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陈玖斌 职务:副院长
性别：男
职称:教授
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教育经历
· 2004.9 - 2008.7 法国巴黎地球物理学院、巴黎七大 -博士
· 2003.9 - 2004.7 法国巴黎地球物理学院、巴黎七大 -硕士
· 1990.9 - 1994.7 长春地质学院（吉林大学） -学士


工作经历
· 2018.7- 至今 地球系统科学学院→天津大学 →教授
· 2010.10 - 2018.5 中国科学院地球化学研究所 →研究员
· 2008.9 - 2009.10 加拿大川特大学 →博士后
· 2008.9 - 2008.12 法国巴黎地球物理学院 →助理研究员
· 2007.10 - 2008.8 法国巴黎地球物理学院 →讲师


研究方向
· 1. 金属（非传统）稳定同位素（Hg、Ba、Zn、Ga、Cu、Fe、Mg、B、Sb等）环境地球化学，包括水环境（河流、湖泊、海洋）、气溶胶及大气降水、古环境、人类活动干扰

· 2. 新的生物地球化学示踪剂的开发


授课信息
· 同位素地球化学






个人简介 陈玖斌，籍贯内蒙古赤峰，讲席教授，博士生导师。
主要从事金属（非传统）稳定同位素环境地球化学研究。注重开展从方法建立、野外观测到理论发展再到前沿问 题解决的系统性研究工作，建立了锌、汞、镓、锑等同位素分析方法，在沉淀、吸附等环境过程金属同位素分馏机制和河流、湖泊、大气、冰川等环境金属同位素应用研究方面取得了一些原创性成果。
任科学技术部“十三五”国家重点研发计划“大气污染成因与控制技术研究”重点专项总体专家组成员，生态环境部环境损害鉴定评估专家委员会委员，中-法联合景观动力学实验室（LIA-Saladyn）中方负责人，国家重点研发计划“场地土壤污染成因与治理技术”重点专项“重点行业场地土壤复合污染过程及生态效应”项目首席科学家。《Applied Geochemistry》副主编。


学术成果
论文成果
[1]J.-B. Chen*, J. Gaillardet and P. Louvat, （2008） Zn isotopes in the Seine River water, France: a probe of anthropogenic contamination, Environmental Science & Technology, 42, 6494-6501.

[2]J.-B. Chen*, P. Louvat, J. Gaillardet and J-L. Birck,（2009）Direct separation of Zn from dilute natural waters for isotope composition measurement using multi-collector ICP-MS, Chemical Geology, 259, 120-130.

[3] J.-B. Chen*, J. Gaillardet, P. Louvat, and S. Huon,（2009）Zn isotopes in suspended load of the Seine River, France: isotopic variations and source determinations, Geochemica et Cosmochemica Acta, 73, 4060-4076

[4] J.-B. Chen*, H. Hintelmann, and B. Dimock,（2010）Chromatographic pre-concentration of Hg from dilute aqueous solutions for isotopic measurement by MC-ICP-MS, Journal of Analytical Atomic Spectrometry, 25, 1402-1409

[5] J.-B. Chen*, H. Hintelmann, X.B. Feng, B. Dimock, （2012）Unusual fractionation of both odd and even Hg isotopes in precipitation from Peterborough, ON. Canada. Geochemica et Cosmochemica Acta, 90, 33-46

[6] R. S. Yin, X. B. Feng*, J. X. Wang, P. Li, J. L. Liu, Y. Zhang, J.-B. Chen, L. H. Zheng, T. D. Hu,（2013）Mercury speciation and mercury isotope fractionation during ore roasting process and their implication to source identification of downstream sediment in the Wanshan mercury mining area, SW China. Chemical Geology, 336, 72-79.

[7]R. S. Yin, X. B. Feng*, J. X. Wang, Z. D. Bao, B. Yu, J.-B. Chen,（2013）Mercury isotope variations between bioavailable mercury fractions and total mercury in mercury contaminated soil in Wanshan Mercury Mine, SW China. Chemical Geology (CG), 336, 80-86.

[8]Zdanowicz C.*, Kruemmel E., Lean D., Poulain A., Yumvihoze E., Lacelle D., J.-B. Chen and Hintelmann H.（2013）Accumulation, storage and release of atmospheric mercury in a glaciated Arctic catchment, Baffin Island, Canada. Geochemica et Cosmochemica Acta, 107, 316-335.

[9]J.-B. Chen*, J. Bouchez, J. Gaillardet, P. Louvat, (2014) Behaviors of major and trace elements during single flood event in the Seine River, France. Procedia Earth and Planetary Science, 10, 343-348.

[10]R. S. Yin, X. B. Feng*, J.-B. Chen,（2014）Mercury stable isotopic compositions in coals from major coal producing fields in China and their geochemical and environmental implications, Environmental Science & Technology, 48, 5565-5574.

[11]A.N. Sial*, J.-B. Chen, L.D. Lacerda, S. Peralta, C. Gaucher, R. Frei, S. Cirilli, V.P. Ferreira, R.A. Marquillas, J.A. Barbosa, N.S. Pereira, I.K.C. Belmino, (2014) High-resolution Hg chemostratigraphy: a contribution to the distinction of chemical fingerprints of the Deccan volcanism and Cretaceous-Paleogene Boundary impact event, Palaeogeography, Palaeoclimatology, Palaeoecology, 414, 98-115.

[12]J.-B. Chen*, B. Vincent, J. Gaillardet, P. Louvat and YiNa Wang, （2014） Iron isotopes in the Seine River (France): natural versus anthropogenic sources. Geochemica et Cosmochemica Acta, 128, 128-143.

[13] J.-B. Chen*, J. Gaillardet, C. Dessert, B. Villemant, P. Louvat, O. Cridpi, J-L. Birck and YiNa Wang, （2014）Zn isotope compositions of the thermal spring waters of la Soufrière volcano, Guadeloupe Island. Geochemica et Cosmochemica Acta, 127, 67-82.

[14]J.-B. Chen*, J. Gaillardet, J. Bouchez, P. Louvat, and YiNa Wang, (2014) Anthropophile elements in river sediments: overview from the Seine River, France. Geochemistry, Geophysics, Geosystems, 15,4526－4546.

[15]C. Zdanowicz *, E. Kruemmel, D. Lean, A. Poulain, C. Kinnard, E. Yumvihoze, J.-B. Chen and H. Hintelmann, (2015) Pre-industrial and recent (1970-2010) atmospheric deposition of sulfate and mercury in snow on southern Baffin Island, Arctic Canada. Science of the total Environment, 509－510, 104 -114.

[16] S.-L. Yuan, Y.-Y. Zhang, J.-B. Chen*, S.-C. Kang, J. Zhang, X.-B. Feng, H.-M. Cai, Z.-H. Wang, Q. Huang. (2015) Large variation of mercury isotope composition during a single precipitation event at Lhasa City, Tibetan Plateau, China. Procedia Earth and Planetary Science. 13, 282-286.

[17]Z.-H. Wang, J.-B. Chen*, X.-B. Feng, H. Hintelmann, S.-L. Yuan, H.-M. Cai, Q.Huang, S.-X. Wang, F.-Y. Wang. (2015) Mass-dependent and mass-independent fractionation of mercury isotopes in precipitation from Guiyang, SW China, Comptes Rendus Geoscience. 347, 358-367.

[18] Q. Huang, Y.-L. Liu, J.-B. Chen*, X.-B. Feng, W.-L. Huang, S.-L. Yuan, H.-M. Cai and X.-W. Fu. (2015), An improved dual-stage protocol to pre-concentrate mercury from airborne particles for precise isotopic measurement. Journal of Analytical Atomic Spectrometry (JAAS). 30, 957-966.

[19]H. M. Cai, J.-B. Chen*（2016）Mass-independent fractionation of even mercury isotopes: a review. Science Bulletin, 61, 116-124

[20]H. Yan, A.-D. Schmitt*, Z. H. Liu*, S. Gangloff, H. L. Sun, J.-B. Chen, F. Chabaux (2016), Calcium isotopic fractionation during travertine deposition under different hydrodynamic conditions: examples from Baishuitai (Yunnan, SW China). Chem. Geol., 426, 60-70

[21]J.-B. Chen*, H. Hintelmann, W. Zheng, X.B. Feng, H. M. Cai, Z. H. Wang, S. L. Yuan, Z. W. Wang,（2016）Isotopic evidence for distinct sources of mercury in lake waters and sediments. Chem. Geol., 426, 33-44

[22] C.-M. Zdanowicz, E.-M. Krümmel, A.-J. Poulain, E. Yumvihoze, J.-B. Chen, M. Strok, M. Scheer, H. Hintelmann，2016，Historical variations of mercury stable isotope ratios in Arctic glacier firn and ice cores，Global Biogeochemical Cycles，30, 1324–1347.

[23]Q. Huang, J.-B. Chen*, W. Huang, P-Q. Fu, B. Guinot, X-B. Feng, L-H. Shang, Z-H. Wang, Z-W. Wang, S-L. Yuan, H-M. Cai, L-F. Wei, B. Yu，2016，Isotopic composition for source identification of mercury in atmospheric fine particles，Atmospheric Chemistry and Physics，16, 11773-11786.

[24]A.-N. Sial, J.-B. Chen, L.-D. Lacerda, R. Frei, V.-C. Tewari, M.-K. Pandit, C.-Gaucher, V.-P. Ferreira, S. Cirilli, S. Peralta, C. Korte, J.-A. Barbosa, N.-S. Pereira，2016，Mercury enrichment and Hg isotopes in Cretaceous–Paleogene boundary successions: Links to volcanism and palaeoenvironmental impacts, Cretaceous Research，66, 60-81.

[25]W. Yuan, J.-B. Chen*, J-L. Birck, Z-Y. Yin, S-L. Yuan, H-M. Cai, Z-W. Wang, Q. Huang, Z-H. Wang，2016，Precise Analysis of Gallium Isotopic Composition by MC-ICP-MS，Analytical Chemistry，88, 9606-9613.

[26]Z.-H. Wang, J.-B. Chen*, T. Zhang，2017，Cu Isotopic Composition in Surface Environments and in Biological Systems: A Critical Review，International Journal of Environmental Research and Public Health，14, 538-552.

[27]A.-N. Sial, J.-B. Chen, L.-D. Lacerda, R. Frei, V.-C. Tewari, M.-K. Pandit, C. Gaucher, V.-P. Ferreira, S. Cirilli, S. Peralta, C. Korte, J.-A. Barbosa, N.-S. Pereira，2017，Reply to comments by Sanjay K. Mukhopadhyay, Sucharita Pal, J. P. Shrivastava on the paper by Sial et al. (2016) Mercury enrichments and Hg isotopes in Cretaceous–Paleogene boundary successions: Links to volcanism and palaeoenvironmental impacts，Cretaceous Research，76, 84-88.

[28]J. Liu, S.-L Li, J.-B. Chen, J. Zhong, F.-J. Yue, Y.-C. Lang, H. Ding，2017，Temporal Transport of Major and Trace Elements in the Upper Reaches of the Xijiang River, SW China，Environmental Earth Science，76, 299-316.

[29] X.-B. Feng, J.-B. Chen, S. Albanese，2017，Toxic Metals in the Environment- Geochemical Processes and Health Implications，Journal of Geochemical Exploration，176, 1-1.

[30]D. Guinoiseau, P. Louvat, G. Paris, J.-B. Chen, B. Chetelat, V. Rocher, S. Guérin, J. Gaillardet，2018，Are Boron Isotopes a Reliable Tracer of Anthropogenic Inputs to Rivers over Time?，Science of The Total Environment，626, 1057-1068.

[31] W. Yuan, G.D. Saldi, J.-B. Chen*, Z.M. Vetuschi, J-L. Birck, Y.-J. Liu, J. Schott，2018，Gallium Isotope Fractionation During Ga Adsorption on Calcite and Goethite，Geochimica et Cosmochimica Acta，223, 350-363.

[32]V. Busigny, J.-B. Chen, P. Philippot, S. Borensztajn, F. Moynier，2018，Insight into hydrothermal and subduction processes from copper and nitrogen isotopes in oceanic metagabbros，Earth and Planetary Science Letters，498, 54-64.

[33]S.-L. Yuan, J.-B. Chen*, H.-M. Cai, W. Yuan, Z.-W. Wang, Q. Huang, Y.-J. Liu, X.-Y. Wu，2018，Sequential Samples Reveal Significant Variation of Mercury Isotope Ratios During Single Rainfall Events，Science of The Total Environment，624 133-144.

[34]Q.-Huang, J.-B. Chen*, W.-.L Huang, J.R. Reinfelder, P.-Q. Fu, S.-L.Yuan, Z.-W. Wang, W. Yuan, H.-M. Cai, H. Ren, Y.-L. Sun, L. He., 2019, Diel Variation in Mercury Stable Isotope Ratios Records Photoreduction of PM2.5-Bound Mercury. Atmosperic Chemistry and Physics, 19, 315-325.

[35] S.-L. Liu, Z.-W. Wang, Zhang, Y., Y.-L. Liu, W. Yuan, T. Zhang, Y.-J. Liu, P. Li, L. He, J.-B. Chen, 2019, Distribution and partitioning of heavy metals in large anthropogenically impacted river, the Pearl River, China. Acta Geochim, 38, 216-231.

[36]J. Shen, T.J. Algeo, J.-B. Chen, N.J. Planavsky, Q.-L. Feng, J.-X. Yu, J.-L. Liu, 2019, Mercury in marine Ordovician/Silurian boundary sections of South China is sulfide-hosted and non-volcanic in origin. Earth and Planetary Science Letters, 511, 130-140.

[37]J Shen, J.-B. Chen, T.J. Algeo, S.-L Yuan, Q.-l. Feng, J.-X. Yu, L. Zhou, B. O’Connell, N. Planavsky, 2019, Evidence for a prolonged Permian-Triassic extinction interval from global marine mercury records. Nature communications, 10, 1563.

[38]A.-N. Sial, J.-B. Chen, L.-D. Lacerda, R. Frei, J.-A. Higgins, V.-C. Tewari, C. Gaucher, V.-P. Ferreira, S. Cirilli, C. Korte, J.-A. Barbosa, N.-S. Pereira，D.-S Ramos, 2018, Chemostratigraphy Across the Cretaceous‐Paleogene (K-Pg) Boundary: Testing the Impact and Volcanism Hypotheses. Chemostratigraphy Across Major Chronological Boundaries under the aegis of the AGU Publications Committee, 12, 223-260.

[39]J. Shen, J.-X. Yu, J.-B. Chen, T.J. Algeo, G.-Z Xu, Q.-l. Feng, X. Shi, N. Planavsky, W.-C. Shu, S.-C. Xie, 2019, Mercury evidence of intense volcanic effects on land during the Permian-Triassic transition. Geology, 47.

[40]J. Shen, T.J. Algeo, N. Planavsky, J.-X. Yu, Q.-l. Feng, H.-J. Song, H.-Y. Song, H. Rowe, L. Zhou, J.-B. Chen, 2019, Mercury enrichments provide evidence of Early Triassic volcanism following the end-Permian mass extinction. Earth-Science Reviews, 195, 191-212.

[41]J.-F. Liu, J.-B. Chen*, T. Zhang, Y.-N. Wang, W. Yuan, Y.-C. Lang, C.-L. Tu, L.-Z. Liu, J.-L. Birck, 2020, Chromatographic Purification of Antimony for Accurate Isotope Analysis by MC-ICP-MS. Journal of Analytical Atomic Spectrometry, 35 (7): 1360–67.

[42]Q.-Y. Qu, G.-J. Liu, M. Henry, D. Point, J. Chmeleff, R.-Y. Sun, J.-E. Sonke*, J.-B. Chen*, 2020, Tin Stable Isotopes in Magmatic-Affected Coal Deposits: Insights in the Geochemical Behavior of Tin. Applied Geochemistry, 119: 104641.

[43]A.-N. Sial, J.-B. Chen, L.-D. Lacerda, C. Korte, J.-E. Spangenberg, J.-C. Silva-Tamayo, C. Gaucher, V.-P. Ferreira, J.-A. Barbosa, N.-S. Pereira, 2020, Globally Enhanced Hg Deposition and Hg Isotopes in Sections Straddling the Permian–Triassic Boundary: Link to Volcanism. Palaeogeography, Palaeoclimatology, Palaeoecology, 540: 109537.

[44]Y.-Y. Zhang, J.-B. Chen*, W. Zheng, R.-Y. Sun, S.-L. Yuan, H.-M. Cai, D.-A. Yang, W. Yuan, M. Meng, Z.-W. Wang, 2020, Mercury Isotope Compositions in Large Anthropogenically Impacted Pearl River, South China. Ecotoxicology and Environmental Safety, 191: 110229.

[45]J. Shen, Q.-L. Feng, T.-J. Algeo, J.-L. Liu, C.-Y. Zhou, W. Wei, J.-S. Liu, T.-R. Them, B.-C. Gill, J.-B. Chen, 2020, Sedimentary Host Phases of Mercury (Hg) and Implications for Use of Hg as a Volcanic Proxy. Earth and Planetary Science Letters, 543: 116333.

[46]R.-Y. Sun, J.-J. Yuan, J.-E. Sonke, Y.-X. Zhang, T. Zhang, W. Zheng, S. Chen, M. Meng, J.-B. Chen, Y. Liu, X.-T. Peng, C.-Q. Liu, 2020, Methylmercury Produced in Upper Oceans Accumulates in Deep Mariana Trench Fauna. Nature Communications, 11 (1): 3389.







奖励与荣誉
1. 2018.05，2018年国际地球化学学会（IAGC）Kharaka奖
2. 2017.05，2017年贵州省优秀科技工作者
3. 2017.05，2017年中组部“****”科技创新领军人才
4. 2016.09，2016年国家“****”科学基金获得者
5. 2011.06，中国科学院“引进国外杰出人才（****A类）”入选者



团队
同位素前沿科学研究中心 同位素前沿科学研究中心目前主要立足于金属稳定同位素地球化学：一方面通过完善现有的金属稳定同位素（如Hg、Cu、Zn、Fe）理论体系，拓展其在表层地球系统科学研究的应用领域；另一方面通过开发新的金属稳定同位素（如Ga、Sn、Sb）测试体系，解决表层地球系统研究面临的突出科学难题。同位素前沿科学研究中心的设立除了为表层地球系统研究的各个领域提供最基本的技术保障，还旨在同位素基本理论、测试方法和应用方面有所突破和创新。

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