鄭旺,天津大學地球系統科學學院教授,博士生導師,無黨派人士。2004年本科畢業於中國科學技術大學,2010年博士畢業於加拿大特倫特大學,先後在美國橡樹嶺國家實驗室、加拿大多倫多大學和美國亞利桑那州立大學擔任博士後和助理研究員。2018年全職回國,入選天津大學“北洋學者”英才計畫長聘教授;2021年入選國家級“四青”人才。獲加拿大國家自然科學與工程研究委員會全額博士後獎學金、侯德封礦物岩石地球化學青年科學家獎、及國際地球化學協會新銳科學家獎(全球第二位獲獎者)。擔任Springer旗下國際環境科學期刊《Bulletin of Environmental Contamination and Toxicology》編委。
基本介紹
人物經歷,教育經歷,工作經歷,社會任職,研究方向,授課信息,研究成果,
人物經歷
教育經歷
- · 2005.1 - 2010.5 加拿大特倫特大學 - 博士
- · 2000.9 - 2004.7 中國科學技術大學 - 學士
工作經歷
- · 2018.11- 至今 天津大學地球系統科學學院 → 教授
- · 2015.12 - 2018.10 美國亞利桑那州立大學 → Research Scientist
- · 2012.6 - 2015.12 加拿大多倫多大學 → 博士後
- · 2010.4 - 2012.6 美國橡樹嶺國家實驗室 → 博士後
社會任職
2021.11-至今,《Bulletin of Environmental Contamination and Toxicology》編委
研究方向
金屬同位素分餾機理及環境套用;
汞的生物地球化學循環;
地球環境和生命協同演化過程的重建;
新同位素體系和分析方法的開發
授課信息
地理學概論
宜居地球
高等自然地理
研究成果
[1]Gao, X.; Yuan, W.; Chen, J.; Huang, F.; Wang, Z.; Gong, Y.; Zhang, Y.; Liu, Y.; Zhang, T.; Zheng, W.(鄭旺)* Tracing the Source and Transport of Hg during Pedogenesis in Strongly Weathered Tropical Soil Using Hg Isotopes. Geochimica et Cosmochimica Acta 2023
[2]Gao, Z.; Zheng, W.(鄭旺); Li, Y.; Liu, Y.; Wu, M.; Li, S.; Li, P.; Liu, G.; Fu, X.; Wang, S.; Wang, F.; Cai, Y.; Feng, X.; Gu, B.; Zhong, H.; Yin, Y. Mercury Transformation Processes in Nature: Critical Knowledge Gaps and Perspectives for Moving Forward. Journal of Environmental Sciences 2022
[3]Zhang, K.; Zheng, W.(鄭旺); Sun, R.; He, S.; Shuai, W.; Fan, X.; Yuan, S.; Fu, P.; Deng, J.; Li, X.; Wang, S.; Chen, J. Stable Isotopes Reveal Photoreduction of Particle-Bound Mercury Driven by Water-Soluble Organic Carbon during Severe Haze. Environ. Sci. Technol. 2022
[4]Shi, M.; Bergquist, B. A.; Zhou, A.; Zhao, Y.; Sun, R.; Chen, J.; Zheng, W.(鄭旺)* The Efficiency of Hg Cold Vapor Generation and Its Influence on Hg Isotope Analysis by MC-ICP-MS. J. Anal. At. Spectrom. 2023
[5]Sun, R.; Liu, Y.; Sonke, J. E.; Feifei, Z.; Zhao, Y.; Zhang, Y.; Chen, J.; Liu, C.-Q.; Shen, S.; Anbar, A. D.; Zheng, W.(鄭旺)* Mercury Isotope Evidence for Marine Photic Zone Euxinia across the End-Permian Mass Extinction. Commun Earth Environ 2023
[6]Zheng, W.(鄭旺); Gilleaudeau, G. J.*; Algeo, T. J.; Zhao, Y.; Song, Y.; Zhang, Y.; Sahoo, S. K.; Anbar, A. D.; Carmichael, S. K.; Xie, S.; Liu, C.-Q.; Chen, J.* Mercury Isotope Evidence for Recurrent Photic-Zone Euxinia Triggered by Enhanced Terrestrial Nutrient Inputs during the Late Devonian Mass Extinction. Earth Planet. Sci. Lett. 2023
[7]Zheng, W.(鄭旺); Zhou, A.; Sahoo, S. K.*; Nolan, M. R.; Ostrander, C. M.; Sun, R.; Anbar, A. D.; Xiao, S.; Chen, J.* Recurrent Photic Zone Euxinia Limited Ocean Oxygenation and Animal Evolution during the Ediacaran. Nat Commun 2023
[8]Liu, H.; Zheng, W.(鄭旺)*; Bergquist, B. A.; Gao, Y.; Yue, F.; Yang, L.; Sun, L.; Xie, Z.* A 1500-Year Record of Mercury Isotopes in Seal Feces Documents Sea Ice Changes in the Antarctic. Commun Earth Environ 2023
[9]鄭旺; 周岸文; 孫若愚; 陳玖斌*. 沉積岩汞同位素的古環境指示意義. 科學通報 2023
[10]張元明; 鄭旺*; 袁聖柳; 張可; 何晟; 陳玖斌. 基於分步熱解技術的沉積岩形態汞同位素分析方法. 地球與環境 2022
[11]AuYang, D.; Chen, J.; Zheng, W.(鄭旺); Lang, Y.; Wang, Y.; Wang, Z.; Zhang, Y.; Liu, Y.; Zhang, K.; Cai, H.; Yuan, W.; Widory, D. Seasonal Variations of the Mercury Multiple Isotopic Compositions of Subrural and Urban Aerosols Highlight an Additional Atmospheric Hg0 Oxidation Pathway. Front. Environ. Sci. 2022
[12]AuYang, D.; Chen, J.*; Zheng, W.(鄭旺); Zhang, Y.; Shi, G.; Sonke, J. E.; Cartigny, P.; Cai, H.; Yuan, W.; Liu, L.; Gai, P.; Liu, C. South-Hemispheric Marine Aerosol Hg and S Isotope Compositions Reveal Different Oxidation Pathways. Natl Sci Open 2022
[13]Zhang, T.; Sun, R.; Liu, Y.; Chen, L.; Zheng, W.(鄭旺); Liu, C.-Q.; Chen, J. Copper and Zinc Isotope Signatures in Scleratinian Corals: Implications for Cu and Zn Cycling in Modern and Ancient Ocean. Geochimica et Cosmochimica Acta 2021
[14]Liu, Y.; Chen, J.; Liu, J.; Gai, P.; Au Yang, D.; Zheng, W.(鄭旺); Li, Y.; Li, D.; Cai, H.; Yuan, W.; Li, Y. Coprecipitation of Mercury from Natural Iodine-Containing Seawater for Accurate Isotope Measurement. Anal. Chem. 2021.
[15]Zhang, H.; Zhang, F.; Chen, J.; Erwin, D. H.; Syverson, D. D.; Ni, P.; Rampino, M.; Chi, Z.; Cai, Y.; Xiang, L.; Li, W.; Liu, S.-A.; Wang, R.; Wang, X.; Feng, Z.; Li, H.; Zhang, T.; Cai, H.; Zheng, W.(鄭旺); Cui, Y.; Zhu, X.; Hou, Z.; Wu, F.; Xu, Y.; Planavsky, N.; Shen, S. Felsic Volcanism as a Factor Driving the End-Permian Mass Extinction. Sci. Adv. 2021, 7 (47), eabh1390.
[16]Ostrander, C. M.; Severmann, S.; Gordon, G. W.; Kendall, B.; Lyons, T. W.; Zheng, W.(鄭旺); Roy, M.; Anbar, A. D. Significance of 56Fe Depletions in Late-Archean Shales and Pyrite. Geochimica et Cosmochimica Acta 2021.
[17]Zheng, W.(鄭旺); Chandan, P.; Steffen, A.; Stupple, G.; De Vera, J.; Mitchell, C. P. J.; Wania, F.; Bergquist, B. A. Mercury Stable Isotopes Reveal the Sources and Transformations of Atmospheric Hg in the High Arctic. Applied Geochemistry 2021, 131, 105002. 2021.105002.
[18]Chen, X.; Romaniello, S. J.; McCormick, M.; Sherry, A.; Havig, J. R.; Zheng, W.(鄭旺); Anbar, A. D. Anoxic Depositional Overprinting of 238U/235U in Calcite: When Do Carbonates Tell Black Shale Tales? Geology 2021.
[19]Kang, J.-T.; Qi, Y.-H.; Li, K.; Bai, J.-H.; Yu, H.-M.; Zheng, W.(鄭旺); Zhang, Z.-F.; Huang, F. Calcium Isotope Compositions of Arc Magmas: Implications for Ca and Carbonate Recycling in Subduction Zones. Geochimica et Cosmochimica Acta 2021, 306, 1–19.
[20]鄭旺; 趙亞秋; 孫若愚; 陳玖斌. 汞的穩定同位素分餾機理. 礦物岩石地球化學通報 2021, 1–24.
[21]Wang, Q.; Zhang, L.; Liang, X.; Yin, X.; Zhang, Y.; Zheng, W.*(鄭旺); Pierce, E. M.; Gu, B.* Rates and Dynamics of Mercury Isotope Exchange between Dissolved Elemental Hg(0) and Hg(II) Bound to Organic and Inorganic Ligands. Environ. Sci. Technol. 2020, acs.est.0c06229. https://doi.org/10.1021/acs.est.0c06229.
[22]Cao, L.; Zheng, J.; Zhou, Z.; Bu, W.; Wang, Z.; Zheng, W.(鄭旺); Yamada, M. Distribution and Behavior of Plutonium Isotopes in Western Pacific Marginal Seas. CATENA 2020, 105023.
[23]Lu, X.; Dahl, T. W.; Zheng, W.(鄭旺); Wang, S.; Kendall, B. Estimating Ancient Seawater Isotope Compositions and Global Ocean Redox Conditions by Coupling the Molybdenum and Uranium Isotope Systems of Euxinic Organic-Rich Mudrocks. Geochimica et Cosmochimica Acta 2020.
[24]Sun, R.; Yuan, J.; Sonke, J. E.; Zhang, Y.; Zhang, T.; Zheng, W. (鄭旺); Chen, S.; Meng, M.; Chen, J.; Liu, Y.; Peng, X.; Liu, C. Methylmercury Produced in Upper Oceans Accumulates in Deep Mariana Trench Fauna. Nature Communications 2020, 11 (1), 3389.
[25]Chen, X.; Zheng, W.(鄭旺); Anbar, A. D. Uranium Isotope Fractionation (238U/235U) during U(VI) Uptake by Freshwater Plankton. Environ. Sci. Technol. 2020, 54 (5), 2744–2752.
[26]Li, C.; Chen, J.; Angot, H.; Zheng, W.(鄭旺); Shi, G.; Ding, M.; Du, Z.; Zhang, Q.; Ma, X.; Kang, S.; Xiao, C.; Ren, J.; Qin, D. Seasonal Variation of Mercury and Its Isotopes in Atmospheric Particles at the Coastal Zhongshan Station, Eastern Antarctica. Environ. Sci. Technol. 2020, 54 (18), 11344–11355.
[27]Zhang, Y.; Chen, J.; Zheng, W.(鄭旺); Sun, R.; Yuan, S.; Cai, H.; Yang, D. A.; Yuan, W.; Meng, M.; Wang, Z.; Liu, Y.; Liu, J. Mercury Isotope Compositions in Large Anthropogenically Impacted Pearl River, South China. Ecotoxicology and Environmental Safety 2020, 191, 110229.
[28]Kendall, B.; Wang, J.; Zheng, W.(鄭旺); Romaniello, S. J.; Over, D. J.; Bennett, Y.; Xing, L.; Kunert, A.; Boyes, C.; Liu, J. Inverse Correlation between the Molybdenum and Uranium Isotope Compositions of Upper Devonian Black Shales Caused by Changes in Local Depositional Conditions Rather than Global Ocean Redox Variations. Geochimica et Cosmochimica Acta 2020, 287, 141–164.
[29]Ostrander, C. M.; Kendall, B.; Olson, S. L.; Lyons, T. W.; Gordon, G. W.; Romaniello, S. J.; Zheng, W.(鄭旺); Reinhard, C. T.; Roy, M.; Anbar, A. D. An Expanded Shale Δ98Mo Record Permits Recurrent Shallow Marine Oxygenation during the Neoarchean. Chemical Geology 2020, 532, 119391.
[30]Gilleaudeau, G. J.; Romaniello, S. J.; Luo, G.; Kaufman, A. J.; Zhang, F.; Klaebe, R. M.; Kah, L. C.; Azmy, K.; Bartley, J. K.; Zheng, W.(鄭旺); Knoll, A. H.; Anbar, A. D. Uranium Isotope Evidence for Limited Euxinia in Mid-Proterozoic Oceans. Earth and Planetary Science Letters 2019, 521, 150–157.
[31]Zheng, W.(鄭旺); Demers, J. D.; Lu, X.; Bergquist, B. A.; Anbar, A. D.; Blum, J. D.; Gu, B. Mercury Stable Isotope Fractionation during Abiotic Dark Oxidation in the Presence of Thiols and Natural Organic Matter. Environ. Sci. Technol. 2019, 53 (4), 1853–1862.
[32]Ionov, D. A.; Qi, Y.-H.; Kang, J.-T.; Golovin, A. V.; Oleinikov, O. B.; Zheng, W.(鄭旺); Anbar, A. D.; Zhang, Z.-F.; Huang, F. Calcium Isotopic Signatures of Carbonatite and Silicate Metasomatism, Melt Percolation and Crustal Recycling in the Lithospheric Mantle. Geochimica et Cosmochimica Acta 2019, 248, 1–13.
[33]Zheng, W.(鄭旺); Gilleaudeau, G. J.; Kah, L. C.; Anbar, A. D. Mercury Isotope Signatures Record Photic Zone Euxinia in the Mesoproterozoic Ocean. Proc Natl Acad Sci USA 2018, 115 (42), 10594–10599.
[34]Demers, J. D.; Blum, J. D.; Brooks, S. C.; Donovan, P. M.; Riscassi, A. L.; Miller, C. L.; Zheng, W.(鄭旺); Gu, B. Hg Isotopes Reveal In-Stream Processing and Legacy Inputs in East Fork Poplar Creek, Oak Ridge, Tennessee, USA. Environ. Sci.: Processes Impacts 2018, 20 (4), 686–707.
[35]Bu, W.; Ni, Y.; Steinhauser, G.; Zheng, W.(鄭旺); Zheng, J.; Furuta, N. The Role of Mass Spectrometry in Radioactive Contamination Assessment after the Fukushima Nuclear Accident. J. Anal. At. Spectrom. 2018, 33 (4), 519–546.
[36]Yang, S.; Kendall, B.; Lu, X.; Zhang, F.; Zheng, W.(鄭旺) Uranium Isotope Compositions of Mid-Proterozoic Black Shales: Evidence for an Episode of Increased Ocean Oxygenation at 1.36 Ga and Evaluation of the Effect of Post-Depositional Hydrothermal Fluid Flow. Precambrian Research 2017, 298, 187–201.
[37]Yin, R.; Krabbenhoft, D. P.; Bergquist, B. A.; Zheng, W.(鄭旺); Lepak, R. F.; Hurley, J. P. Effects of Mercury and Thallium Concentrations on High Precision Determination of Mercury Isotopic Composition by Neptune Plus Multiple Collector Inductively Coupled Plasma Mass Spectrometry. J. Anal. At. Spectrom. 2016, 31 (10), 2060–2068.
[38]Zheng, W.(鄭旺); Obrist, D.; Weis, D.; Bergquist, B. A. Mercury Isotope Compositions across North American Forests. Global Biogeochem. Cycles 2016, 30 (10), 1475–1492.
[39]Chen, J.; Hintelmann, H.; Zheng, W.(鄭旺); Feng, X.; Cai, H.; Wang, Z.; Yuan, S.; Wang, Z. Isotopic Evidence for Distinct Sources of Mercury in Lake Waters and Sediments. Chemical Geology 2016, 426, 33–44.
[40]Zheng, W.(鄭旺); Xie, Z.; Bergquist, B. A. Mercury Stable Isotopes in Ornithogenic Deposits As Tracers of Historical Cycling of Mercury in Ross Sea, Antarctica. Environ. Sci. Technol. 2015, 49 (13), 7623–7632.
[41]Zheng, W.(鄭旺); Lin, H.; Mann, B. F.; Liang, L.; Gu, B. Oxidation of Dissolved Elemental Mercury by Thiol Compounds under Anoxic Conditions. Environ. Sci. Technol. 2013, 47 (22), 12827–12834.
[42]Hu, H.; Lin, H.; Zheng, W.(鄭旺); Rao, B.; Feng, X.; Liang, L.; Elias, D. A.; Gu, B. Mercury Reduction and Cell-Surface Adsorption by Geobacter Sulfurreducens PCA. Environ. Sci. Technol. 2013, 47 (19), 10922–10930.
[43]Hu, H.; Lin, H.; Zheng, W.(鄭旺); Tomanicek, S. J.; Johs, A.; Feng, X.; Elias, D. A.; Liang, L.; Gu, B. Oxidation and Methylation of Dissolved Elemental Mercury by Anaerobic Bacteria. Nature Geosci 2013, 6 (9), 751–754.
[44]Zheng, W.(鄭旺); Lin, H.; Mann, B. F.; Liang, L.; Gu, B. Oxidation of Dissolved Elemental Mercury by Thiol Compounds under Anoxic Conditions. Environ. Sci. Technol. 2013, 47 (22), 12827–12834.
[45]He, F.; Zheng, W.(鄭旺); Liang, L.; Gu, B. Mercury Photolytic Transformation Affected by Low-Molecular-Weight Natural Organics in Water. Science of The Total Environment 2012, 416, 429–435.
[46]Schaefer, J. K.; Rocks, S. S.; Zheng, W.(鄭旺); Liang, L.; Gu, B.; Morel, F. M. M. Active Transport, Substrate Specificity, and Methylation of Hg(II) in Anaerobic Bacteria. Proceedings of the National Academy of Sciences 2011, 108 (21), 8714–8719.
[47]Zheng, W.(鄭旺); Hintelmann, H. Nuclear Field Shift Effect in Isotope Fractionation of Mercury during Abiotic Reduction in the Absence of Light. J. Phys. Chem. A 2010, 114 (12), 4238–4245.
[48]Zheng, W.(鄭旺); Hintelmann, H. Isotope Fractionation of Mercury during Its Photochemical Reduction by Low-Molecular-Weight Organic Compounds. J. Phys. Chem. A 2010, 114 (12), 4246–4253.
[49]Zheng, W.(鄭旺); Hintelmann, H. Mercury Isotope Fractionation during Photoreduction in Natural Water Is Controlled by Its Hg/DOC Ratio. Geochimica et Cosmochimica Acta 2009, 73 (22), 6704–6715.
[50]Gantner, N.; Hintelmann, H.; Zheng, W.(鄭旺); Muir, D. C. Variations in Stable Isotope Fractionation of Hg in Food Webs of Arctic Lakes. Environ. Sci. Technol. 2009, 43 (24), 9148–9154.
[51]Zheng, W.(鄭旺); Foucher, D.; Hintelmann, H. Mercury Isotope Fractionation during Volatilization of Hg(0) from Solution into the Gas Phase. J. Anal. At. Spectrom. 2007, 22 (9), 1097.
