委员风采
委员风采

章军锋

发布时间:2018-12-22发布者:段平忠


章军锋  教授

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姓名:章军锋              出生年月:1977年12月

国籍:中国                毕业学校:中国地质大学(武汉)

民族:汉族                学    历:博士

籍贯:湖北                参加工作时间:

 

  

学习及工作经历

1997年毕业于中国地质大学(武汉)获地质学学士学位;

2000年和2003年分别获得中国地质大学(武汉)构造地质学硕士和博士学位,

2005年12月获得美国加州大学河滨分校地质学博士学位。

现为中国地质大学(武汉)教授、博士生导师。


主要学术成就 

      主要从事壳幔岩石和矿物的高温高压流变学和实验岩石学研究工作,他建立了华北克拉通镁铁质麻粒岩下地壳的流变状态方程,揭示了变形在促进熔体橄榄岩反应中的关键作用,为克拉通破坏机制提供了定量流变学和高温高压实验约束;建立了超高压榴辉岩和绿辉石岩流变状态方程,为俯冲带动力学过程和榴辉岩拆沉提供了定量流变学约束;发现榴辉岩结构水脱水可以导致高压致裂,揭示中等深度(70-300 km)地震活动的新机制。

    发表论文44篇,其中在《自然》发表论文1篇、SCI检索论文34篇,获2014年国家杰出青年基金项目和2011年度教育部新世纪优秀人才计划资助、2007年国家自然科学二等奖(排名第三)和2007年度全国百篇博士论文优秀奖。2004年工作以来已主持国家自然科学基金项目4项,包括1个重点项目,1个科学仪器专项基金项目和2个面上项目。已合作发表国内外学术论文40多篇。担任国际岩石圈计划第四工作组副主任、地球科学杂志副主编、中国矿物岩石地球化学学会第七届实验矿物岩石地球化学专业委员会副主任委员。

 

发表论文:

1.Shi, F., Zhang, J.F., Xia, G., Jin, Z., Green, H.W. 2015. Rheology of Mg2GeO4 spinel: implications for viscosity of Earth’s mantle trainsition zone.Geophysical Research Letter, in press.

2.Xu, H.J., Zhang, J.F., Zong, K.Q., Liu, L., 2015. Quartz exsolution topotaxy in clinopyroxene from the UHP eclogite of Weihai, China.Lithos, in press.

3.Liu, P.L., Wu, Y., Chen, Y., Zhang, J.F., Jin, Z.M., 2015. UHP impure marbles fromthe Dabie Mountains: Metamorphic evolution and carbon cycling in continental subduction zones. Lithos 212-215, 280-297.

4.Zhao, Z., Wang, E.F., Yang, H.P., Kono, Y., Wen, B., Bai, L., Shi, F., Zhang, J., Kenney-Benson, C., Park, C., Wang, Y., Shen, G., 2015. Nanoarchitectured materials composed of fullerence-like spheroids and discordered grapheme layers with tunable mechanical properties.Nature Communications, 6, doi:10.1038/ncomms7212.

5.Xu, H.J., Ma, C.Q., Zhao, J.H., Zhang, J.F., 2014. Magma mixing generatedTriassic I-type granites in South China.Journal of Geology, 122, 329-351.

6.Xu, H.J., Zhang, J.F., Yu, T., River, M., Wang, Y.B., Zhao, S.R.,2014. Crystallographic evidence for simultaneous growth in graphic granite.Gondwana Research, DOI: 10.1016/j.gr.2014.01.013.

7.Xu, H.J., Ma, C.Q., Zhao, J.H., Zhang, J.F., 2014. Petrogenesis of DashenshanI-type granodiorite: implications for Triassic crust-mantle interaction, South China.International Geology Review56(3), 332-350.

8.Song, Y.R., Xu, H.J., Zhang, J.F., Wang, D.Y., Liu, E.D., 2014. Syn-exhumation partial melting and melt segregation in the Sulu UHP terrane: Evidences from leucosome and pegmatitic vein of migmatite.Lithos202-203, 55-75.

9.Song, Y.R., Xu, H.J., Zhang, J.F., Wang, D.Y., Liu, E.D., 2014. Effects of melt fractional crystallization on Sr-Nd and Lu-Hf isotope systems: a case study of Triassic migmatite in the Sulu UHP terrane. International Geology Review 56(7), 783-800.

10.Liu, P.L., Wu, Y., Liu, Q., Zhang, J.F., Zhang, L., Jin, Z.M., 2014. Partial melting of UHP calc-gneiss from the Dabie Mountains.Lithos, 192-195: 86-101.

11.Zhang J.F., Shi, F., Xu, H.J., Wang, L., Feng, S.Y., Liu, W.L., Wang, Y.F., Green H.W.,2013. Petrofabric and strength of SiO2near the quartz-coesite phase boundary.Journal of Metamorphic Geology, 31: 83-92.

12.Liu, Q., Hermann, J., Zhang, J.F., 2013. Sub-solidus dehydration and melting in the Shuanghe UHP paragneiss: evidence from polyphase inclusions in clinozoisite and garnet.Lithos, 177: 91-109.

13.Xu, H.J., Ye, K., Song, Y.R., Chen, Y., Zhang, J.F., Liu, Q., Guo, S. 2013. Prograde metamorphism, decompressional partial melting and subsequent melt fractional crystallization in the Weihai migmatitic gneisses, Sulu UHP terrane, eastern China.Chemical Geology, 341: 16-37.

14.Wang, Y., Zhang, J.F., Shi, F., 2013. The origin and geophysical implications of a weak C-type olivine fabric in the Xugou ultra-high pressure garnet peridotite.Earth and Planetary Science Letters, 376: 63-73.

15.Zhang J.F., Wang, C., Wang, Y.F.,2012. Experimental constraints on the destruction mechanism of the North China Craton.Lithos, 149: 91-99.

16.Wang, Y.F., Zhang, J.F., Jin, Z.M., Green, H.W., 2012. Mafic granulite rheology: implications for a weak continental lower crust.Earth and Planetary Science Letters, 353-354: 99-107.

17.Wang, Y.F., Zhang, J.F., Jin, Z.M., Kohlstedt, D.L., 2012.Low oxygen fugacity dependency for the deformation of partially molten lherzolite.Tectonophysics, 580: 114-123.

18.Zhao, S., Jin, Z., Zhang, J., Xu, H., Xia, G., Green, H.W., 2012. Does subducting lithosphere weaken as it enters the lower mantle?Geophysical Research Letters, 39, L10311, doi:10.1029/2012GL051666.

19.Xu, H.J., Ma, C.Q., Zhang, J.F., Ye, K., 2012. Early Cretaceous low-Mg adakitic granites from the Dabie orogen, eastern China: petrogenesis and implications for destruction of the over-thickened lower continental crust.Gondwana Research, 23: 190-207.

20.Xu, H.J., Ma, C.Q., Zhang J.F., 2012. Generation of Early Cretaceous high-Mg adakitic host and enclaves by magma mixing, Dabie orogen, Eastern China.Lithos, 142-143: 182-200.

21.Xu, H., Ma, C.Q., Song, Y., Zhang, J., Ye, K., 2012. Early Cretaceous intermediate-mafic dykes in the Dabie orogen, eastern China: petrogenesis and implications for crust-mantle interaction.Lithos, 154: 83-99.

22.Xu, H., Song, Y., Ye, K., Zhang, J., Wang, H., 2012. Petrogenesis of mafic dykes and high-Mg adakitic enclaves in the Late Mesozoic Fangshan low-Mg adakitic pluton, North China Craton,Journal of Asian Earth Sciences, 54-55: 143-161.

23.Xu, H., Ye, K., Zhang, J.F., 2012. Temperature of prograde metamorphism, decompressional partial melting and subsequent melt fractional crystallization in the Weihai migmatitic gneisses, Sulu UHP terrane: constraints from Ti-in-zircon thermometer.Journal of Earth Science, 23(6): 813-827.

24.Liu, Q., Wu, Y., Zhang, J.F., 2011. Experimental investigation on low-degree dehydration partial melting of biotite gneiss and phengite-bearing eclogite at 2 GPa. Journal of Earth Science, 22: 677-687.

25.Zhang, J.F., Xu H., Liu Q., Green H.W., Dobrzhinetskaya, L.F., 2011. Pyroxene exsolution topotaxy in majoritic garnet from 250-300 km depth.Journal of Metamorphic Geology, 29: 741-751.

26.Zhang J, Prakapenka V, Kubo A, Kavner A, Green H W, Dobrzhinetskaya L F. 2011. Diamond nucleation from amorphous carbon and graphite in presence of COH fluids: in situ diamond anvil cell experiments. In “UHPM: 25 year after discovery of coesite and diamond (eds. Dobrzhinetskaya et al.)”, Elsevier, doi: 10.1016/B978-0-12-385144-4.00003-5., pp. 134-124.

27.Shi, F., Wang, Y., Xu, H., Zhang, J.F., 2010. Effects of lattice preferred orientation and retrogression on seismic properties of eclogite.Journal of Earth Science, 21: 569-580.

28.Wang, C., Jin, Z.M., Gao, S., Zhang, J.F., et al. 2010.Eclogite-melt/peridotite reaction: Experimental constrains on the destruction mechanism of the North China Craton. Sci China Earth Sci, doi: 10.1007/s11430-010-0084-1.

29.Gao, S., Zhang, J.F., Xu, W.L., Liu, Y.S., 2009. Delamination and destruction of the North China Craton.Chinese Sci Bull, 54: 3367-3378.

30.Liu, Q., Jin, Z.M., Zhang, J.F., 2009.An experimental study of dehydration melting of phengite-bearing eclogite at 1.5-3.0 GPa.Chinese Sci Bull, 54: 2090-2100.

31.Liu, L.,Yang, J.X., Zhang, J.F., Chen, D.L., Wang, C., Yang, W.Q., 2009.Exsolution microstructures in ultrahigh-pressure rocks: Progress, controversies and challenges.Chinese Sci Bull, 54: 1983-1995.

32.Zhang, J., Wang, Y., Jin, Z. 2008. CPO-induced seismic anisotropy in UHP eclogites.Sci China Ser D-Earth Sci, 51: 11-21.

33.Zhang, J., Green, H., 2007. On the deformation of eclogite: from laboratory to nature.International Geology Review,49: 487-503.

34.Zhang, J., Green, H. 2007. Experimental investigation of eclogite rheology and fabrics at high pressure.Journal of Metamorphic Geology,25: 97-115.

35.Liu, L.,Zhang, J.,Green H.W., Jin, Z., Bozhilov, K. N. 2007. Evidence of former stishovite in metamorphosed sediments, implying subduction to >350 km.Earth and Planetary Science Letters, 263: 180-191.

36.Yang, J., Dobrzhinetskaya, L., Bai, W., Fang, Q., Robinson, P. T.*, Zhang, J., Green, H. W. 2007. Diamond- and coesite-bearing chromiitites from the Luobusa ophiolite, Tibet.Geology, 35: 875-878.

37.Zhang, J., Green, H., Bozhilov, K. 2006. Rheology of omphacite at high temperature and pressure and significance of its lattice preferred orientation.Earth and Planetary Science Letters,246: 432-443.

38.Dobrzhinetskaya, L., Liu, Z., Cartigny, P., Zhang, J.,Tchkhetia, D., Hemley, R. J.,Green, H. W. II 2006.Synchrotron infrared and Raman spectroscopy of microdiamonds from Erzgebirge, Germany.Earth and Planetary Science Letters248: 340-349.

39.Zhang, J., Jin, Z., Green, H. W. II. 2005. Hydroxyl induced eclogite fabric and deformation mechanism.Chinese Science Bulletin, 50: 685-690.

40.Zhang, J, Green, H W, Bozilov, K, Jin, Z. 2004. Faulting induced by precipitation of water at grain boundaries in hot subducting oceanic crust.Nature, 428: 633-636.

41.Luo, H., Zhang, J., Yan, Y. 2003. Electrochemical deposition of mesoporous crystalline oxide semiconductor films from lyotropic liquid crystalline phases.Chemistry of Materials,15: 3769-3773.

42.Jin, Z., Zhang, J., Green, H W, Jin, S. 2002. Rheological properties of deep subducted oceanic lithosphere and their geodynamic implications.Science in China (Series D), 45: 969-977.

43.Jin, Z, Zhang, J, Jin, S & Green, H W II. 2001. Eclogite rheology: implications for deep subduction.Geology,29: 667-670.

44.Zhang, J., Jin, Z., Green, H. W., Jin, S. 2001. Hydroxyl in continental deep subduction zone: evidence from UHP eclogites of the Dabie Mountains.Chinese Science Bulletin, 46: 592-596.