李营

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姓名:李营

性别:

出生日期:1978年9月

籍贯:吉林四平

现任职称(职务):

中国地震局地震预测研究所副所长、中国地震局地震预测重点实验室主任。

中国地震局地震预测研究所研究员,博士研究生学历,博士生导师,中国地震局“地震地球化学创新团队”带头人

电话:010-88015434

E-mail:liying@ief.ac.cn

兼职情况:

中国矿物岩石地球化学学会常务理事、中国地震学会理事、中国地球物理学会流体专业委员会副主任委员、中国矿物岩石地球化学学会气体地球化学专业委员会委员。《地震》《高压物理学报》期刊编委。

教育背景:

1997.7-2001.7 吉林大学 地质学专业,学士

2001.8-2007.3 中国科学院地球化学研究所,流体地球化学专业,博士

2005.6-2006.6 德国斯图加特大学,博士论文工作

工作经历:

2007年4月-今,中国地震局地震预测研究所历任助理研究员、副研究员、研究员

2008.9-2008.11.德国鲁尔波鸿大学,合作研究

2013.12-2014.12.美国纽约州立大学石溪分校,访问学者

研究方向及领域:

本人主要从事活动构造带流体地球化学特征及地球深部流体成因研究:

1.通过野外流动测量监测活动构造带流体地球化学特征,利用同位素、离子组成和实验模拟手段,研究典型活动断裂带流体地球化学时空特征成因,揭示断裂带流体时空变化与构造活动和物质组成关系,研究断裂带流体运移机制、逸出速率、地表浓度特征与构造活动强度和岩石组成的关系,研究地震前后地下流体异常形成机制和地震前兆机理。

2.地球深部流体成因研究。利用高压实验和热力学计算手段,研究地球内部含流体物质-矿物和沉积物的变质去流体过程,矿物和沉积物体系发生的变质脱流体反应和不同深度下体系中残余含流体相,确定H2O和CO2释放深度和释放量,定量揭示含流体物质流体释放过程,为地球内部流体来源和成因提供研究依据。

目前承担的科研项目(课题):

1. 国家自然科学基金面上项目(项目编号42073063),探索活动断裂带气体地球化学在地震活动观测中的应用基础,2021-2024.项目负责人

2. 国家重点研发计划项目专题,震间-同震-震后活动断裂气体地球化学变化与深部物质来源的关系,2020-2023.项目负责人

曾负责完成的科研项目(课题):

1国家自然科学基金面上项目(项目编号41273073),板块俯冲过程中沉积物释放CO2的热力学计算和高温高压实验研究,项目负责人

2. 国家自然科学基金面上项目(项目编号41573121),唐山断裂带逸出气体Rn、He、CO2地球化学特征及其成因的实验研究,项目负责人

3. 国家自然科学基金青年基金项目(项目编号40703013),沉积物在俯冲带深部变质脱水的热力学计算和实验研究,项目负责人;

4. 中国地震局地震预测研究所基本科研业务专项项目(唐山和三河地区气体地球化学背景测量和构造地球化学研究),项目负责人

5. 中国地震局地震预测研究所基本科研业务费项目(延怀盆地气体地球化学背景场研究),项目负责人

6. 中国地震局地震预测研究所基本科研业务专项项目(首都圈地震重点监测区主要活动断裂带气体地球化学监测),项目负责人

7. 中国地震局地震预测研究所基本科研业务专项项目(首都圈地震重点监测区主要活动断裂带气体测量和地震趋势判断),项目负责人

8. 中国地震局地震预测研究所基本科研业务专项项目(首都圈地震重点监测区主要活动断裂带气体地球化学流动测量和地震应急),项目负责人

9中国地震局地震预测研究所基本科研业务专项重点项目(项目编号2012IES010203),六盘山地区流体地球化学研究及地震趋势综合判断,项目负责人

10. 中国地震局地震预测研究所基本科研业务专项任务项目(项目编号2015IES0303),首都圈地震重点危险区活动断裂带流体地球化学流动监测与地震趋势分析,项目负责人

11中国地震局地震预测研究所基本科研业务专项项目(板块边缘地震带含水矿物高压差热实验研究),项目负责人

12. 人社部留学人员科技活动择优资助项目(活动断裂带气体地球化学特征研究),项目负责人

主要代表性论著:

  1. Ying Li, Zhi Chen, Anhui Sun, Zhaofei Liu, Antonio Caracausi, Giovanni Martinelli, Chang Lu, 2023, Geochemical features and seismic imaging of the tectonic zone between the Tibetan Plateau and Ordos Block, central northern China, Chemical Geology, https://doi.org/10.1016/j.chemgeo.2023.121386

  2. Liu, L., Chen, Z*., Li, Y*., Liu, Z., Hu, L., Wang, X., Longxing Yang et al., 2023, Emission of Rn and CO2 from soil at fault zones caused by seismic waves. Earth and Space Science, 10, e2023EA003012. https://doi.org/10.1029/2023EA003012

  3. Zhou R, Zhou XC*, Li Y*, He M, Li JC, Dong JY, Tian J, Li KY, Yan YC, Ouyang SP, Liu FL, Luo ZX, 2022, Hydrogeochemical and Isotopic Characteristics of the Hot Springs in the Litang Fault Zone, Southeast Qinghai–Tibet Plateau, Water, 14, 1496. https://doi.org/10.3390/w14091496

  4. Liu ZF, Li Y*, Chen Z, Zhao ZD, Huangfu RL, Zhao YX, Lei L, Lu C, 2022, Environmental impacts of 222Rn, Hg and CO2 emissions from the fault zones in the western margin of the Ordos block, China, Environ. Geochem. Health., https://doi.org/10.1007/s10653-022-01350-5 

  5. Sun FX, Li Y*, He Q, Liu L, Wang ZG, Xu CW, Cui YJ, Zhang Y, Gong QJ, Du JG, 2022, Sound velocity anomalies of limestone at high pressure and implications for the mantle wedge, High Pressure Research, DOI: 10.1080/08957959.2022.2145562

  6. Chen Z, Li Y*, Liu ZF, He HY, Martinelli G, Lu C, Gao ZH, 2022, Geochemical and geophysical effects of tectonic activity in faulted areas of the North China Craton. Chemical Geology, https://doi.org/10.1016/j.chemgeo.2022.121048

  7. Li Y*, Chen Z, Hu L, et al. 2022, Advances in seismic fluid geochemistry and its application in earthquake forecasting (in Chinese). Chinese Science Bulletin, 2022, 67, doi: 10.1360/TB-2021-0955

  8. Su SJ, Li Y*, Chen Z, Chen QF, Liu ZF, Lu C, Hu L. 2022, Geochemistry of geothermal fluids in the Zhangjiakou-Penglai fault zone, North China: Implictions for structural segmentation. Journal of Asian Earth Sciences, 230, 105218. doi.org/10.1016/j.jseaes.2022.105218

  9. Li Y, Li L, Wang L, Han LB, Wu ZL*. 2021, China seismic experimental site (CSES): challenges of deep earth exploration and practice (DEEP). Acta Geologica Sinica, 95 (supp.1): 59-61

  10. Lu C, Li Y*, Chen Z, Liu ZF, Zhao YX, Hu L. 2021, Fluid geochemistry within the North China Craton: Spatial variation and genesis. Geofluids, doi.org/10.1155/2021/1009766

  11. Yang Y, Li Y*, Li YG, Ji LY, Gong Y, Zhang L, Chen Z*. 2021, Present-day activity of the Anninghe fault and Zemuhe Fault, southeastern Tibetan plateau, derived from soil gas CO2 emissions and locking degree. Earth and Space Science, 8, e2020EA001607. https://doi.org/10.1029/2020EA001607

  12. Zhao YX, Liu ZF, Li Y*, et al., 2021, A case study of 10 years groundwater radon monitoring along the eastern margin of the Tibetan Plateau and in its adjacent regions: Implications for earthquake surveillance. Applied Geochemistry, https://doi.org/10.1016/j.apgeochem.2021.105014

  13. Xu CW, Gao J*, Li Y*, et al., 2021, High pressure Raman spectrum study of Na2CO3. Spectroscopy and Spectral Analysis, 41(7): 1-5

  14. Chen Z, Li Y *, Liu ZF, Zheng GD, et al., 2019, CH4 and CO2 Emissions from mud volcanoes on the southern margin of the Junggar Basin, NW China: origin, output, and relation to regional tectonics. Journal of Geophysical Research. Solid Earth, 10.1029/2018JB016822

  15. Chen Z, Li Y *, Martinelli G., et al., 2020, Spatial and temporal variations of CO2 emissions from the active fault zones in the capital area of China, Applied Geochemistry, https://doi.org/10.1016/j.apgeochem.2019.104489

  16. Chen Z, Li Y*, Zhaofei Liu, et al., 2019, Evidence of Multiple Sources of Soil Gas in the Tangshan Fault Zone, North China, Geofluids, https://doi.org/10.1155/2019/1945450

  17. Cui Y, Li Y*, Si XY, et al., 2019, Tectonic controls on near-surface variations in CH4 and CO2 concentrations along the northwestern margin of the Ordos Block, China. Geofluids, 7909483.

  18. Zou YT, Li Y*, Chen HY, et al., 2018, Thermoelasticity and anomalies in the pressure dependence of phonon velocities in niobium. Applied Physics Letters, 112, 011901

  19. Chen Z, Li Y*, Liu ZF, Wang J, et al., 2018, Radon emission from soil gases in the active fault zones in the capital area and its environmental effects. Scientific Reports, 8:16772

  20. Zhao JM, Li Y*, Chen Z, et al., 2018, Correlation between gas geochemical emission and fault activity of the Yuxian-Guangling and the Kouquan Fault. Seismology and Geology. 40(6):1-8 (in chinese with english abstract) 

  21. Chen Z, Li Y*, Du JG, Zheng GD, et al., 2018, Carbon isotope variations in inorganic carbon materials: implications for mud volcanic carbon cycling in the northern Tianshan fold zone, Xinjiang, China. Applied Geochemistry, 97: 32-39

  22. Du JG, Li Y, Cui YJ, et al., 2018, Seismic Fluid Geochemistry. Seismological Press, Beijing (in chinese)

  23. Yang Y, Li Y*, Guan ZJ, Chen Z*, et al., 2018, Correlations between the radon concentrations in soil gas and the activity of the Anninghe and the Zemuhe faults in Sichuan, southwestern of China. Applied Geochemistry, 89: 23-33

  24. Wang XL, Li Y*, Du JG, et al., 2017, Geochemical characteristics of soil gases Rn, Hg and CO2 and their genesis in the capital area of China. Acta Seismologica Sinica, 39 (1): 85-101 (In chinese with English abstract)

  25. Li Y, Zou YT, Wang XB, et al., 2015, P-V-T equation of state and high-pressure behavior of CaCO3 aragonite. American Mineralogist, dx.doi.org/10.2138/am-2015-5246

  26. Li Y, Du JG, Xie C, et al., 2015, Effect of temperature on Fe-Mg composition of garnet during the high pressure and high temperature metamorphism of pelitic rock. Chinese Journal of High Pressure Physics, 29 (5): 329-336

  27. Chen Z, Zhou XC, Du JG, Xie C, Liu L, Li Y*, et al., 2015, Hydrochemical characteristics of hot spring waters in the Kangding district related to the Lushan Ms=7.0 earthquakes in Sichuan, China. Natural Hazards and Earth System Sciences. 15: 1149-1156

  28. Wang X, Li Y*, Du JG, et al., 2014, Correlations between radon in soil gas and the activity of seismogenic faults in Tangshan area, North China. Radiation Measurements, 60: 8-14

  29. Han XK, Li Y*, Du JG, et al., 2014, Soil gas Rn and CO2 geochemistry across the active fault zones in the capital area of China. Natural Hazards and Earth System Sciences, 14: 2803-2815

  30. Li Y, Du JG, Wang X, et al., 2013, Geochemical characteristics of soil gases in the Tangshan Area, Northern China. Terr. Atmos. Ocean. Sci., 24: 323-332

  31. Du JG, Li Y, Wang CY, et al., 2010, High pressure Geoscience. Seismological Press, Beijing (in chinese with english abstract)

  32. Li Y, Du JG, 2010, Thermodynamic calculation on the phase transformation and water release of subducted sediment from 10 to 35kbar. J.Phys.Chem.Solids, doi:10.1016/j.jpcs.2010.03.010

  33. Li Y, Du JG, Wang FK, et al., 2009. Geochemical characteristics of soil gas in the Yanhuai basin, northern China. Earthquake Science, 22: 93-100

  34. Li Y, Massonne HJ, Willner A, et al, 2008, Dehydration of clastic sediments in subduction zones: theoretical study using thermodynamic data of minerals. Island Arc, 17(4): 577-590

  35. Li Y, Tang HF, Liu CQ, et al., 2005, Experimental studies on dehydration of pelite by high-pressure differential thermal analysis (HP-DTA). Acta Petrologica Sinica, 21(3):986-992 (in chinese with english abstract)

  36. Li Y, Tang HF, Liu CQ, et al. 2006, Experimental study on the stability of hydrous minerals in natural pelitic system. Chinese Journal of High Pressure Physics, 20(3):257-264.

  37. Li Y, Tang HF, Liu CQ, 2006, Thermodynamic study on the dehydration of subducted sediments. Bulletin of Mineralogy, Petrology and Geochemistry, 25: 219-221