黄建

 个人简介

黄建,男,1984年1月出生于安徽省阜阳市颍上县。2007年获淮北师范大学(原淮北煤炭师范学院)化学学士学位,2013年获中国科学技术大学地球化学博士学位,2010-2011年在德国哥廷根大学联合培养。2012-至今在中国科学技术大学历任博士后、特任副研究员和副教授。主要从事金属稳定同位素(例如Mg、Fe、 Cu、Zn)和壳幔物质循环研究。在Geology、GCA、EPSL、JGR、CG、CMP、Lithos、JMG、NSR、《岩石学报》、《科学通报》和《地球科学》等国内外主流期刊上发表学术论文38篇,其中第一/通讯作者论文19篇(1篇论文入选ESI高被引论文)。作为项目负责人和科研骨干主持和参与多项国家自然科学基金。2019年入选中国科学院青年创新促进会;2019年荣获中国科学技术大学本科招生“先进个人”奖;2022年获得国家自然科学基金委优秀青年基金。

 课题&项目

6. 国家自然科学基金委优秀青年基金:“金属稳定同位素示踪壳幔物质循环”(2023-2025),负责人

5. 国家重点研发项目“深部碳、氧循环的金属稳定同位素示踪技术”第二课题“深部碳循环的金属同位素示踪技      术”第三专题“金属同位素示踪太平洋俯冲带深部碳循环的检验”(2020-2025),负责人

4. 国家自然科学基金委面上基金项目:“原始地幔的Zn同位素组成和不同类型地幔交代过程中Zn同位素的分馏行      为”(2018-2021),负责人

3. 国家自然科学基金委面上基金项目:"华北克拉通东部新生代碱性玄武岩Mg-Ca-Sr同位素组成:制约深部循环碳      酸盐组成和玄武岩成因" (2016-2019),负责人

2. 国家自然科学基金委青年基金项目:"俯冲带变质流体中Ti-Nb-Ta迁移和分异的机制:大别-苏鲁超高压榴辉岩和      变质脉研究" (2014-2016),负责人

1. 中国博士后科学基金:"华南新生代大陆玄武岩Mg同位素研究及其地质意义"(2014-2016)(已结题),负责人

 学习经历

2007/7 – 2013/1, 中国科学技术大学, 地球化学, 博士

2010/11 – 2011/11, 德国哥廷根(G?ttingen)大学, 地球化学系, 联合培养

2003/9 – 2007/7, 淮北煤炭师范学院(现淮北师范大学), 化学专业,学士

 工作经历

2020/4– 现在 , 中国科学技术大学, 地球化学, 副教授

2015/2– 2020/4, 中国科学技术大学, 地球化学, 副研究员

2012/11 – 2015/1, 中国科学技术大学, 地球化学, 博士后

 发表文章

第一/通讯作者论文(*通讯作者)

19. Huang, J*., Huang,J.-X., Griffin, W.L. and Huang, F. (2022) Zn-, Mg- and O-isotope evidence forthe origin of mantle eclogites from Roberts Victor kimberlite (Kaapvaal Craton,South Africa). Geology 50, 593-597.
19. Huang, J*., Huang, J.-X., Griffin, W.L. 和 Huang, F. (2022) 来自南非卡普瓦尔克拉通 Roberts Victor 金伯利岩地幔辉石起源的锌、镁和 O-同位素证据。地质学 50,593-597。

19. Huang, J*., Huang, J.-X., Griffin, W.L. 和 Huang, F. (2022) 来自南非卡普瓦尔克拉通 Roberts Victor 金伯利岩地幔辉石起源的锌、镁和 O-同位素证据。地质学 50,593-597。

18. Liang, W., Huang, J*., Zhang, G.and Huang, F. (2022) Iron isotopic fractionation during eclogite anatexis andadakitic melt evolution: insights into garnet effect on Fe isotopic variationsin high-silica igneous rocks. Contrib. Mineral. Petrol. 177, 33.
18. Liang, W., Huang, J*., Zhang, G. 和 Huang, F.(2022) 辉石 anatexis andadakitic 熔融演化过程中铁同位素分异:对高硅火成岩中铁同位素变化影响的见解。贡献。矿物。汽油。177, 33.

18. Liang, W., Huang, J*., Zhang, G. 和 Huang, F.(2022) 辉石 anatexis andadakitic 熔融演化过程中铁同位素分异:对高硅火成岩中铁同位素变化影响的见解。贡献。矿物。汽油。177, 33.

17. Zhang, X., Huang, J*., Gong, Y.,Zhang, L. and Huang, F. (2022) Climate influence on zinc isotope variations ina loess–paleosol sequence of the Chinese Loess Plateau. Geochim. Cosmochim.Acta. 321, 115-132.
17. 张晓、黄志、龚、张、L. 和黄(2022)中国黄土高原黄土-古土序列中锌同位素变化的气候影响。地欧奇姆。《宇宙行传》321,115-132。

17. 张晓、黄志、龚、张、L. 和黄(2022)中国黄土高原黄土-古土序列中锌同位素变化的气候影响。地欧奇姆。《宇宙行传》321,115-132。

16. Huang, J*., Guo, S., Jin, Q.-Z. and Huang, F. (2020) Iron and magnesium isotopic compositions of subduction-zone fluids and implications for arc volcanism. Geochim. Cosmochim. Acta. 278, 376-391.
16. 黄志、郭志、金志。以及 Huang, F.(2020)俯冲带流体的铁镁同位素组成及其对弧火山活动的影响。地欧奇姆。宇宙。事先。278, 376-391.

16. 黄志、郭志、金志。以及 Huang, F.(2020)俯冲带流体的铁镁同位素组成及其对弧火山活动的影响。地欧奇姆。宇宙。事先。278, 376-391.

15. Jin, Q.-Z., Huang, J*., Liu, S.-C. and Huang, F. (2020) Magnesium and zinc isotope evidence for recycled sediments and oceanic crust in the mantle sources of continental basalts from eastern China. Lithos, 105627.
15. 金启章、黄志、刘志俊。以及 Huang, F.(2020)中国东部大陆玄武岩地幔源中回收沉积物和洋壳的镁和锌同位素证据。105627 年石板画。

14. 黄建*,肖益林,黄方. (2019),蚀变洋壳和俯冲带变质流体的Fe-Mg同位素组成. 地球科学,44(12:),1-7.

13. Huang, J*., Ackerman, L., Ackerman,Zhang X.-C., Huang, Fang (2019), Mantle Zn isotopic heterogeneity caused by melt-rock reaction: Evidence from Fe-rich peridotites and pyroxenites from the Bohemian Massif, Central Europe. J. Geophys. Res.Solid Earth, 124, 3588-3604.

12.Huang, J*.,S. Chen, X. C. Zhang, and F. Huang* (2018), Effects of Melt Percolation on ZnIsotope Heterogeneity in the Mantle: Constraints From Peridotite Massifs inIvrea‐Verbano Zone, Italian Alps, J. Geophys. Res. Solid Earth, 123, 2706-2722.

11.Huang, J*.,X.-C. Zhang, S. Chen, L. Tang, G. W?rner, H. Yu, and F. Huang* (2018), Zincisotopic systematics of Kamchatka-Aleutian arc magmas controlled by mantlemelting, Geochim. Cosmochim. Acta, 238,85-101.

10.Huang, J*., F. Huang*, Z. Wang,X. Zhang, and H. Yu (2017), Copper isotope fractionation during partial meltingand melt percolation in the upper mantle: Evidence from massif peridotites inIvrea-Verbano Zone, Italian Alps, Geochim. Cosmochim. Acta., 211,48-63.

9. Huang, J*., S.-A. Liu*, Y. Gao, Y. Xiao, and S. Chen(2016), Copper and zinc isotope systematics of altered oceanic crust at IODPSite 1256 in the eastern equatorial Pacific, J. Geophys. Res.-Solid Earth, 121, 7086-7100.

8. Huang, J*., S.-A. Liu*, G. W?rner, H. Yu, and Y.Xiao (2016), Copper isotope behavior during extreme magma differentiation anddegassing: a case study on Laacher See phonolite tephra (East Eifel, Germany), Contrib.Mineral. Petrol., 171, 1-16.

7. Huang, J*., and Y. Xiao (2016), Mg-Sr isotopes oflow-δ26Mg basalts tracing recycled carbonate species: Implicationfor the initial melting depth of the carbonated mantle in Eastern China, Int.Geol. Rev., 58, 1350-1362.

6. Huang, J., S.-G. Li*, Y. Xiao*, S. Ke, W.-Y. Li,and Y. Tian (2015), Origin of low δ26Mg Cenozoic basalts from SouthChina Block and their geodynamic implications, Geochim. Cosmochim. Acta., 164,298-317.

5. Huang, J*., S. Ke*, Y. Gao, Y. Xiao, and S. Li (2015),Magnesium isotopic compositions of altered oceanic basalts and gabbros fromIODP Site 1256 at the East Pacific Rise, Lithos, 231, 53-61.

4. Huang, J*., and Y. Xiao* (2015), Element mobility inmafic and felsic ultrahigh-pressure metamorphic rocks from the Dabie UHPOrogen, China: insights into supercritical liquids in continental subductionzones, Int. Geol. Rev., 57, 1103-1129.

3. Tian, Y., Huang, J*., Hui, Y. and Xiao, Y. (2015) Veins in ultrahigh-pressureeclogites from Chizhuang in the Sulu orogen, eastern China: Evidence forsupercritical fluids in continental subduction zones. Acta Petrol. Sinica 31,1818-1840.

2. Huang, J., Y. L. Xiao*, Y. J. Gao, Z. H. Hou, andW. P. Wu (2012), Nb–Ta fractionation induced by fluid-rock interaction insubduction-zones: constraints from UHP eclogite- and vein-hosted rutile fromthe Dabie orogen, Central-Eastern China, J. Metamorph. Geol., 30,821-842.

1. 黄建, 和 肖益林* (2013), 大陆俯冲带流体活动和元素迁移: 大别-苏鲁超高压变质岩和变质脉的研究, 科学通报,58,2180-2185.


合作者论文(*通讯作者)

19. Deng, G., Jiang,D., Zhang, R., Huang, J., Zhang, X. and Huang, F. (2022) Barium isotopes revealthe role of deep                     magmatic fluids in magmatic-hydrothermal evolution and tinenrichment in granites. Earth Planet. Sci. Lett. 594,                  117724.

18. Yao, J., Huang, J. and Zhang, G.(2022) Zinc isotope constraints on carbonated mantle sources forrejuvenated-stage           lavas from Kaua?i, Hawai?i. Chem. Geol. 605, 120967.


17. Cai, R., Xu, S., A. Ionov, D., Huang, J., Liu, S.-A., Li, S. and Liu, J. (2022) Carbonated Big Mantle WedgeExtending to the NE Edge of the                    Stagnant Pacific Slab: Constraints from Late.Journal of Earth Science 31, 121-132.


16. Wang,Y., He, Y*., Wu, H., Zhu, C., Huang, S. and Huang, J. (2019) Calcium isotope fractionation duringcrustal melting                and magma differentiation: Granitoid and mineral-pairperspectives. Geochimica etCosmochimica Acta259, 37-52.

15.  He, Y*.,Meng, X., Ke, S., Wu, H., Zhu, C., Teng, F.-Z., Hoefs, J., Huang, J., Yang, W., Xu, L., Hou, Z., Ren, Z.-Y. and                     Li,  S.(2019) A nephelinitic component with unusual δ56Fe in Cenozoicbasalts from eastern China and its                            implications for deep oxygen cycle. Earth and Planetary Science Letters 512, 175-183.

14. Guo, H., Y. Xiao*, L. Xu, H. Sun, J. Huang, and Z. Hou (2017),Origin of allanite in gneiss and granite from central East China, JAsian Earth Sci., 135, 243-256.

13. Li, S.-G*., W.Yang*, S. Ke, X. Meng, H. Tian, L. Xu, Y. He, J. Huang, X.-C. Wang, Q. Xia, W. Sun, X. Yang, Z.-Y. Ren, H. Wei,Y. Liu, F. Meng, and J. Yan (2017),Deep carbon cycles constrained by a large-scale mantle Mg isotope anomaly ineastern China, National Sci. Rev., 4, 111-120.

12. Li, W.-Y*., F.-Z. Teng*, Y. Xiao, H.-O. Gu, X.-P. Zha,and J. Huang (2016), Empirical calibration of the clinopyroxene–garnet magnesiumisotope geothermometer and implications, Contrib. Mineral. Petrol., 171,1-14.

11. Li, W.-Y*., F.-Z. Teng*, Y. Xiao, and J. Huang (2011), High-temperature inter-mineral magnesium isotopefractionation in eclogite from the Dabie orogen, China, Earth Planet. Sci. Lett., 304,224-230.

10. Liu, S.-A*., Huang, J., Liu, J.G. W?rner, W. Yang, Y.-J. Tang, Y. Chen, L. Tang, J. Zheng,and S. Li (2015), Copper isotopiccomposition of the silicate Earth, Earth Planet. Sci. Lett., 427,95-103.

9. Liu, S.-A*., Z.-Z. Wang, S.-G. Li, J. Huang, and W. Yang (2016),Zinc isotope evidence for a large-scale carbonated mantle beneath easternChina, Earth Planet. Sci. Lett., 444, 169-178.

8. Wang, Z.-Z., S.-A. Liu*, J. Liu, J. Huang, Y. Xiao, Z.-Y. Chu, X.-M. Zhao, and L. Tang (2017), Zinc isotope fractionationduring mantle melting and constraints on the Zn isotope composition of Earth’supper mantle, Geochim. Cosmochim. Acta., 198, 151-167.

7. Wu, F., Y. Xiao*, L. Xu, M. Santosh, S. Li, J. Huang, Z. Hou, and F. Huang (2015), Geochronology and geochemistryof felsic xenoliths in lamprophyre dikes from the southeastern margin of theNorth China Craton: implications for the interleaving of the Dabie–Suluorogenic crust, Int. Geol. Rev., 57, 1305-1325.

6.Yu, H.-M., Y.-H. Li, Y.-J. Gao, J. Huang, and F. Huang (2018), Silicon isotopic compositions of altered oceanic crust:Implications for Si isotope heterogeneity in the mantle, Chem. Geol., 479,1-9.

5. Xiao, Y*., H. Sun, H. Gu, J. Huang, W. Li, and L. Liu (2015),Fluid/melt in continental deep subduction zones: Compositions and relatedgeochemical fractionations, Sci.China Earth Sci., 58,1457-1476.

4. Xiao, Y*., Huang, J., Liu, L. and Li, D. (2011)Rutile: An important reservoir for geochemical information. ActaPetrologica Sinica 27, 398-416.

3. 郭海浩, 肖益林*, 谷湘平, 黄建, 侯振辉, 和 刘海洋 (2014), 广东新丰稀土花岗岩中褐帘石LA-ICP-MS的U-Th-Pb定年研究, 地质学报, 88, 1025-1037.

2. 肖益林, 孙贺, 顾海欧, 黄建, 李王晔, 和 刘磊 (2015), 大陆深俯冲过程中的熔/流体成分与地球化学分异, 中国科学地球科学, 45, 1063-1087.

1. 黄方*, 陈福坤, 杨晓勇, 闫峻, 肖益林, 秦礼萍, 谢建成, 黄建, 汪方跃, 沈骥, 邓江洪,和杨一增 (2017), 古太平洋构造域的岩浆作用与成矿. 矿物岩石地球化学通报 36, 551-556.

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