• 姓名: 陈永顺
  • 职称: 教授
  • 学位: 博士
  • 北京大学
  • 地球与空间科学学院
教育背景

1978.02-1982.07学士(地球物理学),中国科学技术大学地球与空间科学系。

1983.08-1985.06硕士(地球物理学),美国普林斯顿大学地质和地球物理学系。

1985.07-1989.04博士,美国普林斯顿大学地质和地球物理学系。

工作经历

1989.05-1990.12美国加州大学圣地亚哥分校Scripps海洋研究院,博士后。

1991.01-1996.06美国俄勒冈州立大学海洋研究院,助理教授。

1994.06-1994.09美国加州大学圣地亚哥分校Scripps海洋研究院,访问教授。

1995.06-1995.09美国加州大学圣地亚哥分校Scripps海洋研究院,访问教授。

1996.07-2002.12美国俄勒冈州立大学海洋研究院,副教授。

2004.04-2004.08日本爱媛大学理学部地球动力学研究中心,访问教授。

2001.10-2013.10中国北京大学地球与空间科学学院、理论与应用地球物理研究所所长。

2001.09-至今中国北京大学地球物理学系,***特聘教授。

学术兼职

1983-至今,美国地球物理学会,美国地质学会会员。

1999-至今,中国地球科学促进会(IPACES)会员。

2001-至今,中国地球物理学会会员。

1994-1997,美国地球物理学研究杂志(固体地球)编委。

1994-1997,美国西太平洋地球物理联合会构造委员会主席。

1997-2002,美国勘探地球物理学会俄勒冈州立大学教授顾问。

2002-2004,中国国家自然科学基金委员会第九届地球科学部专家评审组委员。

2001-2003,国际综合大洋钻探计划临时科学指导和评估委员会委员。

2003-至今,中国综合大洋钻探计划专家委员会委员。

2003-至今,国际大洋中脊协会中国执委会主席。

2004-至今,国际综合大洋钻探计划科学指导和评估委员会委员。

2004-至今,海洋地球物理学杂志主编。

2013-至今,国际大洋中脊协会执委会主席。

科研项目

1、国家自然科学基金重大研究计划项目,91128210、南海深部结构的海底地震仪台阵探测:检验海南地幔柱假说、2012/01-2016/12、250万元、主持。

2、国家自然科学基金重点项目,4103087、南海超慢速扩张西南印度洋中脊首次海底地震仪台阵探测、2011/01-2014/12、245万元、已结题、主持。

3、国家自然科学基金重大研究计划项目,90814002、华北克拉通深部结构的流动地震台阵探测研究、2008/01-2011/12、1170万元、已结题、参加。

4、国家自然科学基金面上项目,40676023、大洋中脊热液喷孔区的地球物理和海水热液羽流综合研究、2007/01-2009/12、42万元、已结题、主持。

5、国家自然科学基金重大国际合作交流项目,40520120222、喜马拉雅-西藏高原碰撞带岩石圈尺度造山动力学、2005/01-2007/12、90万元、已结题、主持。

6、国家自然科学基金***基金项目,40125011、中国及邻区大陆岩石圈复杂构造地球动力学研究、2002/01-2005/12、80万元、已结题、主持。

7、科技部973项目,第一课题,2012CB417301、地壳和上地幔深部结构和热源、2011/10-2016/9、612万、主持。

8、地震行业科研专项项目,201308011、中国地震科学台阵探测—南北地震带北段—北京大学台阵、2013/1-2015/12、200万、主持。

9、国土资源部行业调查项目,秦岭及周边地区三维地壳和岩石圈结构探测,2013/1-2015/12、360万、主持。

论文专著

1.Chen, Y., Thermal model of oceanic transform faults, Journal of Geophysical Research, 93, 8839-8851, 1988.

2.Chen, Y., A mechanical model for the inside corner uplift at a ridge-transform fault intersection, Journal of Geophysical Research,, 94, 9275-9282, 1989.

3.Chen, Y., Dynamics of Mid-Ocean Ridge Systems, Ph. D. Thesis, 222 pp., Princeton University, 1989.

4.Chen, Y., and W. J. Morgan, Rift valley/no rift valley transition at mid-ocean ridges, Journal of Geophysical Research, 95, 17,571-17,581, 1990.

5.Chen, Y., and W. J. Morgan, A nonlinear-rheology model for mid-ocean ridge axis topography, Journal of Geophysical Research, 95, 17,583-17,604, 1990.

6.Chen, Y., and J. B. Minster, Slip line model for southern California crustal kinematics, Tectonics, 10, 577-586, 1991.

7.Chen, Y., Oceanic crustal thickness versus spreading rate, Geophysical Research Letters, 19, 753-756, 1992.

8.Phipps Morgan, J., and Y. J. Chen, The genesis of oceanic crust: Magma injection, hydrothermal circulation, and crustal flow, Journal of Geophysical Research, 98, 6283-6297, 1993.

9.Phipps Morgan, J., and Y. J. Chen, Dependence of ridge-axis morphology on magma supply and spreading rate, Nature, 364, 706-708, 1993.

10.Phipps Morgan, J., and Y. J. Chen, Reply, Journal of Geophysical Research, 99, 12,031-12,032, 1994.

11.Phipps Morgan, J., Y. J. Chen, and others, An observational and theoretical synthesis of magma geometry and crustal genesis along a Mid-Ocean Spreading Center, in Magmatic Systems, ed. by M. Ryan, Academic Press, San Diego, Chapter 7, pp. 139-178, 1994.

12.Bonatti, E., Y. J. Chen, and others, Transform migration and vertical tectonics at the Romanche Fracture Zone, equatorial Atlantic, Journal of Geophysical Research 99, 21,779-21,802, 1994.

13.Enriquez, K. D., and Y. J. Chen, A three-dimensional gravity study of the Pacific-Antarctic East Pacific Rise/Menard transform intersection, Journal of Geophysical Research, 100, 17,813-17,822, 1995.

14.Chen, Y. J., and J. Phipps Morgan, The effect of magma emplacement geometry, spreading rate, and crustal thickness on hydrothermal heat flux at mid-ocean ridge axes, Journal of Geophysical Research, 101, 11,475-11,482, 1996.

15.Chen, Y. J., Constraints on the melt production rate beneath the mid-ocean ridges based on passive flow models, Pure and Applied Geophys., 146, 590-620, 1996.

16.Chen, Y. J., Dynamic of the Mid-Ocean Ridge plate boundary: Recent observations and theory, Pure and Applied Geophys., 146, 621-648, 1996.

17.Chen, Y. J., K. D. Enriquez, and P. Lonsdale, Does the mid-ocean ridge propagate concurrently both on the seafloor and at depth? Implications from a gravity study of a large nontransform offset at 36.5˚S, East Pacific Rise, Journal of Geophysical Research, 101, 28,281-28,289, 1996.

18.Baker, E. T., Y. J. Chen, and J. Phipps Morgan, Relationship between hydrothermal cooling and the spreading rate of mid-ocean ridges, Earth Plant. Sci. Lett., 142, 137-145, 1996.

19.Chen, Y. J. and J. Lin, Mechanisms for the formation of ridge-axis topography at slow-spreading ridges: a lithospheric-plate flexural model, Geophys. J. International, 136, 8-18, 1999.

20.Chen, Y. J., Dependence of crustal accretion and ridge axis topography on spreading rate, mantle temperature, and hydrothermal cooling, in Dilek, Y., Moores, E.M., Elthon, D., and Nicolas, A., eds., Ophiolites and Oceanic Crust: New Insights from Field Studies and the Ocean Drilling Program; Boulder, Colorado, Geological Society of America Special Paper 349, p. 161-179, 2000.

21.Chen, Y. J., Thermal effects of gabbro accretion from a deeper second melt lens at the fast spreading East Pacific Rise, Journal of Geophysical Research, 106, 8581-8588, 2001.

22.Graham, D., G. Ito, and Y. J. Chen, Physical and chemical effects of mantle plume-spreading ridge interaction, RIDGE Events, v.11, No. 2, p. 12, 2001.

23.Chen, Y. J., Seafloor spreading and dynamics of mid-ocean ridges, as Chapter 8 in Earth’s Structure, Evolution and Dynamics, edited by Y. Zhang and A. Yin, Chinese Higher Education Press, Beijing, p. 283-329, 2002 (in Chinese).

24.Chen, Y. J., Influence of the Iceland mantle plume on crustal accretion at the inflated Reykjanes Ridge – Magma lens and low hydrothermal activity? Journal of Geophysical Research, 108(B11), 2524, 10.1029/2001JB000816, 12 November 2003.

25.Chen, Y. J. and J. Lin, High sensitivity of ocean ridge thermal structure to changes in magma supply: the Galapagos Spreading Center, Earth and Planetary Science Letters, 221, 263-273, 2004.

26.Chen, Y. J. (2004), Modeling the thermal state of the oceanic crust, in Mid-Ocean Ridges: Hydrothermal Interactions Between the Lithosphere and Oceans, Geophys. Monogr. Ser., vol. 148, edited by C. R. German, J. Lin, and L.M. Parson, pp. 95-110, AGU, Washington, D. C.

27.Zhang, Z. and Y. J. Chen, Preliminary study of depth distribution of crystal size within the gabbro layer of oceanic crust, Chinese Geophysics Journal, (in Chinese), 47(4), 610-615, 2004.

28.Chen, Y.J. (2004),Thermal structure and accretion mechanisms of the oceanic crust, in Environment, Natural Hazards, and Global Tectonics of the Earth, Advances in Earth Sciences, vol. 2, edited by Y. J. Chen, pp. 195-221, Higher Education Press, Beijing.

29.Y. J. Chen, InterRidge-China Update: Significant Progress in Ridge Crest Research in China, InterRidge News, v.13, No. 2, p. 14, 2004.

30.Pei, S., Y.J. Chen, D. Zhao, A. Yin, J. Ning, and X.F. Chen (2005), Tomographic Structure of East Asia: 1. No fast (slab) anomalies beneath 660-km discontinuity, Journal of Geophysical Research, revised in February 2005.

31.Chen, Y.J., S. Pei, S., D. Zhao, A. Yin, J. Ning, and X.F. Chen (2005), Tomographic Structure of East Asia: 2. Stagnant slab above 660-km discontinuity and its geodynamic implications, Journal of Geophysical Research, revised in February 2005.

奖励/荣誉

1989-1990,获美国加州大学圣地亚哥分校Scripps海洋研究院Green Scholar奖学金。

1994-1995,获美国南加州大学地震研究中心奖学金。

1994-1995,获美国加州大学圣地亚哥分校Scripps海洋研究院Green Scholar奖学金。

2001-2004,获中国教育部***奖励计划特聘教授。

2002-2005,获中国国家***科学基金。