| [1] | PRICE J F. Upper ocean response to a hurricane [J]. J Phys Oceanogr, 1981, 11(1): 153-175. |
| [2] | LIN I I, LINW T, WU C. New evidence for enhanced ocean primary production triggered by tropical cyclone [J]. Geophys Res Lett, 2003, 30, 1718, doi: 10.1029/2003GL017141. |
| [3] | SHANG S, LI L, SUN F. Changes of temperature and bio-optical properties in the South China Sea in response to Typhoon Lingling, 2001 [J]. Geophys Res Lett, 2008, 35, L10602, doi: 10.1029/2008GL033502. |
| [4] | ZHENG Z W, HO C R, KUO N J. Importance of pre-existing oceanic conditions to upper ocean response induced by Super Typhoon Hai-Tang [J]. Geophys Res Lett, 2008, 35, L20603, doi: 10.1029/2008GL035 524. |
| [5] | BRAND S. The effects on tropical cyclone of cooler surface waters due to upwelling and mixing produced by a prior tropical cyclone [J]. J Appl Meteorol, 1971, 15(1): 909-919. |
| [6] | BLACK P G. Ocean temperature changes induced by tropical cyclones [D]. The Pennsylvania State University, 1983: 278 pp. |
| [7] | WADA A. Numerical simulations of sea surface cooling by a mixed layer model during the passage of Typhoon Rex [J]. J Oceanogr, 2005, 61(1): 41-57. |
| [8] | YANG Xiao-xia, TANG Dan-ling. Location of sea surface temperature cooling induced by typhoon in the South China Sea [J]. J Trop Meteorol, 2010, 29(4): 26-31 (in Chinese). |
| [9] | MAHAPATRA D K, RAO A D, BABU S V, et al. Influence of coast line on Upper Ocean's response to the tropical cyclone [J]. Geophys Res, 2007, 34, L17603, doi: 10.1029/2007GL030410. |
| [10] | LIU Zheng-qi, LIU Yu-guo, HA Yao, et al. Role of equatorial Pacific Ocean subsurface oceanic temperature mode in ENSO cycle [J]. J Trop Meteorol, 2014, 20(4): 334-341. |
| [11] | KHAIN A P, GINIS I. The mutual response of a moving tropical cyclone and the ocean [J]. Beitr Phys Atmos, 1991, 64(1): 125-142. |
| [12] | YUAN J P, JIANG J. The relationships between tropical cyclone tracks and local SST over the western North Pacific [J]. J Trop Meteorol, 2011, 17(2): 120-127. |
| [13] | ZHANG Zhong-feng, LIU Qi-han, TUO Rrui-fang. Numerical study of the abnormal track of Typhoon Maggie [J]. J Trop Meteorol, 2006, 12(2): 174-178. |
| [14] | BENDER M A, GINIS I. Real-case simulations of hurricane�Cocean interaction using high-resolution coupled model: Effects on hurricane intensity [J]. Mon Wea Rev, 2000, 128: 917-946. |
| [15] | ZHU H Y, ULRICH W, SMITH R. Ocean effects on tropical cyclone intensification and inner-core asymmetries [J]. J Atmos Sci, 2004, 61: 1 245-1 258. |
| [16] | WU L, WANG B, BRAUN S A. Impacts of air-sea interaction on tropical cyclone track and intensity [J]. Mon Wea Rev, 2005, 133, 3 299-3 314. dio: 10.1175/MWR3030.1 |
| [17] | RICHARD W R, SMITH T M, LIU C Y, et al. Daily High-Resolution Blended Analyses for Sea Surface Temperature [EB/OL]. 2007. ftp://eclipse.ncdc.noaa.gov/pub/OI-daily/ daily-sst.pdf |
| [18] | BLANC F C, SCHGOUNN et al. Merged Topex/Poseidon Products [EB/OL].1996. http://www.aviso.oceanobs.com |
| [19] | SHIE C L. Reprocessing and Goddard Satellite-based Surface Turbulent Fluxes (GSSTF) Data Set for Global Water and Energy Cycle Research [EB/OL]. 2009. http://www.ncdc.noaa.gov/sites/default/files/attachments/Reynolds2009_oisst_daily_v02r00_version2-features.pdf |
| [20] | HWANG C, WU C R, KAO R. TOPEX/Poseidon observations of mesoscale eddies over the subtropical countercurrent: kinematic characteristics of all anticyclonic eddies and of a cyclonic eddy [J]. J Geophy Res, 2004, 109(17): 1-17. |
| [21] | ANTHES R A, CHANG S W. Response of the hurricane boundary layer to changes of sea surface temperature in a numerical model [J]. J Atmos Sci, 1978, 35(1): 1 240-1 255. |
| [22] | LIU Xiang, JIANG Guo-rong, ZHUO Hai-feng. Numerical experiment for the impact of SST to typhoon “Chanchu” [J]. Mar Fore, 2009, 3(1): 1-11. |