[1] |
HOUGHTON H G. On precipitation mechanisms and theirartificial modification [J]. J. Appl. Meteor., 1968, 7(5):851-859. |
[2] |
CHURCHILL D D, HOUZE R A Jr. Development andstructure of winter monsoon cloud clusters on 10 December1978 [J]. J. Atmos. Sci., 1984, 41: 933-960. |
[3] |
STEINER M, HOUZE R A Jr. Three-dimensionalvalidation at TRMM ground truth sites: Some early resultsfrom Darwin, Australia [C]// Preprints, 26th Int. Conf. OnRadar Meteorology, Norman: Amer. Meteor. Soc., 1993:417-420. |
[4] |
ROSENFELD D, AMITAI E, WOLFF D B. Classificationof rain regimes by the three-dimensional properties ofreflectivity fields [J]. J. Appl. Meteor., 1995, 34(1): 198-211. |
[5] |
STEINER M, HOUZE R A Jr, YUTER S E. Climatologicalcharacterization of three-dimensional storm structure fromoperational radar and rain gauge data [J]. J. Appl. Meteor.,1995, 34(9): 1978-2007. |
[6] |
BIGGERSTAFF M I, LISTEMAA S A. An improvedscheme for convective/stratiform echo classification usingradar reflectivity [J]. J. Appl. Meteor., 2000, 39(12):2129-2150. |
[7] |
TAO W K, SIMPSON J. Modeling study of a tropicalsquall-type convective line [J]. J. Atmos. Sci., 1989, 46(2):177-202. |
[8] |
TAO Wei-kuo, LANG S, SIMPSON J, et al. Verticalprofiles of latent heat release and their retrieval for TOGACOARE convective systems using a cloud resolving model,SSM/I, and ship-borne radar data [J]. J. Meteor. Soc. Japan,2000, 78(4): 333-355. |
[9] |
XU Kuan-man. Partitioning mass, heat, and moisturebudgets of explicit simulated cumulus ensembles intoconvective and stratiform components [J]. J. Atmos. Sci., 1995,52(1): 1-23. |
[10] |
LANG S, TAO Wei-kuo, SIMPSON J, et al. Modeling ofconvective-stratiform precipitation processes: Sensitivity topartition methods [J]. J. Appl. Meteor., 2003, 42(4): 507-523. |
[11] |
TAO Wei-kuo, SIMPSON J, SUI Chung-hsiung, et al.Heating, moisture and water budgets of tropical andmidlatitude squall lines: Comparisons and sensitivity tolongwave radiation [J]. J. Atmos. Sci., 1993, 50(5): 673-690. |
[12] |
SUI Chung-hsiung, LAU Ka-ming, TAO Wei-kuo, et al. The tropical water and energy cycles in a cumulus ensemblemodel. Part I: Equilibrium climate [J]. J. Atmos. Sci., 1994,51(5): 711-728. |
[13] |
CUI Xiao-peng, LI Xiao-fan. Role of surface evaporationin surface rainfall processes [J]. J. Geophys. Res. 2006, 111:D17112, doi: 10.1029/2005JD006876. |
[14] |
CUI Xiao-peng, Zhou Yu-shu, LI Xiao-fan. 2007: Cloudmicrophysical properties in tropical convective and stratiformregions [J]. Meteor. Atmos. Phys., 2007, 98(1): 1-11. |
[15] |
PING Fan, LUO Zhe-xian, LI Xiao-fan. Microphysicaland radiative effects of ice microphysics on tropicalequilibrium states: A two-dimensional cloud-resolvingmodeling study [J]. Mon. Wea. Rev., 2007, 135(7): 2794-2802. |
[16] |
XU Xiao-feng, XU Feng-wen, LI Bai. A cloud-resolving modeling study of a torrential rainfall event over China [J]. J.Geophys. Res., 2007, 112: D17204, doi: 10.1029/2006JD008275. |
[17] |
GAO Shou-ting, LI Xiao-fan. Responses of tropical deepconvective precipitation systems and their associated convective and stratiform regions to the large-scale forcing [J].Quart. J. Roy. Meteor. Soc., 2008, 134(4): 2127-2141. |
[18] |
PING F, LUO Zhe-xian. Microphysical and radiativeeffects of ice clouds on diurnal variations of tropicalconvective and stratiform rainfall [J]. Atmos. Res., 2009, 93(4):862-873. |
[19] |
ZHOU Yu-shu, LI Xiao-fan. Sensitivity of convective and stratiform rainfall to sea surface temperature [J]. Atmos. Res.,2009, 92(2): 212-219. |
[20] |
WANG Yi, SHEN Xin-yong, LI Xiao-fan. Microphysicaland radiative effects of ice clouds on responses of rainfall tothe large-scale forcing during pre-summer heavy rainfall over southern China [J]. Atmos. Res., 2010, 97(1): 35-46. |
[21] |
SUI Chung-hsiung, TSAY Ching-tung, LI Xiao-fan.Convective stratiform rainfall separation by cloud content [J]. J.Geophys. Res., 2007, 112: D14213,doi: 10.1029/2006JD008082. |
[22] |
CANIAUX G, REDELSPERGER J L, LAFORE J P. Anumerical study of the stratiform region of a fast-moving squallline. Part I: General description and water and heat budgets [J].J. Atmos. Sci., 1994, 51(16): 2046-2074. |
[23] |
SHEN Xin-yong, WANG Yi, ZHANG Nan, et al.Precipitation and cloud statistics in the deep tropical convectiveregime [J]. J. Geophys. Res., 2010, 115: D24205, doi: 10.1029/2010JD014481. |
[24] |
GAO Shou-ting, CUI Xiao-peng, ZHOU Yu-zhu, et al.Surface rainfall processes as simulated in a cloud resolvingmodel [J]. J. Geophys. Res., 2005, 110, D10202,doi: 10.1029/2004JD005467. |
[25] |
SOONG S T, OGURA Y. Response of tradewind cumulito large-scale processes [J]. J. Atmos. Sci., 1980, 37(9):2035-2050. |
[26] |
SOONG S T, TAO Wei-kuo. Response of deep tropicalcumulus clouds to mesoscale processes [J]. J. Atmos. Sci.,1980, 37(9): 2016-2034. |
[27] |
TAO Wei-kuo, SIMPSON J. The Goddard Cumulus Ensemble model. Part I: Model description [J]. Terr. Atmos.Oceanic Sci., 1993 4(1): 35-72. |
[28] |
LI X, SUI Chung-hsiung, LAU Ka-ming. Radiative-convective processes in simulated diurnal variationsof tropical oceanic convection [J]. J. Atmos. Sci., 1998, 55(13):2345-2359. |
[29] |
LI X, SUI Chung-hsiung, LAU Ka-ming, et al.Large-scale forcing and cloud-radiation interaction in thetropical deep convective regime [J]. J. Atmos. Sci., 1999,56(17): 3028-3042. |
[30] |
LI X, SUI Chung-hsiung, LAU Ka-ming. Dominant cloud microphysical processes in a tropical oceanic convectivesystem: A 2-D cloud resolving modeling study [J]. Mon. Wea.Rev., 2002, 130(10): 2481-2491. |
[31] |
RUTLEDGE S A, HOBBS P A. The mesoscale andmicroscale structure and organization of clouds andprecipitation in midlatitude cyclones. Part VIII: A model forthe "seeder-feeder" process in warm-frontal rainbands [J]. J.Atmos. Sci., 1983, 40(8): 1185-1206. |
[32] |
RUTLEDGE S A, HOBBS P A. The mesoscale andmicroscale structure and organization of clouds and precipitation in midlatitude cyclones. Part XII: A diagnosticmodeling study of precipitation development in narrowcold-frontal rainbands [J]. J. Atmos. Sci., 1984, 41(20):2949-2972. |
[33] |
LIN Yuh-lang, FARLEY R D, ORVILLE H D. Bulkparameterization of the snow field in a cloud model [J]. J.Climate Appl. Meteor., 1983, 22(6): 1065-1092. |
[34] |
TAO Wei-kuo, SIMPSON J, MCCUMBER M. Anice-water saturation adjustment [J]. Mon. Wea. Rev., 1989,117(1): 231-235. |
[35] |
KRUEGER S K, FU Qiang, LIOU Kuo-nan, et al.Improvement of an ice-phase microphysics parameterizationfor use in numerical simulations of tropical convection [J]. J.Appl. Meteor., 1995, 34(1): 281-287. |
[36] |
CHOU Ming-dah, KRATE D P, RIDGWAY W. Infraredradiation parameterization in numerical climate models [J]. J.Climate, 1991, 4(4): 424-437. |
[37] |
CHOU Ming-dah, SUAREZ M J, HO Chang-hoi, et al.Parameterizations for cloud overlapping and shortwave singlescattering properties for use in general circulation and cloudensemble models [J]. J. Climate., 1998, 11(2): 201-214. |
[38] |
CHOU Ming-dah, SUAREZ M J. An efficient thermalinfrared radiation parameterization for use in generalcirculation model [R]// NASA Tech. Memo., Greenbelt:NASA/Goddard Space Flight Center, 104606, 1994, Vol. 3,85pp. |
[39] |
ZHANG Ming-hua, LIN Jia-lin. Constrained variationalanalysis of sounding data based on column-integrated budgetsof mass, heat, moisture, and momentum: Approach andapplication to ARM measurements [J]. J. Atmos. Sci., 1997,54(11): 1503-1524. |
[40] |
WELLER R A, ANDERSON S P. Surface meteorologyand air-sea fluxes in the western equatorial Pacific warm poolduring TOGA COARE [J]. J. Climate, 1996, 9(7): 1959-1990. |
[41] |
GAO Shou-ting, LI X. Cloud-resolving modeling ofconvective processes [M]. Amsterdam: Springer, 2008: 206pp. |
[42] |
SUI Chung-hsiung, Li X. A tendency of cloud ratioassociated with the development of tropical water and iceclouds [J]. Terr. Atmos. Ocean. Sci., 2005, 16(2): 419-434. |