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Tellus A: Dynamic Meteorology and Oceanography Volume 59, 2007 - Issue 4
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Original Articles

The relative vorticity of ocean surface winds from the QuikSCAT satellite and its effects on the geneses of tropical cyclones in the South China Sea

Lei WangDepartment of Mathematics, Hong Kong University of Science and Technology,Hong Kong, China;Correspondence[email protected]
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Kai-Hon LauInstitute for the Environment, Hong Kong University of Science and Technology,Hong Kong,China;;Atmospheric, Marine and Coastal Environment Program, Hong Kong University of Science and Technology,Hong Kong,China
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Chi-Hung FungDepartment of Mathematics, Hong Kong University of Science and Technology,Hong Kong, China;
&
Jian-Ping GanDepartment of Mathematics, Hong Kong University of Science and Technology,Hong Kong, China;;Atmospheric, Marine and Coastal Environment Program, Hong Kong University of Science and Technology,Hong Kong,China
Pages 562-569 | Received 05 Dec 2006, Accepted 22 Mar 2007, Published online: 15 Dec 2016

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Yingjie Mao, Jun Sun, Congcong Guo, Yuqiu Wei, Xingzhou Wang, Shuang Yang & Chao Wu. (2019) Effects of typhoon Roke and Haitang on phytoplankton community structure in northeastern South China sea. Ecosystem Health and Sustainability 5:1, pages 144-154.
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Articles from other publishers (29)

Yafeng Yin, Yangyang Yong, Shandong Qi, Kai Yang & Yizhao Lan. (2023) Cluster Analyses of Tropical Cyclones with Genesis in the South China Sea Based on K-Means Method. Asia-Pacific Journal of Atmospheric Sciences 59:4, pages 433-446.
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Clint Eldrick R. Petilla, Leia Pauline S. Tonga, Lyndon Mark P. Olaguera & Jun Matsumoto. (2023) Changes in intensity and tracks of tropical cyclones crossing the central and southern Philippines from 1979 to 2020: an observational study. Progress in Earth and Planetary Science 10:1.
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Ganadhi Mano Kranthi, Medha Deshpande, Khadgarai Sunilkumar, Rongmie Emmanuel & Sopan Ingle. (2022) Climatology and characteristics of rapidly intensifying tropical cyclones over the North Indian Ocean. International Journal of Climatology 43:4, pages 1773-1795.
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Zheyue Shen & Shuwen Zhang. (2022) The generation mechanism of cold eddies and the related heat flux exchanges in the upper ocean during two sequential tropical cyclones. Frontiers in Marine Science 9.
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Jinwen Weng, Lei Wang, Jianzhou Luo, Baiyang Chen, Xugang Peng & Qiuying Gan. (2022) A Contrast of the Monsoon–Tropical Cyclone Relationship between the Western and Eastern North Pacific. Atmosphere 13:9, pages 1465.
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Kai‐kwong Hon & Pak Wai Chan. (2022) A decade (2011–2020) of tropical cyclone reconnaissance flights over the South China Sea. Weather 77:9, pages 308-314.
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Dongxiao WangDongxiao Wang. 2022. Ocean Circulation and Air-Sea Interaction in the South China Sea. Ocean Circulation and Air-Sea Interaction in the South China Sea 307 394 .
Yanping Shi, Yan Du, Zesheng Chen & Wen Zhou. (2019) Occurrence and impacts of tropical cyclones over the southern South China Sea. International Journal of Climatology 40:9, pages 4218-4227.
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Tsing-Chang Chen, Jenq-Dar Tsay, Jun Matsumoto & Jordan Alpert. (2017) Impact of the Summer Monsoon Westerlies on the South China Sea Tropical Cyclone Genesis in May. Weather and Forecasting 32:3, pages 925-947.
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N. Jaiswal, C. M. Kishtawal & P. K. Pal. 2017. Tropical Cyclone Activity over the North Indian Ocean. Tropical Cyclone Activity over the North Indian Ocean 213 225 .
Suman Goyal, M Mohapatra, Ashish Kumar, S K Dube, Kushagra Rajendra & P Goswami. (2016) Validation of a satellite-based cyclogenesis technique over the North Indian Ocean. Journal of Earth System Science 125:7, pages 1353-1363.
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Neeru Jaiswal, C. M. Kishtawal, Swati Bhomia & P. K. Pal. (2016) Multi-model ensemble-based probabilistic prediction of tropical cyclogenesis using TIGGE model forecasts. Meteorology and Atmospheric Physics 128:5, pages 601-611.
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Jinnan Yuan, Tim Li & Dongxiao Wang. (2014) Precursor synoptic‐scale disturbances associated with tropical cyclogenesis in the South China Sea during 2000–2011. International Journal of Climatology 35:12, pages 3454-3470.
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Lei Yang, Yan Du, Dongxiao Wang, Chunzai Wang & Xin Wang. (2014) Impact of intraseasonal oscillation on the tropical cyclone track in the South China Sea. Climate Dynamics 44:5-6, pages 1505-1519.
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Yuxing Yang, Fei Huang & Faming Wang. (2014) Variability of tropical cyclone in high frequent occurrence regions over the western North Pacific. Journal of Ocean University of China 13:3, pages 347-355.
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Lei Wang & Zhiliang Guo. (2013) Modulation of tropical cyclogenesis over the South China Sea by ENSO Modoki during boreal summer. Journal of Ocean University of China 13:2, pages 223-235.
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Neeru Jaiswal, C. M. Kishtawal & P. K. Pal. (2012) Prediction of tropical cyclogenesis in North Indian Ocean using Oceansat-2 scatterometer (OSCAT) winds. Meteorology and Atmospheric Physics 119:3-4, pages 137-149.
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Qian Huang & Yuping Guan. (2012) Does the Asian monsoon modulate tropical cyclone activity over the South China Sea?. Chinese Journal of Oceanology and Limnology 30:6, pages 960-965.
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Lei Yang, Yan Du, Shangping Xie & Dongxiao Wang. (2012) An interdecadal change of tropical cyclone activity in the South China Sea in the early 1990s. Chinese Journal of Oceanology and Limnology 30:6, pages 953-959.
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Lei Wang, Qiongwan Zhang & Weibiao Li. (2012) Diagnosis of the ENSO modulation of tropical cyclogenesis over the southern South China Sea using a genesis potential index. Acta Oceanologica Sinica 31:5, pages 54-68.
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Lei Wang & Xiumei Pan. (2012) Diagnosis of seasonal variations of tropical cyclogenesis over the South China Sea using a genesis potential index. Journal of Ocean University of China 11:3, pages 267-278.
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N. Jaiswal & C. M. Kishtawal. (2011) Prediction of Tropical Cyclogenesis Using Scatterometer Data. IEEE Transactions on Geoscience and Remote Sensing 49:12, pages 4904-4909.
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Lei Wang & Kai Hon Lau. (2011) Statistical analysis of tropical disturbances over the South China Sea during 1997–2006. Journal of Ocean University of China 10:2, pages 99-105.
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Lei Wang, Kai-Hon Lau & Chi-Hung Fung. (2010) Numerical simulation of the genesis of typhoon Durian (2001) over the South China Sea: The effect of sea surface temperature. Journal of Ocean University of China 9:2, pages 99-115.
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Andy Zung‐Ching Goh & Johnny C. L. Chan. (2009) Interannual and interdecadal variations of tropical cyclone activity in the South China Sea. International Journal of Climatology 30:6, pages 827-843.
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O. P. Singh. 2010. Natural and Anthropogenic Disasters. Natural and Anthropogenic Disasters 256 274 .
Lei Wang, Kai-Hon Lau, Chi-Hung Fung & Qinghong Zhang. (2008) Features of ocean surface winds observed by the QuikSCAT satellite before tropical cyclogenesis over the South China Sea. Journal of Ocean University of China 7:3, pages 241-245.
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Lei Wang, Kai-Hon Lau, Qing-Hong Zhang & Chi-Hung Fung. (2008) Observation of non-developing and developing tropical disturbances over the South China Sea using SSM/I satellite. Geophysical Research Letters 35:10.
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E. W. Kolstad. (2008) A QuikSCAT climatology of ocean surface winds in the Nordic seas: Identification of features and comparison with the NCEP/NCAR reanalysis. Journal of Geophysical Research 113:D11.
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