王毛毛,男,教授,博士生导师,理学博士
(联系地址:江苏省南京市西康路1号,Email:wangmm@hhu.edu.cn)
https://www.researchgate.net/profile/Maomao_Wang
学术简历:
学习经历:
2011.9-2013.1:美国哈佛大学 专业:Structural Geology,导师:Prof. John H.Shaw, 联合培养博士生
2008.9-2013.6:南京大学 专业:构造地质学,导师:贾 东 教授,理学博士
2004.9-2008.7:中国石油大学(华东) 专业:资源勘查工程,学士学位
工作经历:
2013.11-2016.04 日本京都大学 理学部地球物理学系博士后
2014.02-2014.04 美国哈佛大学 访问学者
2014.04-2016.04 日本京都大学 日本学术振兴会(JSPS)特别研究员
2016.05-至今 河海大学 九游·j9(中国)官方网站 副教授,教授
2018.03-2018.05 国际大洋发现计划IODP Structural Geologist (Expedition 375)
研究方向
(1)海沟俯冲带:俯冲带构造,断层结构,显微-岩心尺度构造
(2)盆地构造:断层相关褶皱,前陆盆地,冲断带构造,地震解释方法
(3)活动构造:公共断层模型(CFM),公共速度建模(CVM),活动断层和褶皱
(4)海洋油气资源:含油气盆地构造,东海陆架盆地,渤海湾盆地
(5)构造变形:物理模拟与数值模拟,断裂系统三维建模
主讲课程
1.构造地质学-Structural Geology(本科生)
2.高等海洋构造分析(研究生)
3.地质学综合实习(本科生)
科研项目
1.国家重点研发计划,重大自然灾害防控与公共安全,2021YFC3000604-02,构建三维公共断层模型和四维构造动态演化模型-专题二,2021-2024,主持;
2.国家自然科学基金面上项目,42172232, 2022-2025,主持;
3.国家重点研发计划,重大自然灾害预警监测与防范,2018YFC1504104, 不同构造类型活动断裂三维建模关键技术及应用,2019-2022,参与;
4.国家自然科学基金青年项目,41702202, 2018-2020,主持;
5.江苏省自然科学基金青年项目,BK20170868,2017-2019,主持;
6.中国地震局中国地震监测实验场专项课题,基于叠加速度和声波测井的四川盆地三维地震速度场建模,2017-2019,主持;
7.国际大洋发现计划IODP375 Hikurangi Subduction Margin航次项目,主持;
8.中国地震局中国地震监测实验场专项课题,2017-2018,参与;
9.中央高校基本科研业务费项目,2017-2019,主持;
10.日本学术振兴会(JSPS)外国人特别研究员奖励基金,2014-2016,主持;
11.哈佛中国基金会(Harvard China Fund), Improving Seismic Hazard Assessment in China and the United States Based on Lessons Learned from the 2008 Wenchuan (M7.9) Earthquake, 2011-2013,参与;
1.中国石化胜利物探研究院,惠民中央隆起带构造差异性成因机制研究,2020-2021,主持
2.中国石化华东石油工程有限公司,孔雀亭地区始新统控砂模式研究,2019-2020,共同负责
3.中海石油有限公司,南海海洋环境条件研究(南海中南部油气盆地环境条件参数),2017,参与;
论文论著
#第一或通讯作者(*)
一、代表性论文
1.Wang, M*., Jia, D., Shaw, J. H., Hubbard, J., Plesch, A., Li, Y., & Liu, B. The 2013 Lushan earthquake: Implications for seismic hazards posed by the Range Front blind thrust in the Sichuan Basin, China, Geology, 42(10), 915-918, 2014.
2.Wang. M*, P.M. Barnes, J.K. Morgan, R.E Rebecca, G.F Moore, M. Wang, A. Fagereng, H. Savage, D. Gamboa, R.N Harris, S. Henrys, J. Mountjoy, A.M Tréhu, D. Saffer, L. Wallace, K, Petronotis, Compactive deformation of incoming calcareous pelagic sediments, northern Hikurangi subduction margin, New Zealand: Implications for subduction processes, Earth and Planetary Science letters, 2023, 605, 118022, https://doi.org10.1016/jepsl.2023.118022.
3.Wang, M*., J. Hubbard, A. Plesch, J. H. Shaw, and L. Wang, Three-dimensional seismic velocity structure in the Sichuan basin, China, Journal of Geophysical Research: Solid Earth, 121, doi:10.1002/2015JB012644, 2016.
4.Wang, M*., A. Lin, Active thrusting of the Longquan Fault in the central Sichuan basin, China and the seismotectonic behavior in the Longmen Shan fold-and-thrust belt, Journal of Geophysical Research: Solid Earth, 2017, 122, doi:10.1002/2016JB013391.
5.Wang, M*, M Wang, W Feng, B Yan, D Jia, Influence of surface processes on strain localisation and seismic activity in the Longmen Shan fold-and-thrust belt: insights from discrete-element modeling, Tectonics, 2022, 41, 11, e2022TC007515, doi: 10.1029/2022TC007515.
二、论文论著
2023
1. Wang. M*, P.M. Barnes, J.K. Morgan, R.E Rebecca, G.F Moore, M. Wang, A. Fagereng, H. Savage, D. Gamboa, R.N Harris, S. Henrys, J. Mountjoy, A.M Tréhu, D. Saffer, L. Wallace, K, Petronotis, Compactive deformation of incoming calcareous pelagic sediments, northern Hikurangi subduction margin, New Zealand: Implications for subduction processes, Earth and Planetary Science letters, 2023, 605, 118022, https://doi.org10.1016/jepsl.2023.118022.
2. Yan, B., Jia, D., & Wang, M. Drainage development on the northern Tibetan Plateau controlled by the Altyn Tagh Fault: insights from analog modeling. Earth Surface Processes and Landforms, 2023, 48, 10, 2005-2022, https://doi.org/10.1002/esp.5600
3. Fu, Y., Yan, B., Liang, J., Chen, J., Lei, B., Wang, M., Tan, M., Yang, C., Yuan, Y., & Zhang, P. Influence of basement high and detachment on the kinematics of a fold-and-thrust belt in the central South Yellow Sea Basin, China: Insights from analog modeling. Marine and Petroleum Geology, 106648, in press
4. Yang, S., H. Zhang, M. Wang, J. Gao, S. Wang, B. Liu. 2024, Earthquake monitoring and high-resolution velocity tomography for the central Longmenshan fault zone by a temporary dense seismic array. Earth and Planetary Physics. doi: 10.26464/epp2024006, in press
5. 王明,王毛毛*,郭仔佚,海山俯冲对希库朗伊增生楔构造变形的影响:基于离散元模拟的认识,海洋地质与第四纪地质, 2023, doi: 10.16562/j.cnki.0256-1492.2022090801.
6.王衍迪,王毛毛*,闫兵,汤梦静,贾红义,渤海湾盆地惠民凹陷中央隆起带张扭性断裂演化的构造物理模拟研究,高校地质学报,2023, doi: 10.16108/j.issn1006-7493.2022075
7.汤梦静,王毛毛*,贾红义,王衍迪,闫兵,惠民凹陷滚动背斜与顶部垮塌断层形成的构造物理模拟研究,地质通报,42(9),1516-1530,2023.
8.马皓然,苏金宝,王毛毛,任培罡,谈明轩. 边缘海盆地断层差异演化成因的数值模拟:以西湖凹陷平北斜坡带为例[J]. 海洋地质与第四纪地质,2023, doi: 10.16562/j.cnki.0256-1492.2022102301
2022
1. Wang, M*, M Wang, W Feng, B Yan, D Jia, Influence of surface processes on strain localisation and seismic activity in the Longmen Shan fold-and-thrust belt: insights from discrete-element modeling, Tectonics, 2022, 41, 11, e2022TC007515, doi: 10.1029/2022TC007515.
2. Morgan, J. K., Solomon, E. A., Fagereng, A., Savage, H. M., Wang, M., Meneghini, F., ... & Wallace, L. M. (2022). Seafloor overthrusting causes ductile fault deformation and fault sealing along the Northern Hikurangi Margin. Earth and Planetary Science Letters, 593, 117651.
3. Lu, R., Wang, M., Li, Z., & Liu-Zeng, J. (2022). Three-Dimensional Community Active Faults Models of CSES. In China Seismic Experimental Site (pp. 91-109). Springer, Singapore.
2021
1. Song, G., Wang, M*., Jiang, D., Chen, Z., Yan, B., Feng, W., (2021), Along-strike structural linkage and interaction in an active thrust fault system: A case study of the western Sichuan foreland basin, China, Basin Research, 33(1), 210-216, doi: 10.1111/BRE.12461;
2. Savage, H. M., Shreedharan, S., Fagereng, Å., Morgan, J. K., Meneghini, F., Wang, M., ... & LeVay, L. J. (2021). Asymmetric Brittle Deformation at the Pāpaku Fault, Hikurangi Subduction Margin, NZ, IODP Expedition 375. Geochemistry, Geophysics, Geosystems, 22(8), e2021GC009662.
3. Coffey, G. L., Savage, H. M., Polissar, P. J., Meneghini, F., Ikari, M. J., Fagereng, Å., ... & Wang, M. (2021). Evidence of seismic slip on a large splay fault in the Hikurangi subduction zone. Geochemistry, Geophysics, Geosystems, 22(8), e2021GC009638.
2020
1. Jiang, D., Wang, M*., Song, G., Yan, B., & Feng, W. (2020). Transition from fault-propagation folds to fault-bend folds determined by along-strike variations of structural styles and fault displacement-distance relationships: The Sumatou anticline, Sichuan Basin, China. Journal of Structural Geology, 131, 103951.
2. Wang, M*., Feng, W., Jiang, D., Yan, B., Chen, Z., Song, G. (2020). Interactions between thin-and thick-skinned tectonics at the western Sichuan Basin, China. Tectonophysics, 796, 228628
3. Wang, M*., H. Yang, L. Fang, D. Jia, D, Jiang, and B. Yan (2020). Shallow faults reactivated by hydraulic fracturing: The 2019 Weiyuan earthquake sequences in Sichuan, China, Seismological Research Letters, 91(6), 3171-3181, doi: 10.1785/0220200174
4. Yang, Y., Yao, H., Wu, H., Zhang, P., & Wang, M. (2020). A new crustal shear-velocity model in Southwest China from joint seismological inversion and its implications for regional crustal dynamics. Geophysical Journal International, 220(2), 1379-1393.
5. Barnes, P. M., L. M. Wallace, D. M. Saffer, R. E. Bell, M. B. Underwood, A.Fagereng, F. Meneghini, H. M. Savage, H.S. Rabinowitz, J. K. Morgan, H. Kitajima, S. Kutterolf, Y. Hashimoto, C. H. Engelmann de Oliveira ,A. Noda, M. P. Crundwell, C. L. Shepherd, A. D. Woodhouse, R. N. Harris, M. Wang, S. Henrys, D. H.N. Barker, K. E. Petronotis, S. M. Bourlange, M. B. Clennell, A. E. Cook, B. E. Dugan, J. Elger, P. M. Fulton, D. Gamboa, A. Greve, S. Han, A. Hüpers, M. J. Ikari, Y. Ito, G.Y.Kim, H. Koge, H. Lee, X. Li, M. Luo, P. R. Malie, G.F. Moore, J. J. Mountjoy, D. D. McNamara, M. Paganoni, E. J. Screaton, U. Shankar, S. Shreedharan, E. A. Solomon, X. Wang, H-Y. Wu, I. A. Pecher, L. J. LeVay, and IODP Expedition 372 Scientists (2020), Slow slip source characterized by lithological and geometric heterogeneity, Science Advances, 6(13), eaay3314 doi: 10.1126/sciadv.aay3314
6. Cui, J., Jia, D., Yin, H., Chen, Z., Li, Y., Wang, M., ... & Ma, D. (2020). The influence of a weak upper ductile detachment on the Longmen Shan fold-and-thrust belt (eastern margin of the Tibetan Plateau): Insights from sandbox experiments. Journal of Asian Earth Sciences, in press, 104220.
7. Jia, D., Li, Y., Yan, B., Li, Z., Wang, M., Chen, Z., & Zhang, Y. (2020). Journal of Asian Earth Sciences The Cenozoic thrusting sequence of the Longmen Shan fold-and-thrust belt , eastern margin of the Tibetan plateau : Insights from low-temperature thermochronology. Journal of Asian Earth Sciences, (April), 104381.
8. Leah, H., Fagereng, Å., Meneghini, F., Morgan, J. K., Savage, H. M., Wang, M., R, Bell., M, Ikari., (2020). Mixed brittle and viscous strain localisation in pelagic sediments seaward of the Hikurangi margin, New Zealand. Tectonics, 39, doi.org/10.1029/2019TC005965
2019
1. Fagereng, Å., Savage, H. M., Morgan, J. K., Wang, M., Meneghini, F., Barnes, P. M., R. Bell, H. Kitajima, D.D McNamara, D. M. Saffer, Wallace, L. M., K. Petronitis, L. Levay; the IODP Expedition 372/375 Scientists (2019). Mixed deformation styles observed on a shallow subduction thrust, Hikurangi margin, New Zealand. Geology, 47(9), 872-876.
2. Yan, B., Wang, M., Jia, D., & Cui, J. (2019). Investigation and magnitude re‐evaluation of the 1955 Zheduotang earthquake, eastern Tibetan Plateau, China. Geological Journal
3. Zhang, Y., Muxworthy, A.R., Jia, D., Wei, G., Xia, B., Wen, B., Wang, M., Liu, W. and Brzozowski, M.J., 2019. Identifying and dating the destruction of hydrocarbon reservoirs using secondary chemical remanent magnetization. Geophysical Research Letters
4. Saffer, D. M., Wallace, L. M., Barnes, P. M., Pecher, I. A., Petronotis, K. E., LeVay, L. J., ..Wang, M., .. & Fulton, P. M. (2019). Expedition 372B/375 summary. Proceedings of the International Ocean Discovery Program, 372, 1-35.
2018
1. Xie, Z., Zheng, Y., Yao, H., Fang, L., Zhang, Y., Liu, C., Wang, M., Shan, B., Zhang, H., Ren, J. and Ji, L., Preliminary analysis on the source properties and seismogenic structure of the 2017 M s 7.0 Jiuzhaigou earthquake., 2018, Science China-Earth Sciences, 61(3), pp.339-352.
2. 房立华,吴建平,苏金蓉,王毛毛,蒋策,范莉苹,王未来,王长在,谭夏露,四川九寨沟Ms7.0地震主震及其余震序列精定位,科学通报,2018,63(7):649-662
2017
1. Wang, M*., A. Lin, Active thrusting of the Longquan Fault in the central Sichuan basin, China and the seismotectonic behavior in the Longmen Shan fold-and-thrust belt, Journal of Geophysical Research: Solid Earth, 2017, 122, doi:10.1002/2016JB013391.
2. Stockmeyer, J. M., J. H. Shaw, N. D. Brown, E. J. Rhodes, P. W. Richardson, M. Wang, L. C. Lavin, and S. Guan, Active thrust sheet deformation over multiple rupture cycles: A quantitative basis for relating terrace folds to fault slip rates, Geological Society of America Bulletin, B31590.1, 2017, doi:10.1130/B31590.1
3. Lin A, M.Wang. Great earthquakes and the fall of the Sanxingdui and Jinsha civilizations in central China. Geoarchaeology, 2017; 00:1–14.
2016
1. Sun, C., Jia, D., Yin, H., Chen, Z., Li, Z., Shen, L., Wei, D., Li, Y., Yan, B., Wang, M. and Fang, S., 2016. Sandbox modeling of evolving thrust wedges with different preexisting topographic relief: Implications for the Longmen Shan thrust belt, eastern Tibet. Journal of Geophysical Research: Solid Earth, 2016.
2. Wang, M*., J. Hubbard, A. Plesch, J. H. Shaw, and L. Wang, Three-dimensional seismic velocity structure in the Sichuan basin, China, Journal of Geophysical Research: Solid Earth, 121, doi:10.1002/2015JB012644, 2016.
2015
1.苑京文, 贾东, 王毛毛, 李一泉, 沈淑鑫. 下扬子句容断陷盆地负反转构造特征及对油气的控制. 地质论评 5 (2015): 008.
2014
1. Wang, M*., Jia, D., Shaw, J. H., Hubbard, J., Plesch, A., Li, Y., & Liu, B. The 2013 Lushan earthquake: Implications for seismic hazards posed by the Range Front blind thrust in the Sichuan Basin, China, Geology, 42(10), 915-918, 2014.
2. Li, Y., Jia, D., Wang, M., Shaw, J. H., He, J., Lin, A., & Rao, G. Structural geometry of the source region for the 2013 Mw 6.6 Lushan earthquake: Implication for earthquake hazard assessment along the Longmen Shan, Earth and Planetary Science Letters, 390, 275-286, 2014.
2013
1. Wang, M., D. Jia, J. H. Shaw, J. Hubbard, A. Lin, Y. Li, L. Shen, Active fault-related folding beneath the alluvial terrace in the south Longmen Shan range front, Sichuan basin, China: Implications for seismic hazard, Bulletin of the Seismological Society of America, 103, 4, 2369-2385, August, 2013.
2. Wang, M., D. Jia, A. Lin, L. Shen, G. Rao and Y. Li, Late Holocene activity and historical earthquakes study on the Qiongxi thrust fault system in the south segment of the Longmen Shan fold-and-thrust belt, eastern Tibetan Plateau, Tectonophysics, 584, 102-113, January, 2013.
3. Li, Y., D. Jia, A. Plesch, J. Hubbard, J. H. Shaw, M. Wang, 3D geomechanical restoration and paleomagnetic analysis of fault-related folds: An example from the Yanjinggou anticline, southern Sichuan Basin, Journal of Structural Geology, 54, 199-214, 2013
4. Li, Zhigang, Dong Jia, Wei Chen, Yikun Zhang, Maomao Wang, Yiquan Li, Haibin Li et al. "Structural deformation and evolution of right-lateral strike-slip tectonics of the Liaohe western depression during the early Cenozoic." Journal of Asian Earth Sciences, 77 (2013): 1-11.
5.张猛, 贾东, 王毛毛, 李志刚, 李一泉. (2013). 斜向逆冲断层相关褶皱的正演模型与实例分析. 地质论评, 59(6), 1207-1217.
2012
1.闫兵, 贾东, 李一泉, 王毛毛. (2012). 2011 年日本东北 Mw 9.0 级地震的岩石圈三维建模分析. 高校地质学报, 18(4), 676-685.
2011
1.贾东, 武龙, 闫兵, 李海滨, 李一泉, 王毛毛. (2011). 全球大型油气田的盆地类型与分布规律. 高校地质学报, 17(2), 170-184.
2.贾东, 李一泉, 王毛毛, 李海滨. (2011). 断层相关褶皱的三维构造几何学分析: 以川西三维地震工区为例. 岩石学报, 27(3), 732-740.
2010
1.王毛毛, 贾东, 李一泉, 闫兵, 罗良, 李海滨, 武龙, 沈礼. (2010). 龙门山褶皱冲断带南北分段性与汶川地震的关系. 第四纪研究 4: 711-720.
2. Jia, D., Y. Q. Li, A. M. Lin, M. Wang, W. Chen, X. Wu, Z. Ren, L. Luo, Structural model of 2008 Mw 7.9 Wenchuan earthquake in the rejuvenated Longmen Shan thrust belt, China, Tectonophysics, 491, 1-4, 174-184, August 2010.
3. Li, Y., D. Jia, J. H. Shaw, J. Hubbard, A. Lin, M. Wang, L. Luo, H. Li, and L. Wu, Structural interpretation of the coseismic faults of the Wenchuan earthquake: Three-dimensional modeling of the Longmen Shan fold-and-thrust belt, Journal of Geophysical Research: Solid Earth., 115, B04317, April, 2010
表彰奖励
1. 教育部自然科学二等奖,2019,排名第3
2. 日本学术振兴会外国人特别研究员奖励基金,2014
3. 河海大学三育人先进个人,2021
4. 河海大学优秀研究生论文指导教师,2021
5. 河海大学优秀本科论文指导教师,2022
6. 江苏省海洋学会科学技术奖一等奖,2021,排名第3
7. 河海大学大禹学者第四层次,2018
学术兼职
国内外学术会议专题召集人
担任2019年美国地球物理学会AGU年会专题召集人
2019、2020年全国构造青年论坛召集人
国内外学术期刊编辑与评阅人
Review for Scientific Journals
Proceeding of the National Academy of Sciences / Journal of Geophysical Research-Solid Earth / Geological Society of America Bulletin / Tectonics / Tectonophysics / Seismological Research Letters / Basin Research / Geosphere / Journal of Asian Earth Sciences / Island Arc
Frontiers of Earth Science 评审编辑、《中国地质》青年编辑
国内外学术团体兼职
中国地震局科技创新团队骨干成员;
中国地震学会青年科技工作委员会委员;
中国地震学会地震地质专业委员会委员;
江苏省海洋学会理事,海洋地质与地球物理专委会副主任;
江苏省地震学会青年科技工作委员会委员;
江苏省地质学会海洋地质专委会委员;
AGU/AOGS/JPGU/AAPG等会员
研究组成员:
1)研究生:
蒋丹琦(17级硕士研究生;河海大学优秀硕士论文,UT-Austin攻读博士学位)
研究方向:断层相关褶皱机制横向演变机理
宋功化(17级硕士研究生;毕业,中建合肥水泥研究设计院)
研究方向:逆冲构造体系的横向连接
封旺 (18级硕士研究生; 河海大学优秀毕业研究生)
研究方向:褶皱冲断带构造变形与地表过程的相互作用
王明 (20级硕士研究生)
研究方向:Hikurangi海山俯冲构造变形的数值模拟
王衍迪 (20级硕士研究生)
研究方向:渤海湾盆地构造变形的物理模拟
马浩然(20级硕士研究生)
研究方向:伸展构造变形及其模拟
胡顺阳(21级硕士研究生)
研究方向:俯冲带构造变形
李辉 (21级硕士研究生)
研究方向:CCUS碳封存中的构造因素分析
梁铂雨 (22级硕士研究生)
王福远 (23级硕士研究生)
马皓然(23级博士研究生)
2)博士后:
钱佳威、向云飞
海上工作剪影
2018年3月-5月参加国际大洋发现计划,停泊于新西兰Timaru港口的决心号
大洋钻探期间海上升起双彩虹(Photo credit: T. Fulton)
与Rice University地质学家Julia Morgan一起讨论岩心构造问题(Photo credit: T. Fulton)