleigh-wave tomography. Earth and Planetary Science Letters 598, 117837.

63. Hu, X. *Xu, Mijian, Xu, Mingjie, *Zhang, Y., Huang, Z., 2022. A relic thickened crustal root beneath the Cenozoic rift zone of the NW Ordos margin, North China, revealed by receiver functions. Physics of the Earth and Planetary Interiors 333, 106953.

62.*Xu, M., *Yu, D., Huang, Z., Tong, P., Hao, S., Ruan, Y., Han, C., 2022. Crustal and Uppermost Mantle Heterogeneities Across the Ailaoshan Red River Shear Zone, SE Tibet: Implications for Cenozoic Magmatic Activity. JGR Solid Earth 127, e2021JB023656.

61.*Zhao, H., *Huang, Z., Yuan, X., 2022. Stepwise Lithospheric Delamination Leads to Pulsed Cenozoic Uplifts of Central Tien Shan. Lithosphere 2022, 4938310.

60.*黃周傳, 2022. 地震體波速度與各向異性層析成像研究進展. 地球與行星物理論評 53, 656–679.

59. #Hao, S., *Huang, Z., Han, C., Wang, L., Xu, M., Mi, N., Yu, D., 2021. Layered crustal azimuthal anisotropy beneath the northeastern Tibetan Plateau revealed by Rayleigh-wave Eikonal tomography. Earth and Planetary Science Letters 563, 116891.

58.*Huang, Z., Chevrot, S., 2021. Mantle dynamics in the SE Tibetan Plateau revealed by teleseismic shear-wave splitting analysis. Physics of the Earth and Planetary Interiors 313, 106687.

57.*Huang, Z., Gou, T., Wang, L., 2021. P and S wave tomography of east-central China: insight into past and present mantle dynamics. Tectonophysics 809, 228859.

56.*Huang, Z., Zhao, D., 2021. Mantle Convection in Subduction Zones: Insights from Seismic Anisotropy Tomography, in: Marquardt, H., Ballmer, M., Cottaar, S., Konter, J. (Eds.), Geophysical Monograph Series. Wiley, pp. 283–301.

55. #Wu, H., *Huang, Z., Zhao, D., 2021. Deep structure beneath the southwestern flank of the Baikal rift zone and adjacent areas. Physics of the Earth and Planetary Interiors 310, 106616.

54.*Zhao, D., Wang, J., Huang, Z., Liu, X., 2021. Seismic structure and subduction dynamics of the western Japan arc. Tectonophysics 802, 228743.

53.*Zhao, H., *Wang, P., *Huang, Z., 2021. Lithospheric structures beneath the western Mongolian Plateau: Insight from S wave receiver function. Journal of Asian Earth Sciences 212, 104733.

52.*黃周傳, 吉聰, 吳寒婷, 石宇通, 耿嘉琪, 徐彌堅, 韓存瑞, 徐鳴潔, 王良書, 2021. 青藏高原東南緣地殼結構與變形機制研究進展. 地球與行星物理論評 52, 291–307.

51. #Bi, Y., *Huang, Z., Wang, H., Wu, H., 2020. Upper‐Mantle Anisotropy and Dynamics Beneath Northeast Asia: Insight From SKS and Local S Splitting Analysis. Geochem. Geophys. Geosyst. 21, e2020GC009160.

50. #*Gou, T., *Zhao, D., Huang, Z., Wang, L., 2020. Structural Heterogeneity in Source Zones of the 2018 Anchorage Intraslab Earthquake and the 1964 Alaska Megathrust Earthquake. Geochem. Geophys. Geosyst. 21, e2019GC008812.

49. #Han, C., Xu, Mijian, *Huang, Z., Wang, L., Xu, Mingjie, Mi, N., Yu, D., Gou, T., Wang, H., Hao, S., Tian, M., Bi, Y., 2020. Layered crustal anisotropy and deformation in the SE Tibetan plateau revealed by Markov-Chain-Monte-Carlo inversion of receiver functions. Physics of the Earth and Planetary Interiors 306, 106522.

48. #Tian, M., *Huang, Z., Wang, L., Xu, Mingjie, Mi, N., Yu, D., Wang, H., Gou, T., Xu, Mijian, Han, C., Hao, S., Bi, Y., 2020. Tectonic evolution of the eastern margin of the Tibetan plateau: Insight from crustal structures using P wave receiver functions. Journal of Asian Earth Sciences 191, 104230.

47. #Wang, H., *Huang, Z., 2020. Seismic tomography in the southern margin of the Sichuan Basin: Insight into the plateau-craton interaction and seismotectonics in the SE Tibetan Plateau. Journal of Asian Earth Sciences 199, 104464.

46. #Wang, H., *Huang, Z., Eken, T., Keleş, D., Kaya‐Eken, T., Confal, J.M., Erman, C., Yolsal‐Çevikbilen, S., Zhao, D., Taymaz, T., 2020. Isotropic and Anisotropic P Wave Velocity Structures of the Crust and Uppermost Mantle Beneath Turkey. JGR Solid Earth 125, e2020JB019566.

45.*Wang, P., *Huang, Z., Wang, X., 2020. A Method for Estimating the Crustal Azimuthal Anisotropy and Moho Orientation Simultaneously Using Receiver Functions. J. Geophys. Res. Solid Earth 125, e2019JB018405.

44. #*Xu, Mijian, *Huang, Z., Wang, L., Xu, Mingjie, Mi, N., Yu, D., 2020a. Lateral variation of the mantle transition zone beneath the Tibetan Plateau: Insight into thermal processes during Indian–Asian collision. Physics of the Earth and Planetary Interiors 301, 106452.

43. #*Xu, Mijian, *Huang, Z., Wang, L., Xu, Mingjie, Zhang, Y., Mi, N., Yu, D., Yuan, X., 2020b. Sharp Lateral Moho Variations Across the SE Tibetan Margin and Their Implications for Plateau Growth. J. Geophys. Res. Solid Earth 125, e2019JB018117.

42. #郝識傑, *黃周傳, 王良書, 徐鳴潔, 米寧, 於大勇, 2020. 青藏高原東北緣瑞利面波成像:射線理論與程函方程結果的比較. 高校地質學報 26, 712–720.

41. #*Gou, T., *Huang, Z., Zhao, D., Wang, L., 2019. Structural Heterogeneity and Anisotropy in the Source Zone of the 2018 Eastern Iburi Earthquake in Hokkaido, Japan. J. Geophys. Res. Solid Earth 124, 7052–7066.

40. #*Gou, T., *Zhao, D., Huang, Z., Wang, L., 2019. Aseismic Deep Slab and Mantle Flow Beneath Alaska: Insight From Anisotropic Tomography. J. Geophys. Res. Solid Earth 124, 1700–1724.

39. #Han, C., *Huang, Z., Xu, M., Wang, L., Mi, N., Yu, D., Li, H., 2019. Focal mechanism and stress field in the northeastern Tibetan Plateau: insight into layered crustal deformations. Geophysical Journal International 218, 2066–2078.

38.*Huang, Z., Tilmann, F., Comte, D., Zhao, D., 2019. P Wave Azimuthal Anisotropic Tomography in Northern Chile: Insight Into Deformation in the Subduction Zone. J. Geophys. Res. Solid Earth 124, 742–765.

37.*Huang, Z., Wang, L., Xu, M., Zhao, D., Mi, N., Yu, D., 2019. P and S Wave Tomography Beneath the SE Tibetan Plateau: Evidence for Lithospheric Delamination. J. Geophys. Res. Solid Earth 124, 10292–10308.

36. Shen, X., *Kind, R., Huang, Z., Yuan, X., Liu, M., 2019. Imaging the Mantle Lithosphere below the China cratons using S-to-p converted waves. Tectonophysics 754, 73–79.

35. #*Wang, H., *Zhao, D., Huang, Z., Wang, L., 2019. Tomography, Seismotectonics, and Mantle Dynamics of Central and Eastern United States. J. Geophys. Res. Solid Earth 124, 8890–8907.

34.*Yu, Z., *Zhao, D., Li, J., Huang, Z., Nishizono, Y., Inakura, H., 2019. Stress Field in the 2016 Kumamoto Earthquake ( M 7.3) Area. J. Geophys. Res. Solid Earth 124, 2638–2652.

33. #*Gou, T., *Zhao, D., Huang, Z., Wang, L., 2018. Anisotropic 3‐D Ray Tracing and Its Application to Japan Subduction Zone. J. Geophys. Res. Solid Earth 123, 4088–4108.

32.*Huang, Z., Wang, L., Xu, M., Zhao, D., 2018. P Wave Anisotropic Tomography of the SE Tibetan Plateau: Evidence for the Crustal and Upper‐Mantle Deformations. J. Geophys. Res. Solid Earth 123, 8957–8978.

31. #*Wang, H., *Zhao, D., Huang, Z., Xu, M., Wang, L., Nishizono, Y., Inakura, H., 2018. Crustal tomography of the 2016 Kumamoto earthquake area in West Japan using P and PmP data. Geophysical Journal International 214, 1151–1163.

30. #Xu, Mijian, *Huang, H., *Huang, Z., Wang, P., Wang, L., Xu, Mingjie, Mi, N., Li, H., Yu, D., Yuan, X., 2018. Insight into the subducted Indian slab and origin of the Tengchong volcano in SE Tibet from receiver function analysis. Earth and Planetary Science Letters 482, 567–579.

29.*Huang, Z., Tilmann, F., Xu, M., Wang, L., Ding, Z., Mi, N., Yu, D., Li, H., 2017. Insight into NE Tibetan Plateau expansion from crustal and upper mantle anisotropy revealed by shear-wave splitting. Earth and Planetary Science Letters 478, 66–75.

28. Yu, Y., Liu, K.H., Huang, Z., Zhao, D., Reed, C.A., Moidaki, M., Lei, J., Gao, S.S., 2017. Mantle structure beneath the incipient Okavango rift zone in southern Africa. Geosphere 13, 102–111.

27. #Xu, M., Huang, H., *Huang, Z., Wang, L., 2016. SplitRFLab: A MATLAB GUI toolbox for receiver function analysis based on SplitLab. Earthq Sci 29, 17–26.

26. #Xu, Z., *Huang, Z., Wang, L., Xu, M., Ding, Z., Wang, P., Mi, N., Yu, D., Li, H., 2016. Crustal stress field in Yunnan: implication for crust-mantle coupling. Earthq Sci 29, 105–115.

25. Bao, X., *Sun, X., Xu, M., Eaton, D.W., Song, X., Wang, L., Ding, Z., Mi, N., Li, H., Yu, D., Huang, Z., Wang, P., 2015. Two crustal low-velocity channels beneath SE Tibet revealed by joint inversion of Rayleigh wave dispersion and receiver functions. Earth and Planetary Science Letters 415, 16–24.

24.*Huang, Z., Wang, L., Xu, M., Ding, Z., Wu, Y., Wang, P., Mi, N., Yu, D., Li, H., 2015. Teleseismic shear-wave splitting in SE Tibet: Insight into complex crust and upper-mantle deformation. Earth and Planetary Science Letters 432, 354–362.

23.*Huang, Z., Wang, P., Xu, Mingjie, Wang, L., Ding, Z., Wu, Y., Xu, Mijian, Mi, N., Yu, D., Li, H., 2015. Mantle structure and dynamics beneath SE Tibet revealed by new seismic images. Earth and Planetary Science Letters 411, 100–111.

22.*Huang, Z., Zhao, D., Liu, X., 2015. On the trade-off between seismic anisotropy and heterogeneity: Numerical simulations and application to Northeast Japan. J. Geophys. Res. Solid Earth 120, 3255–3277.

21.*Huang, Z., Zhao, D., Wang, L., 2015. P wave tomography and anisotropy beneath Southeast Asia: Insight into mantle dynamics. J. Geophys. Res. Solid Earth 120, 5154–5174.

20.*Huang, H., Wang, P., Mi, N., Huang, Z., Xu, M., Wang, L., Li, H., Yu, D., 2014. Lateral Variations of the Mantle Transition Zone Structure beneath Eastern China. Bulletin of the Seismological Society of America 104, 1533–1539.

19.*Huang, Z., Wang, P., Zhao, D., Wang, L., Xu, M., 2014. Three-dimensional P wave azimuthal anisotropy in the lithosphere beneath China: 3D P-wave anisotropy beneath China. J. Geophys. Res. Solid Earth 119, 5686–5712.

18.*Wang, P., Huang, Z., Mi, N., Xu, M., Wang, L., Li, H., Yu, D., Huang, H., Mao, X., 2014. Crustal structure beneath the Weihe Graben in central China: Evidence for the tectonic regime transformation in the Cenozoic. Journal of Asian Earth Sciences 81, 105–114.

17. Huang, H., *Xu, M., Wang, L., Huang, Z., Wang, P., Mi, N., Li, H., Yu, D., 2013. Distinct lateral variations of upper mantle anisotropy beneath eastern China revealed by shear-wave splitting. Geochem. Geophys. Geosyst. 14, 1842–1855.

16.*Huang, Z., *Zhao, D., 2013. Relocating the 2011 Tohoku-oki earthquakes (M 6.0–9.0). Tectonophysics 586, 35–45.

15.*Huang, Z., *Zhao, D., 2013. Mechanism of the 2011 Tohoku-oki earthquake (Mw 9.0) and tsunami: Insight from seismic tomography. Journal of Asian Earth Sciences 70–71, 160–168.

14.*Huang, Z., *Zhao, D., 2013. Mapping P-wave azimuthal anisotropy in the crust and upper mantle beneath the United States. Physics of the Earth and Planetary Interiors 225, 28–40.

13. Huang, Z., *Zhao, D., Hasegawa, A., Umino, N., Park, J.-H., Kang, I.-B., 2013. Aseismic deep subduction of the Philippine Sea plate and slab window. Journal of Asian Earth Sciences 75, 82–94.

12.*Huang, Z., *Wang, L., Zhao, D., Mi, N., Xu, M., 2011. Seismic anisotropy and mantle dynamics beneath China. Earth and Planetary Science Letters 306, 105–117.

11.*Huang, Z., *Zhao, D., Wang, L., 2011. Stress field in the 2008 Iwate-Miyagi earthquake (M7.2) area. Geochem. Geophys. Geosyst. 12, Q06006.

10.*Huang, Z., *Zhao, D., Wang, L., 2011. Shear wave anisotropy in the crust, mantle wedge, and subducting Pacific slab under northeast Japan. Geochem. Geophys. Geosyst. 12, Q01002.

9.*Huang, Z., *Zhao, D., Wang, L., 2011. Seismic heterogeneity and anisotropy of the Honshu arc from the Japan Trench to the Japan Sea: Heterogeneity and anisotropy of Honshu arc. Geophysical Journal International 184, 1428–1444.

8.*Huang, Z., *Zhao, D., Wang, L., 2011. Frequency-dependent shear-wave splitting and multilayer anisotropy in northeast Japan. Geophys. Res. Lett. 38, L08302.

7.*Zhao, D., Huang, Z., Umino, N., Hasegawa, A., Kanamori, H., 2011. Structural heterogeneity in the megathrust zone and mechanism of the 2011 Tohoku-oki earthquake (Mw 9.0). Geophys. Res. Lett. 38, L17308.

6.*Zhao, D., Huang, Z., Umino, N., Hasegawa, A., Yoshida, T., 2011. Seismic imaging of the Amur–Okhotsk plate boundary zone in the Japan Sea. Physics of the Earth and Planetary Interiors 188, 82–95.

5.*Huang, Z., *Wang, L., *Zhao, D., Xu, M., Mi, N., Yu, D., Li, H., Li, C., 2010. Upper mantle structure and dynamics beneath Southeast China. Physics of the Earth and Planetary Interiors 182, 161–169.

4.*Huang, Z., *Zhao, D., Umino, N., Wang, L., Matsuzawa, T., Hasegawa, A., Yoshida, T., 2010b. P-wave tomography, anisotropy and seismotectonics in the eastern margin of Japan Sea. Tectonophysics 489, 177–188.

3. Huang, Z., *Xu, M., Wang, L., Mi, N., Yu, D., Li, H., 2008. Shear wave splitting in the southern margin of the Ordos Block, north China. Geophys. Res. Lett. 35, L19301.

2. Huang, Z., *Wang, L., Xu, M., Liu, J., Mi, N., Liu, S., 2007. Shear wave splitting across the Ailao Shan-Red River fault zone, SW China. Geophys. Res. Lett. 34, L20301.

1.黃周傳, 鄒付戈, 盛玲, 朱國榮, *張慶龍, 2007. 貝加爾裂谷帶中部的新構造特徵及其成因分析. 華東地質 115, 157–164.

黃周傳