王世锋，男，1970年2月出生，河北安国人，构造地质学专业，博士，中国地质科学院地质力学研究所活动构造研究室研究员，博士生导师。研究方向是青藏高原构造变形,主要关注青藏高原陆内变形中活动断裂的几何学、运动学和年代学以及断裂控制的盆地演化特征。特别对喀喇昆仑断裂和鲜水河-小江断裂展开了详细的几何学、运动学及年代学研究。近年来，主要对帕米尔高原和青藏高原及邻区的基梅里超大陆的空间分布展开研究，通过岩石学、年代学和地球化学手段限定基梅里超大陆北部边界。并以基梅里超大陆北部边界为错断标志物，限定喀喇昆仑断裂的走滑错距及在此基础上验证青藏高原陆内变形模型。同时，为满足公路、铁路及水电站等社会建设需求，我们对施工场址区的区域构造稳定性和地震灾害危险性展开了大量的野外调研工作，结合先进的断裂研究技术，取得一系列重大的科研成果，得到施工方的广泛认可。在坚持一线工作的同时，以访问学者的身份多次到访过欧洲和美洲，与多国同行保持密切合作关系。

当前主要关注点：阿里地区喀喇昆仑断裂全新世活动特征及其地震地质灾害调查。

 

1.西藏地震局，西藏自治区第一次全国自然灾害综合风险普查（2022 年地震灾害部分）项目，418万，2022/5-2023/3,在研，技术负责。

2.中国电建集团北京勘测设计研究院有限公司，抚顺西露天矿综合治理工程场地地震安全性评价报告，45万，2022/1-2022/12，在研，主持。

3.中国电建集团北京勘测设计研究院有限公司，辽宁省清原二期抽水蓄能电站区域构造稳定性和地震安全性评价，38万，2022/1-2022/12，在研，主持。

4.云南交通厅，丽江古城至宁蒗高速公路项目SJ-02标段工程地质勘查路线区域地质构造调绘与稳定性评价（社会129），45万。2020/4-2021/6,已结题，技术负责。

5.中国铁路第一勘察设计院有限公司（社会项目），中尼铁路沿线区域地壳稳定性、活动断裂活动性及对铁路影响评价（社会93），80万，2020/6-2022/6，已结题，技术负责。

6.科技部重大专项子项目，重大滑坡发育的内动力环境（2018YFC1505001），2018.12 – 2021.12，80，已结题，主持。

7.中国地质调查局地调项目，羌塘盆地重要逆冲推覆构造综合调查（121201101000150014-1），2016/01-2018/12，450万元，已结题，主持；

8.国家自然科学基金面上项目，喀喇昆仑断裂南缘走滑错距的年代学及断裂末端转换构造研究（41172192），2011/01-2015/12, 86万元，已结题，主持；

 

1.Wang, S., Liu, Y., Fan, S., Wu, Z., 2022. Branches of the Karakoram Fault in the Eastern Pamir. International Geology Review，DOI: 10.1080/00206814.2022.2053887.

2.Wang, S.，Xiugen Fu, Yiduo Liu, Suoy Fan, Jian Wang, Zhonghai Wu, 2021. Bitu ophiolite in eastern Tibet: The last piece of the jigsaw puzzle in the Paleotethyan regime along the eastern Cimmerian continental margin. Lithos 406–407(2021), 106520.

3.Wang, S, Tang, W., Liu, Y., 2020, Rushan-Pshart Paleo-Tethyan suture deduced from geochronological, geochemical, and Sr-Nd-Hf isotopic characteristics of granitoids in Pamir. Lithos 364-365, 105549.

4.Tang, W., Wang, S*., Liu, Y., 2020. Origin of Carboniferous intra-oceanic arc granitoids from the eastern Pamir and implication on the Paleo-Tethyan ocean. Journal of Asian Earth Sciences DOI: j.jseaes.2020. 104558.

5.Wang, S., Yao, X., 2019. Geochronological, geochemical, and Sr–Nd–Hf isotopic characteristics of granitoids in eastern Tibet and implications for tectonic correlation with southeastern Asia. Lithosphere 11, 333–347. 

6.Wang, X., Wang, S*., Wang, C., Chen, L., 2018. Late Permian to Late Triassic arc-like granitoids in the northern Lancangjiang tectonic belt, eastern Tibet: age, geochemistry, Sr-Nd-Hf isotopes and tectonic implications. Lithos 308–309, 278–293. 

7.王新雨，王世锋*，江万. 2017.印支地块晚二叠世弧后伸展: 来自老挝川圹高原A 型花岗岩的证据.岩石学报, 33, 3675-3690.

8.Wang, S.,, Mo, Y., Wang, C., and Ye, P., 2016. Paleotethyan evolution of the Indochina Block as deduced from granites in northern Laos. Gondwana Research 38, 183-196.

9.Wang S., Yasi Mo, Richard Phillips and Chao Wang, 2014. Karakoram fault activity defined by temporal constraints on the Ayi Shan detachment, SW Tibet. International Geology Review 56, 15-28. (IF=3.958, 二区)

10.Wang, S., Michael A. Murphy, Richard J. Phillips, Chao Wang, 2013. Reply to Comment on “Displacement along the Karakoram fault, NW Himalaya, estimated from LA-ICPMS U-Pb dating of offset geologic markers” by Leloup et al in EPSL, 2012. Earth and Planetary Science Letters 363, 246-248.

11.Wang S., Jiang Guiguo, Xu Tiande, Zheng Dewen，2012. The Jinhe-Qinghe fault - an inactive branch of the Xianshuihe-Xiaojiang fault zone, Eastern Tibet. Tectonophysics 544-545, 92-103.

12.Wang S., Chao Wang, Richard J. Phillips, Michael A. Murphy, Xiaomin, Fang, Yahui, Yue. 2012. Displacement along the Karakoram Fault, NW Himalaya, estimated from LA-ICP-MS U-Pb dating of offset geologic markers. Earth and Planetary Science Letters 337-338, 156-163. 

13.Wang S., Erchie Wang, Xiaomin Fang and Lai Qingzhou, 2011. U-Pb SHRIMP and 40Ar/39Ar ages constrain the deformation history of the Karakorum fault zone (KFZ), SW Tibet. Tectonophysics 509, 208-217.

14.Wang S., Xiaomin Fang, Oliver Kempf, and Dewen Zheng, 2009. Initiation time of the Xianshuihe fault zone ( Eastern Tibet ) constrained by K/Ar and fission track ages. Internatioanal Geology Review 51 (12), 1121-1131.

15.Wang S., Xiaomin Fang, Peter Blisnuik,2009. New radiometric dating constrains the time for initiation of the Karakorum fault zone (KFZ), SW Tibet.Tectonophysics 475, 503-513. 

16.Wang S., Zhang Weilin, Fang Xiaomin, Dai Shuang & Kempf Oliver, 2008, Magnetostratigraphy of the Zanda basin in southwest Tibet Plateau and its tectonic implications. Chinese Science Bulletin, 53, 1393-1400.

17.Wang S., Fan Chun, Wang Gang and Erchie Wang, 2008. Late Cenozoic deformation along the northwestern continuation of the Xianshuihe fault system, Eastern Tibetan Plateau. The Geological Society of American Bulletin 120, 312-327.

18.Wang S., Peter Blisnuik, Oliver Kempf, Fang Xiaomin et al, 2008. The Basin - Range System along the South Segment of the Karakorum Fault Zone, Tibet. International Geology Review 50, 121-134. 

19.Wang S., Wang Erchie, Fang Xiaomin and Fu Bihong, 2008. Late Cenozoic systematic left-lateral stream deflection along the Ganzi-Yushu fault, the Xianshuihe fault system, eastern Tibet. International Geology Review 50, 624–635.