俎婷婷,博士,研究员,硕士生导师。2009年于香港科技大学获博士学位,师从香港科技大学甘剑平教授;主要从事珠江冲淡水、河口环流以及南海、南海北部陆架环流动力学研究,发展了南海、南海北部陆架、珠江口环流数值模拟系统。先后主持国家自然科学基金委青年、面上基金项目3项,国家海洋局“全球变化与海气相互作用”专项1项,参与国家重点研发计划、国家自然科学基金重点项目,国家973计划项目等多项。在Climate Dynamics,Journal of Marine System, Deep Sea Research 等刊物上发表论文30篇,总引用近500次。其中发表在Deep Sea Research I 上关于南海潮汐动力的论文在发表第3年成为期刊年度最热门文章中排名第三的学术论文。
1.Zu T, Wang D, Wang Q, Li M, Wei J, Geng B, He Y, Chen J, 2020. A revisit of the interannual variation of the South China Sea upper layer circulation in summer: correlation between the eastward jet and northward branch. Climate Dynamics 54:457-471.
2.Liu, Z., T. Zu, J. Gan, 2020. Dynamics of cross-shelf water exchanges off Pearl River Estuary in summer. Progress in Oceanography, 189: 102465.
3.Wang Q., L. Zeng, Y. Shu, Q. Liu, T. Zu, Y. Li, J. Chen, Y. He, D. Wang, 2020. Interannual variability of South China Sea winter circulation: response to Luzon Strait transport and El Niño wind. Climate Dynamics 54: 1145–1159
4.Zu, T., Xue, H., Wang, D., Geng, B., Zeng, L., Liu, Q., Chen, J., He, Y., 2019. Interannual variation of the South China Sea circulation during winter:Intensified in the southern basin, Climate Dynamics 52:1917–1933.
5.杨威,董园,俎婷婷,刘长建,修鹏. 2019,南海北部夏季叶绿素a 分布规律及影响因素,热带海洋学报,38(6):9-20
6.Shu Y., Q. Wang, T. Zu, 2018. Progress on shelf and slope circulation in the northern South China Sea. Science China: Earth Sciences, 61(5): 560-571.
7.Huang C., Q. Xie, D. Wang, Y. Shu, H. Xu, J. Xiao, T. Zu, T. Long, T. Zhang, 2018. Seasonal variability of water characteristics in the Challenger Deep observed by four cruises. Sci. Rep. 8, 11791.
8.朱怀鑫,俎婷婷,李健,舒业强,陈举,王东晓. 2018,基于高频地波雷达观测的粤西近海潮流潮能分析,热带海洋学报,37(5): 25-32.
9.Zhang, Z., Chen, L., Wang, W. Li T. Zu T., 2017. The origin, historical variations, and distribution of heavy metals in the Qiongzhou Strait and nearby marine areas. J. Ocean Univ. China 16(2): 262-268.
10.姚景龙,李晗,刘钦燕,王强,肖福安,王东晓,俎婷婷。2017,南海贯穿流荷载中尺度过程能量学诊断,海洋与湖沼,48(6):1257-1268.
11.Geng W., Q. Xie, G. Chen, T. Zu, D. Wang, 2016. Numerical study on the eddy–mean flow interaction between a cyclonic eddy and Kuroshio. Journal of Oceanology, 72(5), 727–745
12.Zu, T., Gan, J.,2015. A numerical study of coupled estuary–shelf circulation around the Pearl River Estuary during summer: Responses to variable winds, tides and river discharge. Deep-Sea Res. II, 117:53-64.
13.Chen G., D. Wang, C. Dong, T. Zu, H. Xue, Y. Shu, X. Chu, Y. Qi, H. Che, 2015. Observed deep energetic eddies by seamount wake. Sci. Rep. 5, 17416.
14.Yang L., D. Wang, J. Huang, X. Wang, L. Zeng, R. Shi, Y. He, Q. Xie, S. Wang, R. Chen, J. Yuan, Q. Wang, J. Chen, T. Zu, J. Li, D. Sui, and S. Peng, 2015. Toward a Mesoscale Hydrological and Marine Meteorological Observation Network in the South China Sea. Bull. Amer. Meteor. Soc., 96, 1117–1135.
15.Zu, T., D. Wang, J. Gan, W. Guan, 2014. On the role of wind and tide in generating variability of Pearl River plume during summer in a coupled wide estuary and shelf system, Journal of Marine System, 136: 65-79.
16.Wang, D., Y. Shu, H. Xue, J. Hu, J. Chen, W. Zhuang, T. Zu, and J. Xu, 2014.Relative contributions of local wind and topography to the coastal upwelling intensity in the northern South China Sea. J. Geophys. Res.Oceans, 119, 2550–2567
17.程国胜,孙佳东,俎婷婷,陈举,王东晓。2011年夏季南海北部海区水团分析。热带海洋学报,2014年5月,第33卷,第3期:10-16.
18.Zu, T., D. Wang, C. Yan, I. Belkin, W. Zhuang and J. Chen, 2013. Evolution of an anticyclonic eddy southwest of Taiwan. Ocean Dynamics, 63: 519-531.
19.Zu, T., J. Chen, and D. Wang, 2012. Detection of the Cyclonic Eddy in the Southwest of the South China Sea: From Remote Sensing Data and Drifter Buoys, in Advances in Computational Environment Science, edited by G. Lee, Volume 142, pp. 153-159, Springer Berlin Heidelberg.
20.Zu, T. and J. Gan, 2009. Process-oriented study of the circulation and river plume in the Pearl River Estuary: Response to the wind and tidal forcing. Advances in Geosciences,Ocean Science, Published by World Scientific. ISBN #978-981-2836-16-8, 12: 213-230.
21.Zu, T., J. Gan, S.Y. Erofeeva, 2008. Numerical study of the tide and tidal dynamics in the South China Sea. Deep-Sea Research I, 55(2): 137–154.
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