l 基本信息

姓    名：郭玲莉

性    别：女

出生年月：1985年6月

祖    籍：河南省安阳市

联系地址：山东省青岛市崂山区松岭路238号，邮编266100.

中国海洋大学海洋地球科学学院A303

联系电话：0086-532-66781971(OfficeA301)，66786327（OfficeA302）

电子邮箱：guolingli@ouc.edu.cn

l 简历

·学习经历

河北理工大学，地质学学士学位，中国唐山，2008.06

中国地震局地质研究所, 固体地球物理学 博士学位，中国北京，2013.07

·工作简历

2015.9至今，中国海洋大学，海洋地球科学学院，讲师；

2013.9—2015.9，中国海洋大学，海洋地球科学学院，博士后

2011.8-2011.10，香港理工大学，土木工程学院，访问学者、助理研究员

l 研究成果

·授权国家专利

[1]郭玲莉,李三忠,索艳慧,惠格格,戴黎明.天然气水合物分解引起的海底滑坡模拟及观测系统.国家发明专利。授权日:2016.01.13.专利号ZL201410139109.3

[2]郭玲莉,刘力强,陈顺云,王汝杰.小型电动地质取芯钻机. 国家发明专利. 授权日：2015.8.19. 专利号ZL201210316726.7

[3]郭玲莉,刘力强,魏占玉,何宏林.地震断层带岩石的断层面形貌测量系统. 国家发明专利.授权日：2015.4.05. 专利号ZL201210098150.1

[4]郭玲莉,刘力强,陈国强,刘天昌.动态应变场观测系统.国家发明专利.授权日:2014.6.19.专利号ZL201110390546.9.

[5]马少鹏,郭玲莉等.地质软材料的复杂变形的模拟加载及测量系统. 国家发明专利. 授权日:2013.1.16. 专利号ZL201110207413.3.

[6]马沁巍,周衡毅,马少鹏,郭玲莉等. 多应变片精确位置和方向的自动化检测方法. 国家发明专利. 授权日:2014.1.15.专利号ZL201210026549.9.

[7]郭玲莉,李三忠等.天然气水合物分解引起的海底滑坡模拟及观测系统. 国家实用新型专利.授权日:2014.8.13. 专利号 ZL201420167305.7.

[8]郭玲莉,刘力强等.小型电动地质取芯钻机.国家实用新型专利. 授权日: 2013.2.20.专利号ZL201220438935.4.

[9]郭玲莉;刘力强等.地震断层带岩石的断层面形貌测量系统. 国家实用新型专利. 授权日: 2012.10.10. 专利号ZL201220140708.3.

·国家级出版社出版的重要专著

[1] 2017年，李三忠，索艳慧，郭玲莉，编著，《海底构造原理》，北京：科学出版社.

·主持和参与的科研项目

1)国家自然科学基金青年基金，“天然气水合物分解诱发海底滑坡的实验研究”（编号：41502321），2016.01-2017.12，项目负责人；

2)青岛市博士后研究人员应用研究项目资助，“天然气水合物分解诱发海底滑坡的实验研究及形成机制”, 2014.07-2015.09，项目负责人；

3)中海油横向合作，“西湖凹陷中北部反转构造特征及其对大中型油气田的控制研究”， 2014.08～2016.03，项目主要骨干；

4)国家自然科学基金面上项目，断层失稳滑动观测与瞬态过程分析（41174046），2012.01-2015.12，项目主要骨干

5)国家自然科学基金面上项目，“地震弱初始震相及其影响因素的实验研究（41274187）”，2013.01-2016.12，项目主要骨干；

l 研究兴趣

·学科方向

构造物理学、构造地质学、洋底动力学、地震学

·应用研究

利用构造物理模拟的方法与技术，利用自主研发的物理模拟相关的实验设备，对海底滑坡、俯冲带、走滑拉分盆地、利于油气成藏的反转构造、褶皱、地震断层等构造定量化认识，通过简化实际地质构造，用物理方法分析其演化和成因，为矿产及油气资源勘探及稳定性、地震机理及预测等提供构造背景支持。

·近期研究兴趣

（1）地震断层失稳瞬态过程研究：通过经典黏滑物理实验，研究断层失稳过程高速滑动阶段的力学场变化，分析断层破裂的启动、扩展、停止等阶段上各参数的行为和作用以及他们之间的相互关系，进一步理清浅源粘滑型地震的前兆过程、空间分布，地震能量释放与迁移规律。

（2）东部陆缘北段中生代增生造山作用和板块汇聚过程：以我国东部陆缘北段为研究区，研究不同构造单元的构造属性及与周边地块的亲缘性、地体拼贴、增生造山过程；

（3）陆架和边缘海盆地动力学：西太平洋陆缘含油气盆地构造物理模拟及成盆机制分析；

（4）俯冲机制：西北太平洋双俯冲系统的俯冲过程物理模拟；深浅部地球动力过程及耦合关系；

l 代表性SCI论文

[1]Guo, L., Li, S., Suo, Y., Ji, Y., Dai, L., Yu, S., ... & Somerville, I.D.. 2015. Experimental study and active tectonics on the Zhangjiakou-Penglai fault zone across North China. Journal of Asian Earth Sciences, 114, 18-27.

[2]Guo, L. L., Li, S. Z., Zhao, S. J., Zhang, G. X., Suo, Y. H., Liu, H., ... & Li, X. Y. (2016). Final breakup of continental block and opening of oceanic lithosphere: insights from deep crustal structure and tectonic evolution of the ocean–continent transition zone in the northern South China Sea. Geological Journal, 51, 318-330.

[3]郭玲莉,刘力强,马瑾. 2014. 粘滑实验的震级评估和应力降分析.地球物理学报. 57(3):867-876.

[4]Li, S., Guo, L., Xu, L., Somerville, I. D., Cao, X., Yu, S., ... & Zhao, S. (2015). Coupling and transition of Meso–Cenozoic intracontinental deformation between the Taihang and Qinling Mountains. Journal of Asian Earth Sciences, 114, 188-202.

[5]Hui, G., Li, S., Guo, L., Zhang, G., Gong, Y., Somerville, I. D., ... & Zang, Y. (2016). Source and accumulation of gas hydrate in the northern margin of the South China Sea. Marine and Petroleum Geology, 69, 127-145.

[6]Dai, L. M., Li, S. Z., Guo, L. L., Suo, Y. H., Zhang, J., Hu, M. Y., & Li, Q. W. (2016). Numerical modelling of the relationship between the present tectonic stress field and the earthquakes in the Western Pacific Subduction Zone. Geological Journal, 51, 609-623.

[7]Zang, Y. B., Li, S. Z., Guo, L. L., Suo, Y. H., Somerville, I. D., Zhao, S. J., ... & Zheng, Q. L. (2016). Similarity and differentiation between the East China Sea Shelf Basin and Cenozoic basins in the northeast South China Sea. Geological Journal, 51, 304-317.

[8]Liu, H., Luan, X. W., Guo, L. L., Yue, B. J., Zhang, L., Ran, W. M., & Pan, J. (2016). Fault distribution and formation mechanism of a magnetic quiet zone in the northern South China Sea. Geological Journal, 51, 331-345.

[9]Wang, Q., Li, S., Guo, L., Suo, Y., & Dai, L. (2017). Analogue modelling and mechanism of tectonic inversion of the Xihu Sag, East China Sea Shelf Basin. Journal of Asian Earth Sciences, 139, 129-141.

[10]许立青,李三忠,郭玲莉,索艳慧,曹现志,戴黎明,王鹏程,惠格格. 2016. 郯庐断裂带对鲁西隆升过程的影响:磷灰石裂变径迹证据. 岩石学报, 32(04):1153-1170.

[11]Dai, L., Li, Q., Li, S., Guo, L., Somerville, I. D., Xu, L., ... & Suo, Y. (2015). Numerical modelling of stress fields and earthquakes jointly controlled by NE-and NW-trending fault zones in the Central North China Block. Journal of Asian Earth Sciences, 114, 28-40.

[12]Cao, X., Li, S., Xu, L., Guo, L., Liu, L., Zhao, S., ... & Dai, L. (2015). Mesozoic–Cenozoic evolution and mechanism of tectonic geomorphology in the central North China Block: constraint from apatite fission track thermochronology. Journal of Asian Earth Sciences, 114, 41-53.

[13]Hui, G., Li, S., Li, X., Guo, L., Suo, Y., Somerville, I. D., ... & Zhang, J. (2016). Temporal and spatial distribution of Cenozoic igneous rocks in the South China Sea and its adjacent regions: implications for tectono‐magmatic evolution. Geological Journal, 51, 429-447.

[14]Kong, X. C., Li, S. Z., Suo, Y. H., Guo, L. L., Li, X. Y., Liu, X., ... & Zhao, S. J. (2016). Hot and cold subduction systems in the Western Pacific Ocean: insights from heat flows. Geological Journal, 51, 593-608.

[15]Suo, Y., Li, S., Li, X., Guo, L., & Wang, Y. (2016). Crustal thickness anomalies in the Indian Ocean inferred from gravity analysis. Geological Journal, 51, 634-643.

[16]Zhang, Y., Li, S. Z., Suo, Y. H., Guo, L. L., Yu, S., Zhao, S. J., ... & Mu, D. L. (2016). Origin of transform faults in back‐arc basins: examples from Western Pacific marginal seas. Geological Journal, 51, 490-512.

[17]Zheng, Q. L., Li, S. Z., Suo, Y. H., Li, X. Y., Guo, L. L., Wang, P. C., ... & Somerville, I. D. (2016). Structures around the Tinjar‐West Baram Line in northern Kalimantan and seafloor spreading in the proto‐South China Sea. Geological Journal, 51, 513-523.

[18]Sun, W., Li, S., Liu, X., Santosh, M., Zhao, S., Guo, L., ... & Zhang, Y. (2015). Deep structures and surface boundaries among Proto-Tethyan micro-blocks: Constraints from seismic tomography and aeromagnetic anomalies in the Central China Orogen. Tectonophysics, 659, 109-121.

[19]Li, S., Jahn, B. M., Zhao, S., Dai, L., Li, X., Suo, Y., Guo, L., ... & Zhou, Z. (2017). Triassic southeastward subduction of North China Block to South China Block: Insights from new geological, geophysical and geochemical data. Earth-Science Reviews, 166, 270-285.

[20]Liu, B., Li, S., Jiang, S., Suo, Y., Guo, L., Wang, Y., & Zhang, H. (2017). Origin and model of transform faults in the Okinawa Trough. Marine Geophysical Research, 38(1-2), 137-147.

[21]Li, X. Y., Li, S. Z., Suo, Y. H., Dai, L. M., Guo, L. L., Ge, F. J., & Lin, P. J. (2017). Late Cretaceous basalts and rhyolites from Shimaoshan Group in eastern Fujian Province, SE China: age, petrogenesis, and tectonic implications. International Geology Review, 1-23.

[22]Yu, S., Zhang, J., Li, S., Sun, D., Li, Y., Liu, X., Guo, L. & Zhao, X. (2017). Paleoproterozoic granulite-facies metamorphism and anatexis in the Oulongbuluke Block, NW China: Respond to assembly of the Columbia supercontinent. Precambrian Research, 291, 42-62.

[23]李三忠, 李涛, 赵淑娟，李玺瑶，刘鑫，郭玲莉，于胜尧，李少俊. 2017. 东亚原特提斯洋(Ⅳ):北界西段早古生代构造变形. 岩石学报， 33(6):1615-1632.

[24]李三忠，李涛，赵淑娟，李玺瑶，刘鑫，郭玲莉，于胜尧，李少俊. 2017. 东亚原特提斯洋(Ⅴ):北界西段陆缘属性及微陆块拼合. 岩石学报，2017，33(6):1633-1652.

[25]Lan, H., Li, S., Li, X., Wang, P., Somerville, I. D., Guo, L., ... & Tao, J. (2017). Early Mesozoic intracontinental deformation in the eastern North China Block: Implication for an indentation model of North China to South China blocks. Geological Journal, 52, 8-21.

[26]Zhou, Z., Li, S., Li, X., Guo, L., Liu, X., Guo, R., & Somerville, I. (2017). Triassic orocline in East Asia: Insights from a transition from passive margin to foreland basin in eastern North China Block. Geological Journal, 52, 59-69.

[27]Liu, Z., Dai, L. M., Li, S., Guo, L. L., Hu, M. Y., Ma, F. F., ... & Yang, C. Q. (2018). Mesozoic magmatic activity and tectonic evolution in the southern East China Sea Continental Shelf Basin: Thermo‐mechanical modelling. Geological Journal, 53, 240-251.

[28]Hu, M., Li, S., Dai, L., Suo, Y., Guo, L., Somerville, I., ... & Ma, F. (2018). Dynamic mechanism of tectonic inversion and implications for oil–gas accumulation in the Xihu Sag, East China Sea Shelf Basin: Insights from numerical modelling. Geological Journal, 53, 225-239.

[29]Hui, G., Li, S., Wang, P., Zhu, J., Guo, L., Wang, Q., & Somerville, I. D. (2018). Neotectonic implications and regional stress field constraints on mud volcanoes in offshore southwestern Taiwan. Marine Geology, 403, 109-122.

[30]Wang, P. C., Li, S. Z., Guo, L. L., Jiang, S. H., Somerville, I. D., Zhao, S. J., ... & Han, B. (2016). Mesozoic and Cenozoic accretionary orogenic processes in Borneo and their mechanisms. Geological Journal, 51, 464-489.

[31]Suo, Y. H., Li, S. Z., Yu, S., Zhang, Z., Li, X. Y., & Guo, L. L. (2016). Morphotectonics and ridge jumpings in the Indian Ocean. Geological Journal, 51, 624-633.

[32]Liu, B., Li, S. Z., Suo, Y. H., Li, G. X., Dai, L. M., Somerville, I. D., Guo, L., .. & Yu, S. (2016). The geological nature and geodynamics of the Okinawa Trough, Western Pacific. Geological Journal, 51, 416-428.

[33]Xu, L., Li, S., Cao, X., Somerville, I. D., Suo, Y., Liu, X., Guo, L.... & Cao, H. (2016). Holocene intracontinental deformation of the northern North China Plain: evidence of tectonic ground fissures. Journal of Asian Earth Sciences, 119, 49-64.

[34]Zhao, S., Li, S., Liu, X., Santosh, M., Somerville, I. D., Cao, H., ... & Guo, L. (2015). The northern boundary of the Proto-Tethys Ocean: Constraints from structural analysis and U–Pb zircon geochronology of the North Qinling Terrane. Journal of Asian Earth Sciences, 113, 560-574.