Chen C, Tao W K, Lin P L, et al. The intensification of Low-Level Jet during the development of mesoscale convective systems on a Meiyu front[J]. Mon Wea Rev, 1998, 126: 349-371. 2.0.CO;2 target="_blank">
[11]
Chen G T J, Wang C C, Liu S C S. Potential vorticity diagnostics of a Meiyu front case[J]. Mon Wea Rev, 2003, 131: 2680-2696. 2.0.CO;2 target="_blank">
[12]
Cui Xiaopeng, Gao Shouting, Li Xiaofan. Diagnostic analysis of mesoscale rainstorms in the Jiang-Huai valley of China with convective vorticity vector[J]. Progress in Natural Science, 2007, 17(5): 559-568.
Doswell C A, Brooks III H E, Maddox R A. Flash flood forecasting: An ingredients-based methodology[J]. Wea Forecasting, 1996, 11: 560-581. 2.0.CO;2 target="_blank">
[16]
Kuo Y H, Anthes R A. Numerical simulation of a Meiyu system over southeastern Asia[J]. Pap Meteor Res, 1982, 5: 15-36.
Zhang Man, Zhang Dalin. Subkilometer simulation of a torrential-rain-producing mesoscale convective system in east China. Part I: Model verification and convective organization[J]. Mon Wea Rev, 2012, 140: 184-201.
Gao Shouting, Ping Fan, Li Xiaofan, et al. A convective vorticity vector associated with tropical convection: A two-dimensional cloud-resolving modeling study[J]. J Geophys Res, 2004, 109: D14106, doi:10.1029/2004JD004807.
[29]
Gao Shouting, Cui Xiaopeng, Zhou Yushu, et al. A modeling study of moist and dynamic vorticity vectors associated with two-dimensional tropical convection[J]. J Geophys Res, 2005, 110: D17104, doi:10.1029/2005JD005675.
[30]
Gao Shouting, Li Xiaofan, Tao Weikuo, et al. Convective and moist vorticity vectors associated with tropical oceanic convection: A three-dimensional cloud-resolving model simulation[J]. J Geophys Res, 2007, 112: D01105, doi:10.1029/2006JD007179.