| [1] | GAO S T, PING F, Li X, et al. A convective vorticity vectorassociated with tropical convection: A two dimensionalcloud-resolving modeling study [J]. J. Geophys. Res., 2004,109: D14106, doi: 10.1029/2004JD004807. |
| [2] | GAO S T, LI X F, TAO W K, et al. Convective and moistvorticity vectors associated with tropical oceanic convection: Athree-dimensional cloud-resolving model simulation [J]. J.Geophys. Res., 2007, 112: D01105,doi: 10.1029/2006JD007179. |
| [3] | GAO S T, CUI X P, ZHOU Y S, et al. A modeling study ofmoist and dynamic vorticity vectors associated withtwo-dimensional tropical convection [J]. J. Geophys. Res.,2005, 110: D17104, 2005, doi: 10.1029/2004JD005675. |
| [4] | GAO S T, CUI X P, ZHOU Y S, et al. Surface rainfallprocesses as simulated in a cloud-resolving model [J]. J.Geophys. Res., 2005, 110: D10202 ,doi: 10.1029/2004JD005467. |
| [5] | GAO S T, LI X F. Cloud-Resolving Modeling ofConvective Processes [M]. Germany: Springer, 2008: pp206. |
| [6] | ARNOTT J M, EVANS J L, CHIAROMONTE F.Characterization of extratropical transition using clusteranalysis [J]. Mon. Wea. Rev., 2004, 132(12): 2916-2937. |
| [7] | JONES S C, HARR P A, ABRAHAM J, et al. Theextratropical transition of tropical cyclones: Forecastchallenges, current understanding, and future directions [J].Weather and Forecasting, 2003, 18(6): 1052-1092. |
| [8] | DIMEGO G J, BOSART L F. The transformation oftropical storm Agnes into an extratropical cyclone. Part I: Theobserved fields and vertical motion computations [J]. Mon.Wea. Rev., 1982, 110(5): 385-411. |
| [9] | DIMEGO G J, BOSART L F. The transformation oftropical storm Agnes into an extratropical cyclone. Part II:Moisture, vorticity and kinetic energy budgets [J]. Mon. Wea.Rev., 1982, 110(5): 412-433. |
| [10] | LEI Xiao-tu, CHEN Lian-shou. Tropical cyclonelandfalling and its interaction with mid-latitude circulationsystems [J]. Acta Meteor. Sinica, 2001, 59(5): 602-615. |
| [11] | CHEN Lian-shou, LUO Zhe-xian, LI Ying. Researchadvances on tropical cyclone landfall process [J]. Acta Meteor.Sinica, 2004, 62(5): 541-549. |
| [12] | PALMEN E. Vertical circulation and release of kineticenergy during the development of hurricane hazel into anextratropical storm [J]. Tellus, 1958, 10: 1-23. |
| [13] | HARR P A, ELSBERRY R L, HOGAN T F. Extratropicaltransition of tropical cyclones over the western North Pacific.Part II: The impact of midlatitude circulation characteristics [J].Mon. Wea. Rev., 2000, 128(8): 2634-2653. |
| [14] | KLEIN P M, HARR P A, ELSBERRY R L. Extratropicaltransition of western North Pacific tropical cyclones: Anoverview and conceptual model of the transformation stage [J].Weather and Forecasting, 2000, 15(4): 373-395. |
| [15] | HANLEY D J, MOLINARI J, KEYSER D. A compositestudy of the interactions between tropical cyclones andupper-tropospheric troughs [J]. Mon. Wea. Rev., 2001, 129(10): 2570-2584. |
| [16] | XU Xiang-de, CHEN Lian-shou, XIE Yi-yang, et al.Typhoon transition and its impact on heavy rain [J]. Sci. Atmos.Sinica, 1998, 22(5): 744-752. |
| [17] | MATANO H, SEKIOKA M. On the synoptic structure ofTyphoon Cora, 1969, as the compound system of tropical andextratropical cyclones [J]. J. Meteor. Soc. Japan, 1971, 49:282-295. |
| [18] | MATANO H, SEKIOKAM. Some aspects of extratropicaltransformation of a tropical cyclone [J]. J. Meteor. Soc. Japan,1971, 49: 736-743. |
| [19] | EVANS J L, HART R E. Objective indicators of the lifecycle evolution of extratropical transition for Atlantic tropicalcyclones [J]. Mon. Wea. Rev., 2003, 131(5): 909-925. |
| [20] | HART R E, EVANS J L, EVANS C. Synoptic compositesof the extratropical transition life cycle of North Atlantictropical cyclones: Factors determining posttransition evolution[J]. Mon. Wea. Rev., 2006, 134(2): 553-578. |
| [21] | SINCLAIR M R. Extratropical transition of southwestPacific tropical cyclones. Part I: Climatology and meanstructure changes [J]. Mon. Wea. Rev., 2002, 130(3): 590-609. |
| [22] | HARR P A, ELSBERRY R L. Extratropical transition oftropical cyclones over the western North Pacific. Part I:Evolution of structural characteristics during the transitionprocess [J]. Mon. Wea. Rev., 2000, 128(8): 2613-2633. |
| [23] | KLEIN P M, HARR P A, ELSBERRY R L. Extratropicaltransition of western North Pacific tropical cyclones:midlatitude and tropical cyclone contributions toreintensification [J]. Mon. Wea. Rev., 2002, 130(9):2240-2259. |
| [24] | KITABATAKE N. Extratropical Transition of tropicalcyclones in the western North Pacific: their frontal evolution[J]. Mon. Wea. Rev., 2008, 136(6): 2066-2090. |
| [25] | ONOGI K, TSUTSUI J, KOIDE H, et al. The JRA-25reanalysis [J]. J. Meteor. Soc. Japan, 2007, 85(3): 396-432. |
| [26] | HART R E. A cyclone phase space derived from thermalwind and thermal asymmetry [J]. Mon. Wea. Rev., 2003,131(4): 585-616. |
| [27] | SINCLAIR M R. Extratropical transition of southwestPacific tropical cyclones. Part II: Midlatitude circulationcharacteristics [J]. Mon. Wea. Rev., 2004, 132(9): 2145-2168. |
| [28] | HART R E, EVANS J L. A climatology of theextratropical transition of Atlantic tropical cyclones [J]. J.Climate, 2001, 14(4): 546-564. |
| [29] | HOLLAND G J, MERRILL R T. On the dynamics oftropical cyclone structural changes [J]. Quart. J. Roy. Meteor.Soc., 1984, 110: 723-745. |