张 南

博士,副教授




北京大学地球与空间科学院副教授

Woods Holes海洋研究所地质与地球物理系博士后

布朗大学地质学系博士后


联系电话:(508)289-2344

电子信箱:nan_zhang@pku.edu.cn

个人主页:http://www.geo.brown.edu/People/Postdocs/Zhang/NanZhangHome.html





教育背景:




20063月-2011年5月     科罗拉多大学物理系,地球物理博士

20039月-2005年12月    多伦多大学地质科学系,地质学硕士

20009月-2003年7月     北京大学地球物理系,固体地球物理硕士

19969月-2000年7月     北京大学地质学系,地震地质学学士

 

 

工作经历



2015年10月-至今      北京大学地球与空间科学学院,助理教授

2014年1月‐2015年9月      博士后,Woods Holes海洋研究所,地质与地球物理系

2011年6月‐2013年12月      博士后,布朗大学,地质学系

 

研究领域:


俯冲带上隆升体中的熔体分离和分布及其与弧后火山中的不相容元素的关系

超大陆的聚合与分离

Pangea 聚合与分离导致的造山和古气候变化

古生代以来的地幔柱和火山

古生代以来的大地水准面和地球旋转极的演化

长波对流的物理机制

月球的构造演化和内部结构



论文及报告:


I. Publication List

1.N. Zhang, Y. Liang, and E.M., Parmentier (2014), The petrogenesis of lunar Mare basalts and evolution of Procellarum KREEP Terrane from melts after cumulate mantle overturn, in revision of PEPI. (月球表面玄武岩以及虹湾区的融体演化)

2.N. Zhang, E. M. Parmentier, and Y. Liang (2013), E_ects of lunar cumulate mantle overturn and megaregolith on the expansion and contraction history of the Moon, Geophys. Res. Lett., 40,

doi:10.1002/grl.50988. (钛铁矿聚集物翻转和风化壳对月球膨胀/收缩的影响)

3.N. Zhang, M.E., Parmentier, and Y., Liang, 2013, A 3D numerical study of the thermal evolution ofthe Moon after cumulate mantle overturn: The importance of rheology and core solidification, J.Geophy. Res., doi:10.1029/jgre.20121. (源于overturn的月球演化:地幔粘度和月核结晶的重要性)

4.N. Zhang, S.J., Zhong, and R.M., Flowers, 2012, Predicting and testing continental vertical motionhistories since the Paleozoic, Earth Planet. Sci. Lett., 317, 426‐435. (估计和测试古生代以来大陆的垂直运动)

5.Rebecca Flowers, A.K. Ault, S.A. Kelley, N. Zhang, and S.J. Zhong, 2012, Epeirogeny or eustasy? Paleozoic‐ Mesozoic vertical motion of the North American continental interior fromthermochronometry and implications for mantle dynamics. Earth Planet. Sci. Lett., 317, 436‐445. (造陆还是海面沉降, 热计时法估计的北美大陆沉降历史以及对地幔对流的意义)

6. N. Zhang and S. Zhong, 2011. Heat Fluxes at the Earthʹs Surface and Core‐mantle Boundary since the Pangea Formation and Their Implications for the Geomagnetic Superchrons. Earth Planet. Sci. Lett., doi:10.1016/j.epsl2011.04.01.(古生代以来地表热流和核幔边界热流历史, 对古地磁间断的意义)

7. N. Zhang, S.J. Zhong, W. Leng, and Z.X. Li, 2010, A model for the evolution of the Earthʹs mantle structure since the Early Paleozoic, J. Geophys. Res., doi:10.1029/2009JB006896. (一个古生代以来的地幔结构演化模型)

8. N. Zhang, S.J. Zhong, and A. K. McNamara 2009, Supercontinent formation from stochastic collision and mantle convection models, Gondwana Research, 15, 267‐275, doi:10.1016/j.gr.2008.10.002. (超大陆的形成, 随机碰撞还是地幔驱动?)

9. S.J. Zhong, N. Zhang, Z.X. Li, and J.H. Roberts 2007, Supercontinent cycles, true polar wander, and very long‐wavelength mantle convection, Earth Planet. Sci. Lett., 261, 551‐564. (超大陆循环, 真极移与超长地幔对流的关系)

10. N. Zhang and R. N. Pysklywec 2006, Role of mantle flow at the North Fiji Basin: Insights from anomalous topography. Geochem. Geophys. Geosyst., 7, 12, doi:10.1029/2006GC001376. (北斐济盆地的异常地形与其下的地幔对流的关系)

11. N. Zhang and S. Wang, 2004, Dynamical Analysis of the Abrupt Motion Change of the Pacific Plate at 43 Ma. NASA Astrophysics Data System, #T51A‐04. (43百万年前太平洋板块的运动动力学分析)


II. Reports

2008 Study the Deep Interior of the Earth, Section DI32B, AGU 2008 Fall Meeting.

Linking Plate Tectonic and Surface Processes to the Deep Earth, Section T12, AGU 2011Fall Meeting.

2011 Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing, China Title: “The    Evolution of Supercontinent, Mantle Structure, Surface and Core‐Mantle Boundary Heat Fluxes and Surface Vertical Motions Since the Early Paleozoicʺ

2012 Movers and Shakers, 43rd Lunar and Planetary Science Conference, March 19, 2012.

2012 Planetary Science, Section P51C, AGU 2012 Fall Meeting.

2014 February, University of Houston, Department of Earth and Atmospheric Sciences: Title: “The Global tectonics on the Earth and the Moon, and the magma migration in the terrestrial planets”


III.Abstracts of Seminars

Zhang, N., E. M. Parmentier, and Y. Liang (2013), Present‐day lunar mantle and core structures predicted from cumulate mantle overturn and the e_ect of megaregolith on the thermal contraction, Gordon Research Conference: Interior of the Earth, Mount Holyoke College, South Hadley, MA, June 02‐07, 2013.

Zhang, N., E. M. Parmentier, and Y. Liang (2013), The present‐day thermal and chemical structure with Vs pro_les predicted from the lunar overturn model, 44th Lunar and Planetary Science Conference, The Woodlands, TX, March 18‐22, 2013.

Zhang, N., E. M. Parmentier, and Y. Liang (2012), The melt migration in the ilmenite‐bearing cumulate layer after the Overturn in Lunar Mantle, Mantle Convection and Lithospheric Dynamics Workshop, University of California at Davis, July 29‐August 2, 2012.

Zhang, N., E. M. Parmentier, and Y. Liang (2011), The stability of the ilmenite‐rich cumulates and its implications for structures in the lunar surface and mantle, AGU Fall Meeting, San Francisco, CA, Dec. 05‐09, 2011.

Zhang, N. and S. Zhong (2011), Heat ux at the Earthʹs surface and core‐mantle boundary since Pangea formation and their implications for the geomagnetic superchrons, Gordon Research Conference: Interior of the Earth, Mount Holyoke College, South Hadley, MA, June 05‐10, 2011.

Zhang, N. and S. Zhong (2010), Heat ux at the Earthʹs surface and core‐mantle boundary since Pangea formation and their implications for the geomagnetic superchrons, AGU Fall Meeting, San Francisco, CA, Dec. 13‐17, 2010.

Zhang, N. and S. Zhong (2010), A model for the evolution of the Earthʹs mantle structure and surface and core‐mantle boundary heat ux since the Paleozoic, Mantle Convection and Lithospheric Dynamics Workshop, University of California at San Diego, July 26‐29, 2010.

Zhang, N. and S. Zhong (2010), A model for the evolution of the Earthʹs mantle structureand surface and core‐mantle boundary heat ux since the Paleozoic, The 12thSymposium of Study of the Earthʹs Deep Interior, University of California at SantaBarbara, July 18‐23, 2010.

Zhang, N., S. Zhong, W. Leng and Z.X. Li (2009), The African and Pacifc superplumesstructures constrained by assembly and breakup of Pangea, AGU Fall Meeting, SanFrancisco, CA, Dec. 14‐18, 2009.

Zhang, N. and S. Zhong (2008), A new principle for determining preferred owwavelength based on maximizing the rate of work by gravity, Mantle Convection andLithospheric Dynamics Workshop, University of California at Davis, July 09‐11, 2008.

Zhang, N., S. Zhong and A. McNamara (2007), Supercontinent formation in 3‐Dspherical mantle convection models with multiple continental blocks, AGU FallMeeting, San Francisco, CA, Dec. 10‐14, 2007.

Zhang, N. and S. Zhong (2007), Nu‐Ra relation from 3D spherical convection with astagnant lid, Gordon Research Conference: Interior of the Earth, Mount HolyokeCollege, South Hadley, MA, June 10‐15, 2007.

Zhong, S. and N. Zhang (2006), An 1‐2‐1 cyclic model for the evolution of mantlestructure, AGU Fall Meeting, San Francisco, CA, Dec. 11‐15, 2006.

Nan Zhang and S. Wang (2004), Dynamical Analysis of the Abrupt Motion Change ofthe Pacific Plate at 43 Ma, AGU Spring Meeting, Montreal, Canada, May 17‐21, 2004.