• 姓名: Eiichi Takahashi
  • 性别: 男
  • 职务: 
  • 职称: 研究员
  • 学历: 博士研究生
  • 电话: 
  • 传真: 
  • 电子邮件: takahashi@gig.ac.cn
  • 通讯地址: 广州市天河区科华街511号
    简  历:
  • I obtained my PhD in 1979 at Geology Department of Tokyo University under supervision of Prof. Ikuo Kushiro. After 2 years of PD in Geophysical laboratory (1979-1980), Carnegie Institute of Washington, I became assistant Professor at Institute for Study of the Earth’s Interior, Okayama University (1981-1988). Since 1988 until my retirement in 2017, I became a member of Earth and Planetary Science Department of Tokyo Institute of Technology (1988-2003 Associate Prof.; 2004-2017 Full Prof.) .

    My research aim is to understand magma genesis and chemical geodynamics through intensive studies on mantle rocks, volcanic rocks and high-pressure experiments up to the lower mantle pressures. In Tokyo Tech., I built an experimental petrology laboratory (Magma Factory) that includes internally heated gas vessels (up to 0.9 GPa), piston-cylinders (up to 3.5 GPa) and Kawai-type multi-anvils (up to 50GPa). By the collaboration agreement between Tokyo Tech. and Chinese Academy of Sciences, I could move much of the experimental apparatus to the Guangzhou Institute of Geochemistry, CAS. My goal at GIG is to collaborate many scientists and young students and pursue further development of very high-pressure experimental studies in China. 

    I organized and lead following projects in Japan that includes; Japan-US joint research project on Hawaiian volcanoes using JAMSTEC ships and submersibles (1998-2002, Hawaiian Volcanoes, Deep Underwater Perspectives AGU Monograph vol.128), 21COE “How to build habitable planets” (2004-2008, MEXT Japan), Mega Research Project “Geofluid: Nature and dynamics of fluids in subduction zones”(2011-2016, MEXT Japan). I have received following honors; Clarke Award (1987, Geochemical Society), 文部科学大臣表彰科学技術者賞(2007, 日本国文部科学省)Volcanological Society Award (2015, The Volcanological Society of Japan), AGU Fellow (2016, American Geophysical Union), JpGU Fellow (2018, Japan Geoscience Union), 紫綬褒章(2018、日本国政府).

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  • Publications since 2018:

    Halogen heterogeneity in the lithosphere and evolution of mantle halogen abundances inferred from intraplate mantle xenoliths. (2019) Masahiro Kobayashi, Hirochika Sumino, Ray Burgess, Shun'ichi Nakai, Tsuyoshi Iizuka, Jun Nagao, Hiroyuki Kagi, Michihiko Nakamura, Eiichi Takahashi, Tetsu Kogiso, and Chris J. Ballentine Geochemistry, Geophysics, Geosystems, 20. https://doi.org/10.1029/2018GC007903

    Stability of hydrous minerals of Al-phase D and Al-phase H in deep subducted oceanic crust (2019) Xingcheng Liu, Kyoko Matsukage, Yu Nishihara, Toshihiro Suzuki and Eiichi Takahashi, Amer. Mineral. Vol.104, p.64-72 https://doi.org/10.2138/am-2019-6559

    Aqueous fuid connectivity in subducting oceanic crust at the mantle transition zone conditions. (2018) Liu, X., Matsukage, K. N., Li, Y., Takahashi, E., Suzuki, T., & Xiong, X. J.Geophysical Research: Solid Earth, 123, 6562–6573. https://doi.org/10.1029/ 2018JB015973

    Evolution of magma plumbing system in Miyakejima volcano: Constraints from melting experiments (2018) Masashi Ushioda* Eiichi Takahashi*, Morihisa Hamada, Toshihiro Suzuki, and Kenji Niihori, Journal of Geophysical Research: Solid Earth 123. https://doi.org/10.1029/2018JB015910

    Selected previous publications:

    1.   Mantle dynamics inferred from the crystallographic-preferred-orienation of bridgmanite N. Tsujino, Y. Nishihara, D. Yamazaki, Y. Seto, Y. Higo, and E. Takahashi, Nature,vol. 539, 81-84, 2016.  

    2. Phase relations in the system MgO-FeO-SiO2 to 50 GPa and 2000C: an application of experimental techniques using multianvil apparatus with sintered diamond anvils, Y.Tange*, E.Takahashi, Y.Nishihara, K.Funakoshi and N.Sata J. of Geophysical Res. 114, B02214 ,2009.

    3.   Melting phase relation of FeHx up to 20 GPa: Implication for the temperature of the Earth’s core, K. Sakamaki E. Takahashi*, Y. Nakajima,Y. Nishihara, K. Funakoshi T.Suzuki and Y. Fukai Physics, Earth Planet. Inter., vol.174, 192-201. 2009.

    4.   Volcanism in Response to plate flexure, N. Hirano, E. Takahashi, J. Yamamoto, N. Abe, S.P. Ingle, I. Kaneoka, T. Hirata, J. Kimura, T. Ishii, Y. Ogawa, S. Machida and K. Suyehiro, Science, 313, 1426-1428, 2006

    5.   The chemical structure of the Hawaiian mantle plume, Zhong-Yuan Ren, S. Ingle, E. Takahashi, N. Hirano, T. Hirata, Nature, 436, 837-840, 2005

    6.   Experimental constraints on the role of garnet pyroxenite in the genesis of high-Fe mantle plume derived melts,  J. Tuff, E.Takahashi and S.A. Gibson, J. Petrology, 46, 2023-2058, 2005.

    7.   Petrogenesis of tholeiitic lavas from the submarine Hanaridge, Haleakala volcano, Hawaii, Z.-Y. Ren, E.Takahashi, Y.Orihashi, K.T.M.Johnson, J.Petrology, 43,  2067-2104 2005

    8.   Melting Process in the Hawaiian plume: An experimental study Eiichi TAKAHASHI and Katsuji NAKAJIMA, In Hawaiian Volcanoes: Deep underwater perspectives,  Amer. Geophys. Union, Monograph, vol.128 403-418, 2002.

    9. Subsolidus and melting experiments of K-doped peridotite KLB-1 to 27GPa: its geophysical and geochemical implications, W. Wang and E. Takahashi, J. Geophys. Res, 105, 2855-2868, 2000

    10. Origin of the Columbia River Basalts: Melting model of a heterogeneous plume head. E.Takahashi , K.Nakajima and T.L. Wright, Earth Planet. Sci. Lett., 162, 63-80, 1998.

    11. Reconstruction of a magma chamber evolution beneath Usu-volcano.  A. Tomiya and E.Takahashi,  J. Petrol., 36, 617-636, 1995.

    12. Melting study of a peridotite KLB-1 to 6.5 GPa and the origin of basaltic magmas.  E.Takahashi, T.Shimazaki, Y.Tsuzaki, H.Yoshida,  Phil. Trans. R. Soc. Lond. Ser, A, 342, 105-120, 1993

    13. Speculation on the Archean Mantle: Missing link Between Komatiite and Depleted garnet peridotite, E. Takahashi, J. Gerophys. Res., 95, 15941-15954, 1990

    14. Postspinel Transformations in the system Mg2SiO4-Fe2SiO4 and some geophysical implications, E. Ito and E. Takahashi, J. Geophys. Res., 94, 10637-10646, 1989

    15. Melting of peridotite at uppermost lower mantle conditions, E.Ito and E.Takahashi, Nature, 328, 514-517, 1987

    16.. Melting of a dry peridotite KLB-1 up to 14GPa: implications on the origin of peridotite upper mantle, E. Takahashi, J. Geophys. Res., 91, 9367-9382, 1986

    17. Genesis of calc alkali andesite magma in ahydrous mantle-crust boundary: Petrology of lherzolite xenoliths from the Ichinomegata crater, Oga peninsula, Northeast Japan, Part II,  E.Takahashi, J. Volcanol., Geotherm. Res., 29, 355-395, 1986.

    18. Melting of peridotite to 14GPa and the genesis of komatiite, E.Takahashi and C.M.Scarfe, Nature, 315, 566-568, 1985.

    19. Melting of a dry peridotite at high pressures and basalt magma genesis, E. Takahashi and I. Kushiro, Amer. Mineral., 68, 859-879, 1983

    20. Partitioning of Ni2+, Co2+, Fe2+, Mn2+ and Mg2+ between olivine and silicate melts: compositional dependence of partition coefficient, E.Takahashi, Geochim Cosmochim Acta, 42,1829-1844, 1978

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