刘茜

Liu Qian

发布时间:2023-02-06浏览次数:387

刘茜 / Liu Qian

职    称:

副教授



办公电话:

0532-66782931


个人邮箱:

liuqian@ouc.edu.cn


地    址:

崂山校区海洋科技大楼C212



  

  


研究领域或方向:



利用多参数化学示踪剂(例如,镭、氡同位素、碳同位素、稀土元素)研究化学海洋学过程:

l海底地下水排放对近海碳循环和海洋酸化的影响

l滨海湿地碳的横向输送及其调控过程

l水团来源和输送路径的示踪与量化

l地下河口CO2系统及痕量元素的生物地球化学过程

教育经历:


2007.9-2012.10                   厦门大学,环境与生态学院,博士

2009.2-2010.9; 2012.2-3    伍兹霍尔海洋研究所(美国),海洋化学地质化学系,联合培养博生

2004.9-2007.6                    中国海洋大学,环境科学与工程学院,硕士

2000.9-2004.6                    中国海洋大学,环境科学与工程学院,学士

工作经历:

  

2018.01-至今         中国海洋大学,海洋化学理论与工程技术教育部重点实验室,副教授

2016.09-2018.01      厦门大学,近海海洋环境科学国家重点实验室,助理研究员

2014.08-2016.09      富山大学/西北太平洋区域环境合作中心,日本,博士后

2012.11-2014.08      厦门大学,近海海洋环境科学国家重点实验室,助理研究员

学术兼职:

  

ØReview Editor: Frontiers in Marine Science   (2019-)

Ø中国海洋学会海洋化学分会青年委员(2022-

ØMember of American Geophysical Union (AGU)

ØJournal Reviewers: Progress in Oceanography;   Marine Chemistry; Global Biogeochemical Cycles; Continental Shelf Research; Journal of Environmental Radioactivity; Applied Geochemistry; Hydrological Processes; Journal of Coastal Research.

奖励与荣誉:

  

Ø2022年:中国海洋大学化学化工学院首届青年教师教学比赛一等奖

Ø2018年:中国海洋大学“青年英才工程”第三层次岗位

主持或参与的项目:

  

  

1.2023-2026,国家自然科学基金面上基金,主持

2.2020-2022,国家自然科学基金青年科学基金,主持

3.2019-2023,国家自然科学基金重大项目子课题,参与

4.2019-2021,国家自然科学基金国际(地区)合作与交流项目,参与(已结题)

5.2018-2020,海洋化学理论与工程技术教育部重点实验室自主科研基金自由探索性课题”, 主持(已结题)

6.2018-2021,中国海洋大学青年英才工程(理工科)科研启动经费,主持(已结题)

7.2016-2018,厦门大学MEL自主研究课题,参与(已结题)

8.2014-2018, 日本环境署项目,参与(已结题)

学术成果:

  

1. Cao, A., Zhang, J*., Zhang, H., Chen, Z., Cui, G., Liu, Z.,   Li, Y., Liu, Q* (2023), Dissolved rare earth elements in the Northwest Pacific: Sources, water mass tracing, and cross-shelf fluxes. Frontiers in Marine Science, 10:1135113. doi: 10.3389/fmars.2023.1135113.

2. Chen, M., Boyle, E. A., Jiang, S., Liu, Q., Zhang, J., Wang, X., & Zhou, K (2023), Dissolved lead (Pb) concentrations and Pb isotope ratios along the East China Sea and Kuroshio transect—Evidence for isopycnal transport and particle exchange. Journal of Geophysical Research: Oceans, 128, e2022JC019423. https://doi.org/10.1029/2022JC019423.   

3. Liu, S., Gao, Q., Wu, J., Xie, Y., Yang, Q., Wang, R., Zhang, J., Liu, Q (2022), Spatial distribution and influencing mechanism of CO2, N2O and CH4 in the Pearl River Estuary in summer. Science of the Total Environment, 846, 157381.

4. Che, H., Zhang, J., Liu, Q. He, M. Zhao, Z (2022), A driving factor for harmful algal blooms in the East China Sea coastal marine ecosystems — Implications of Kuroshio subsurface water invasion. Marine Pollution Bulletin, 181, 11387. https://doi.org/10.1016/j.marpolbul.2022.113871.   

5. Liu Q, Zhang J, He H, Ma L, Li H, and Matsuno T (2022), Significance of nutrients in oxygen-depleted bottom waters via various origins on the mid-outer shelf of the East China Sea during summer. Science of the Total Environment, 826, 154083.

6. Che, H., Zhang, J., Liu, Q. He, H. Zhao, Z (2022), Refining the contribution of riverine particulate release to the global marine Nd budget. Progress in Earth and Planetary Science, 9, 22. https://doi.org/10.1186/s40645-022-00479-2.   

7. Ando, Zhang., X. Lin, C. Villanoy, M. Danchenkov, J-H. Lee, H-J. He, Q. Liu, Y. Liu et al (2021), Half-century of scientific advancements since the cooperative study of the Kuroshio and adjacent regions (CSK) programme - need for a new Kuroshio research. Progress in Oceanography, 193, 102513.

8. Yan, J., Chen, N., Wang, F., Liu, Q., Wu, Z., Middelburg, J. J., Xie, Y., Guo, W., Zhang, X (2021), Interaction between oxygen consumption and carbon dioxide emission in a subtropical hypoxic reservoir, southeastern China. Journal of Geophysical Research: Biogeosciences, 126, e2020JG006133. https://doi.org/10.1029/2020JG006133.

9. Liu, Q., X. Dong, J. Chen, X. Guo, Z. Zhang, Y. Xu, N. Huang, M. Dai (2019), Diurnal to interannual variability of sea surface pCO2 and its controls in a turbid tidal-driven nearshore system in the vicinity of the East China Sea based on buoy observations. Marine Chemistry, 216, 103690.   

10. Zhang, J., Q. Liu, Q. He, and Y. Nozaki (2019), Rare Earth Elements and Their Isotopes in the Ocean, In Cochran, J. Kirk; Bokuniewicz, J. Henry; Yager, L. Patricia (eds.). Encyclopedia of Ocean Sciences, 3rd Edition, vol.[1], pp. 181-197. Oxford: Elsevier.

11. Wang, F., N. Chen, J. Yan, J. Lin, W. Guo, P. Cheng, Q. Liu, B. Huang, and Y. Tian (2019), Major processes shaping mangroves as inorganic nitrogen sources or sinks: insights from a multidisciplinary study. Journal of Geophysical Research: Biogeosciences, 124, 1194-1208.

12. Liu, Q., X. Guo, Z. Yin, K. Zhou, E. Roberts and M. Dai (2018), Carbon fluxes in China seas: an overview and perspectives. Science China Earth Sciences, 61, 1564-1582.

13. Zhang, J#., Q. Liu#, L.-L. Bai, T. Matsuno (2018), Water mass analysis and contribution estimation using heavy rare earth elements: Significance of Kuroshio intermediate water to Central East China Sea shelf water. Marine Chemistry, 204, 174-180.

14. Wang, J., Q. Liu*, J. Chen, H. Chen, H Lin, and X. Sun (2018), Total Hg flux and offshore transport via submarine groundwater discharge and coal-fired power plant in the Jiulong River estuary, China. Marine Pollution Bulletin, 127, 794-803.

15. Liu, Q., M. A. Charette, C. F. Breier, P. B. Henderson, D.C. McCorkle, W. Martin, and M. Dai (2017), Carbonate system biogeochemistry in a subterranean estuary-Waquoit Bay, USA. Geochimica et Cosmochimica Acta, 203, 422-439.

16. Liu, Q., M. A. Charette, P. B. Henderson, D.C. McCorkle, W. Martin, and M. Dai (2014), Effect of submarine groundwater discharge on the coastal ocean inorganic carbon cycle. Limnology and Oceanography, 59, 1529-1554.

17. Liu, Q., M. Dai, W. Chen, C.-A. Huh, G. Wang, Q. Li, and M. A. Charette (2012), How significant is submarine groundwater discharge and its associated dissolved inorganic carbon in a river-dominated shelf   system? Biogeosciences, 9, 1777-1795, doi: 10.5194/bg-9-1777-2012.

18. Chen, W., Q. Liu, C. -A. Huh, M. Dai, and Y. -C. Miao (2010), Signature of the Mekong River plume in the western South China Sea revealed by radium isotopes. Journal of Geophysical Research-Ocean, 115, C12002, doi: 10.1029/2010JC006460.

19. Gonneea, M., M. A. Charette, Q. Liu, J. Herrera-Silveira, and S. Morales-Ojeda (2014), Trace element geochemistry of groundwater in a karst subterranean estuary (Yucatan Peninsula, Mexico). Geochimica et Cosmochimica Acta, 132, 31-49.

20. Charette, M. A., P. B. Henderson, C. F. Breier, and Q. Liu (2013), Submarine groundwater discharge in a river-dominated Florida estuary. Marine Chemistry, 156, 3-17.

21. Wang, D., W. Xia, S. Lu, G. Wang, Q. Liu, W. S. Moore, and C.-T. Arthur Chen (2016), The nonconservative property of dissolved molybdenum in the western Taiwan Strait: Relevance of submarine groundwater discharges and biological utilization. Geochemistry, Geophysics, Geosystems, 17, 28-43, doi: 10.1002/2014GC005708.

22. Dai M., Z. Yin, F. Meng, Q. Liu, and W.-J. Cai (2012), Spatial distribution of riverine DOC inputs to the ocean. Current Opinion in Environmental Sustainability, 4, 170-178.

23. 刘茜, 郭香会, 尹志强, 周宽波, Roberts E G, 戴民汉. 2018. 中国邻近边缘海碳通量研究现状与展望. 中国科学: 地球科学, 48, doi:10.1360/N072017-00305.

24. 刘茜, 张劲(2022). 野崎义行-海洋界的门捷列夫”.//戴民汉,赵美训主编. 化学海洋学风云人物. 北京:海洋出版社. (科普丛书)

其他:

  

出海航次和野外调查:

截止到2022年,先后参加22海上科研调查(包括大洋、陆架边缘海和河口)和30野外采样(包括流域、水库、地下水)。

调查区域:西北太平洋(GEOTRACES航次,厦门大学嘉庚号)、东海及黑潮水(GEOTRACES航次,日本白凤丸)、渤海、南海、日本海、美国佛罗里达陆架、胶州湾、富山湾、珠江口、珠江流域、漳江口(红树林)、黄河口、厦门湾、九龙江、闽江水口水库、大沽河、田庄水库、日本福岛松川浦泻湖及周边河口、美国佛罗里达克卢萨哈奇河口、美国马萨诸塞州瓦库伊特湾。

课程:本科生《地球化学基础》、《无机及分析化学实验》;研究生《化学海洋学》


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