| [1] | CHEN Lian-shou, LUO Zhe-xian, LI Ying. Researchadvances on tropical cyclone landfall process [J]. Acta Meteor.Sinica, 2004, 62(5): 541-549 (in Chinese). |
| [2] | FRANK W M, RITCHIE E A. Effects of environmentalflow upon tropical cyclone structure [J]. Mon. Wea. Rev., 1999,127: 2044-2061. |
| [3] | JONES S C. The evolution of vortices in vertical shear: I:Initially barotropic vortices [J]. Quart. J. Roy. Meteor. Soc.,1995, 121:821-851. |
| [4] | DeMARIA M. The effect of vertical shear on tropicalcyclone intensity change [J]. J. Atmos. Sci., 1996, 53:2076-2087. |
| [5] | CORBOSIERO K L, MOLINARI J. The effects of verticalwind shear on the distribution of convection in tropicalcyclones [J]. Mon. Wea. Rev., 2002, 130: 2110-2122. |
| [6] | FRANK W M, RITCHIE E A. Effects of vertical windshear on hurricane intensity and structure [J]. Mon. Wea. Rev.,2001, 129: 2249-2269. |
| [7] | BLANK M L, GAMACHE J F, MARKS F D, et al. EasternPacific hurricanes Jimena of 1991 and Olivia of 1994: theeffect of vertical shear on structure and intensity [J]. Mon. Wea.Rev., 2002, 130: 2291-2312. |
| [8] | RODGERS R F, CHEN S S, TENERELLI J E, et al. Anumerical study of the impact of vertical shear on thedistribution of rainfall in hurricane Bonnie (1998) [J]. Mon.Wea. Rev., 2003, 131:1577-1599. |
| [9] | SHAPIRO L J. Asymmetric boundary layer flow under atranslating hurricane [J]. J. Atmos. Sci., 1983, 40: 1984-1998. |
| [10] | CORBOSIERO K L, MOLINARI J. The relationshipbetween storm motion, vertical wind shear, and convectiveasymmetries in tropical cyclones [J]. J. Atom. Sci., 2003, 60:366-376. |
| [11] | RODGERS E B, CHUNG S W, PIERCE H F. A satelliteobservational and numerical study of precipitationcharacteristics in western North Atlantic tropical cyclones [J]. J.Appl. Meteor., 1994, 33: 129-139. |
| [12] | BENDER M A. The effect of relative flow on theasymmetric structure of the interior of hurricanes [J]. J. Atmos.Sci., 1997, 54: 703-724. |
| [13] | CHAN J C L, LIU K S, CHING S E, et al. AsymmetricDistribution of convection associated with tropical cyclonesmaking landfall along the south China coast [J]. Mon. Wea.Rev., 2004, 132: 2410-2420. |
| [14] | LIU K S, CHAN J C L, CHENG W C, et al. Distributionof convection associated with tropical cyclones making landfallalong the south China coast [J]. Meteor. Atmos. Phys., 2007, 97:57-68. |
| [15] | LU Mei, ZOU Li, YAO Ming-ming, et al. Analysis ofasymmetrical asymmetrical structure of precipitation intyphoon areas [J]. J. Trop. Meteor., 2009, 25(1): 22-28 (inChinese). |
| [16] | YUAN Jin-nan, ZHOU Wen, HUANG Hui-jun, et al.Observational analysis of asymmetric distribution ofconvection associated with tropical cyclone Chanchu andPrapiroon making landfall along the south China Coast [J]. J.Trop. Meteor., 25(4): 385-393 (in Chinese). |
| [17] | CHAN J C L, LIANG X D. Convective asymmetriesassociated with tropical cyclone landfall. Part I: f-planesimulations [J]. J. Atmos. Sci., 2003, 60: 1560-1567. |
| [18] | LIANG Xu-dong, DUAN Yi-hong, CHEN Zhong-liang.Convection and non-symmetrical structure in landfall typhoon.[J]. Acta Meteor. Sinica, 2002, 60 (Suppl.): 26-35 (in Chinese). |
| [19] | KIMBALL S K. Structure and evolution of rainfall innumerically simulated landfalling Hurricanes [J]. Mon. Wea.Rev., 2008, 136: 3822-3847. |
| [20] | XU Liang-yan, GAO Ge. Features of typhoon in recent 50years and annual disaster assessment [J]. Meteor. Mon., 2005,31(3): 41-45 (in Chinese). |
| [21] | CHEN Y S, YAU M K. Asymmetric structures in asimulated landing Hurricane [J]. J. Atmos. Sci., 2003, 60:2294-2312. |
| [22] | LI Q Q, DUAN Y H, YU H, et al. A high-resolutionsimulation of typhoon Rananim (2004) with MM5. Part I:model verification, inner-core shear, and asymmetricconvection [J]. Mon. Wea. Rev., 2008, 136: 2488-2506. |