新时代赌城手机版-345188cc新时代赌城

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来源:资源环境与新时代赌城手机版 | 作者:李光泉 | 发布日期:2016-05-08 10:30:00 



李 光 泉博士,教授 / 硕士生导师


工作单位:云南大学, 新时代赌城手机版 650091

E-mail: guangquan_li@yahoo.com


 简介

  教育工作经历   • 2008-至今, 云南大学, 教师
• 1999-2004, 美国Florida State Univ, 地球流体动力学, 博士
• 1991-1999, 中国科技大学, 地球物理学, 本科-硕士
       
  承担课程   • 本科生课程: 理论力学、力学、含流体岩石的物理过程
• 研究生课程: 数字信号处理
       
  研究兴趣   岩石物理、地下流体
       
  主持科研项目   • 2021-2024, 国家自然科学基金/地区, 两类不同机制的局部喷流对体波衰减的作用
• 2012-2015, 国家自然科学基金/地区, 用穿透曲线研究可溶性污染物在岩溶管道中的输运
       
  科研论文   地球物理

1. Li*, G., K. Liu, and X. Li, 2020. Comparison of fluid pressure wave between Biot theory and storativity equation. Geofluids, Article ID 8820296, doi:10.1155/2020/8820296.


2. Li*, G., Y. Wang, and X. Li, 2020. Minor squirt in unconsolidated sands versus strong squirt in compressed glass beads. Geofluids, Article ID 8486154, doi:10.1155/2020/8486154.


3. Li, G., 2020. Velocity and attenuation of ultrasonic S-wave in Berea sandstone. Acta Geodaetica et Geophysica, 55: 335–345, doi:10.1007/s40328-020-00296-3.


4. Li, G., 2020. S wave attenuation based on Stokes boundary layer. Geophysical Prospecting, 68: 910–917, doi:10.1111/1365-2478.12901.


5. Hu, J., J. Badal, H. Yang, G. Li, and H. Peng, 2018. Comprehensive crustal structure and seismological evidence for lower crustal flow in the southeastern margin of Tibet revealed by receiver functions. Gondwana Research, 55:42–59, doi:10.1016/j.gr.2017.11.007.


6. Li*, G., P.F. Zhang, and J.S. Sun, 2017. A new model describing the interaction between fluid pressure wave in pores and P wave in rock matrix. Geophysics, 82(4): MR105–MR109, doi: 10.1190/GEO2016-0285.1.


7. Gao, G., G. Kang, G. Li, C. Bai, and Y. Wu, 2016. An analysis of crustal magnetic anomaly and Curie surface in west Himalayan syntaxis and adjacent area, Acta Geodaetica et Geophysica, doi: 10.1007/s40328-016-0179-z. 


8. Hu, J., H. Yang, G. Li, and H. Peng, 2015. A review on the analysis of the crustal and upper mantle structure using receiver functions. Journal of Asian Earth Sciences, 111: 589-603, doi:10.1016/j.jseaes.2015.06.007.


9. Hu, J., H. Yang, G. Li, and H. Peng, 2015. Seismic upper mantle discontinuities beneath Southeast Tibet and geodynamic implications. Gondwana Research, 28: 1032-1047, doi: 10.1016/j.gr.2014.08.016.


10. Gao, G., G. Kang, G. Li, and C. Bai, 2015. Crustal magnetic anomaly in the Ordos region and its tectonic implications. Journal of Asian Earth Sciences, 109: 63-73, doi: 10.1016/j.jseaes.2015.04.033. 


11. Gao, G., G. Kang, G. Li, and C. Bai, 2015. Crustal magnetic anomaly and Curie surface beneath Tarim Basin, China, and its adjacent area. Canadian Journal of Earth Sciences, 52: 357–367, doi: 10.1139/cjes-2014-0204.


12. Gao, G., G. Kang, C. Bai, and G. Li, 2013. Distribution of the crustal magnetic anomaly and geological structure in Xinjiang, China. Journal of Asian Earth Sciences, 77: 12-20, doi: 10.1016/j.jseaes.2013.08.014.


13. Yang, H., J. Hu, Y. Hu, Y. Duan, and G. Li*, 2013. Crustal structure in the Tengchong volcanic area and position of the magma chambers. Journal of Asian Earth Sciences, 73: 48-56, doi: 10.1016/j.jseaes.2013.04.027.


14. Hu, J., H. Yang, G. Li*, and L. Wen, 2013. Seismic signature of the Mantle Transition Zone beneath eastern Tibet and Sichuan Basin. Journal of Asian Earth Sciences, 62: 606-615, doi: 10.1016/j.jseaes.2012.11.009. 


15. Hu, J., H. Yang, X. Xu, L. Wen, and G. Li*, 2012. Lithospheric structure and crust mantle decoupling in the southeast edge of the Tibetan Plateau. Gondwana Research, 22(3-4): 1060-1067, doi:10.1016/j.gr.2012.01.003.


16. Yang, H., J. Hu, G. Li*, H. Zhao, and L. Wen, 2011. Analysis of the crustal thickness and Poisson’s ratio in eastern Tibet from teleseismic receiver functions. Geophysical Journal International, 186: 1380-1388, doi:10.1111/j.1365-246X.2011.05118.x.


17. Hu, J., X. Xu, H. Yang, L. Wen, and G. Li*, 2011. S receiver function analysis of the crustal and lithospheric structures beneath eastern Tibet. Earth and Planetary Science Letters, 306: 77-85, doi:10.1016/j.epsl.2011.03.034.


18. Li*, G., J. Hu, H. Yang, H. Zhao, and L. Cong, 2009. Lg coda Q variation across the Myanmar Arc and its neighboring regions, Pure and Applied Geophysics, 166:1937-1948, doi: 10.1007/s00024-009-0459-4.
19. Jin, Y., M. Yang, W. Zhao, X. Shi, W. Xu, and G. Li, 1999. Inversion of 3-D crustal P-wave velocity structure in Ningxia and its neighborhood by using direct, reflected and refracted waves, Acta Seismologica Sinica, 12(4): 436-446, doi:10.1007/s11589-999-0084-4.


水文地质
1. Li, G., Y. Zhang, G.M. Schindel*, M.S. Field, and N. Goldscheider, 2020. Rayleigh wave and well head response to calculate porosity in the Edwards Aquifer of South-Central Texas, USA. Acta Carsologica, 49(2-3): 241-253, doi: 10.3986/ac.v49i2-3.8849.


2. Liu, H., and G. Li*, 2020. A step-like rising and falling of a breakthrough curve observed at a karst spring. Journal of Contaminant Hydrology, 235: 103726, doi: 10.1016/j.jconhyd.2020.103726.


3. Li*, G., H. Liu, and S. Yang, 2019. Gaussian filter to process tracer breakthrough curves. Acta Carsologica, 48(2): 227–235, doi: 10.3986/ac.v48i2.7269.


4. M. S. Field, N. Goldscheider, and G. Li, 2017. Reply to Discussion by Zekai Șen on “Modeling Karst Spring Hydrograph Recession Based on Head Drop at Sinkholes”, Journal of Hydrology, 557: 348–349, doi: 10.1016/j.jhydrol.2017.12.021.


5. Li, G., N. Goldscheider, and M. S. Field, 2016. Modeling karst spring hydrograph recession based on head drop at sinkholes. Journal of Hydrology, 542: 820–827, doi: 10.1016/j.jhydrol.2016.09.052.


6. Li, G., and M. S. Field, 2016. Solute migration from the aquifer matrix into a solution conduit and the reverse. Ground Water, 54(5): 699–708, doi: 10.1111/gwat.12416.


7. Liu, H., and G. Li*, 2015. A simple diagnostic model to estimate total sink recharge based on dye tracing experiments. Acta Carsologica, 44(2): 227–235, doi: 10.3986/ac.v44i2.1628.


8. Li*, G., and H. Liu, 2015. Shear flow interaction between a tube and the surrounding matrix. Transport in Porous Media, 108(2): 279–288, doi: 10.1007/s11242-015-0475-z.


9. Li, G., and M. S. Field, 2014. A mathematical model for simulating spring discharge and estimating sinkhole porosity in a karst watershed. Grundwasser, 19(1): 51-60, doi: 10.1007/s00767-013-0243-3.


10. Li*, G., and H. Liu, 2014. An advection-dilution model to estimate conduit geometry and flow. Acta Carsologica, 43(1): 89-99, doi: 10.3986/ac.v43i1.595.


11. Li*, G., Y. Cheng, and B. Zhao, 2012. Analysis of the effect of the Beavers-Joseph interface condition on flow in karst conduits. Journal of the American Water Resources Association, 48(6): 1233-1240, doi: 10.1111/j.1752-1688.2012.00683.x.


12. Li, G., 2012. Calculation of karst conduit flow using dye tracing experiments. Transport in Porous Media, 95(3): 551-562, doi: 10.1007/s11242-012-0061-6.


13. Li*, G., 2011. Spatially varying dispersion to model breakthrough curves. Ground Water, 49(4): 584-592, doi: 10.1111/j.1745-6584.2010.00777.x.


14. Li*, G., and D. E. Loper, 2011. Transport, dilution, and dispersion of contaminant in a leaky karst conduit. Transport in Porous Media, 88(1): 31-43, doi:10.1007/s11242-011-9721-1.


15. Field, M. S., and G. Li*, 2011. Inversion for the input history of a dye tracing experiment. Journal of Cave and Karst Studies, 73(1):16-20, doi: 10.4311/jcks2010es0143.


16. Li*, G., Y. Shang, and J. Gao, 2010. Scale analysis of the significance of dispersion in mixing-transport in conduits. Journal of Cave and Karst Studies, 72(3):150-155, doi:10.4311/jcks2009es0106.


17. Li, G., 2009. Analytical solution of advective mixing in a conduit, Ground Water 47(5):714-722, doi: 10.1111/j.1745-6584.2009.00575.x.


18. Li*, G., D. Loper, and R. Kung, 2008. Contaminant sequestration in karstic aquifers: Experiments and quantification, Water Resources Research, 44, W02429, doi:10.1029/2006WR005797.

       
  工作成绩   • 2020, Geofluids副主编
• 2020, 多个SCI刊物审稿人
• 2012, 云南大学资环学院“突出贡献教师”
       
  人才培养项目   • 2009, 入选“云南省高层次人才(三等)”
       


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