| [1] | HONG C C, LEE M Y, HSU H H, et al. Role of submonthlydisturbance and 40-50 day ISO on the extreme rainfall eventassociated with Typhoon Morakot (2009) in Southern Taiwan[J]. Geophys. Res. Lett., 2010, 37, L08805,doi: 10.1029/2010GL042761. |
| [2] | ZHANG F, WENG Y, KUO Y-H, et al. Predicting typhoonMorakot's catastrophic rainfall with a convection-permittingmesoscale ensemble system [J]. Wea. Forecasting, 2010, 25(6):1816-1825. |
| [3] | CHIEN F C, KUO H C. On the extreme rainfall of TyphoonMorakot (2009) [J]. J. Geophys. Res., 2011, 116, D05104,doi: 10.1029/2010JD015092. |
| [4] | LIU C C, LIU G R, LIN T H, et al. Accumulated rainfallforecast of Typhoon Morakot (2009) in Taiwan using satellite data [J]. J. Meteor. Soc. Japan, 2010, 88(5): 785-798. |
| [5] | EBERT E E, TURK M, KUSSELSON S J, et al. Ensembletropical rainfall potential (eTRaP) forecasts [J]. Wea.Forecasting, 2011, 26(2): 213-224. |
| [6] | NGUYEN H V, CHEN Y L. High-resolution initializationand simulations of Typhoon Morakot (2009) [J]. Mon. Wea.Rev., 2011, 139(5): 1463-1691. |
| [7] | ATLAS D, ULBRICH C W. Drop size spectra and integralremote sensing parameters in the transition from convective tostratiform rain [J]. Geophys. Res. Lett., 2006, 33, L16803,doi: 10.1029/2006GL026824. |
| [8] | CHAPON B, DELRIEU G, GOSSET M, et al. Variability ofrain drop size distribution and its effect on the Z�CR relationship:A case study for intense Mediterranean rainfall [J]. Atmos. Res.,2008, 87(1): 52-65. |
| [9] | MARTNER B E, YUTER S E, WHITE A B, et al. Raindropsize distributions and rain characteristics in California coastalrainfall for periods with and without a radar bright band [J]. J.Hydrometeor., 2008, 9(3): 408-425. |
| [10] | MOUMOUNI S, GOSSET M, HOUNGNINOU E. Mainfeatures of rain drop size distributions observed in Benin, WestAfrica, with optical disdrometers [J]. Geophys. Res. Lett., 2008,35, L23807, doi: 10.1029/2008GL035755. |
| [11] | LEE C K, LEE G W, ZAWADZKI I, et al. A preliminaryanalysis of spatial variability of raindrop size distributionsduring stratiform rain events [J]. J. Appl. Meteor. Climatol.,2009, 48(2): 270-283. |
| [12] | NIU Sheng-jie, JIA Xing-can, SANG Jian-ren, et al.Distributions of raindrop sizes and fall velocities in a semiaridplateau climate: Convective versus stratiform rains [J]. J. Appl.Meteor. Climatol., 2010, 49(4): 632-645. |
| [13] | TAPIADOR F J, CHECA R, DE CASTRO M. Anexperiment to measure the spatial variability of rain drop sizedistribution using sixteen laser disdrometers [J]. Geophys. Res.Lett., 2010, 37, L16803, doi: 10.1029/2010GL044120. |
| [14] | TOKAY A, BASHOR P G, HABIB E, et al. Raindrop sizedistribution measurements in Tropical Cyclones [J]. Mon. Wea.Rev., 2008, 136(5): 1669-1685. |
| [15] | CHANG W Y, WANG T C C, LIN P L. Characteristics ofthe raindrop size distribution and drop shape relation intyphoon systems in the western Pacific from the 2D videodisdrometer and NCU C-band polarimetric radar [J]. J. Atmos.Ocean Technol., 2009, 26(10): 1973-1993. |
| [16] | BATTAGLIA A, RUSTEMEIER E, TOKAY A, et al.PARSIVEL snow observations: A critical assessment [J]. J.Atmos. Ocean Technol., 2010, 27(2): 333-344. |
| [17] | YUTER S E, KINGSMILL D E, NANCE L B, et al.Observations of precipitation size and fall speed characteristicswithin coexisting rain and wet snow [J]. J. Appl. Meteor., 2006,45(10): 1450-1464. |
| [18] | CHEN Bao-jun, HU Wen, PU Jiang-ping. Characteristicsof the raindrop size distribution for freezing precipitationobserved in southern China [J]. J. Geophys. Res., 2011, 116,D06201, doi: 10.1029/2010JD015305. |
| [19] | L?FFLER-MANG M, BLAHAK U. Estimation of theequivalent radar reflectivity factor from measured snow sizespectra [J]. J. Appl. Meteor., 2001, 40(4): 843-849. |
| [20] | L?FFLER-MANG M, JOSS J. An optical disdrometer formeasuring size and velocity of hydrometeors [J]. J. Atmos.Oceanic Technol., 2000, 17(2): 130-139. |
| [21] | GUNN R, KINZER G D. The terminal velocity of fall forwater droplets in stagnant air [J]. J. Meteor., 1949, 6(4):243-248. |
| [22] | ULBRICH C W. Natural variations in the analytical formof the raindrop size distribution [J]. J. Clim. Appl. Meteor.,1983, 22(10): 1764-1775. |
| [23] | VIVEKANANDAN J, ZHANG G, BRANDES E.Polarimetric radar estimators based on a constrained gammadrop size distribution model [J]. J. Appl. Meteor., 2004, 43(2):217-230. |
| [24] | BRINGI V N, CHANDRASEKAR V, HUBBERT J, et al.Raindrop size distribution in different climatic regimes fromdisdrometer and dual-polarized radar analysis [J]. J. Atmos.Sci., 2003, 60(2): 354-365. |
| [25] | HOUZE R A Jr. Clouds in tropical cyclones [J]. Mon.Wea. Rev., 2010, 138(2): 293-344. |
| [26] | BRANDES E A, ZHANG G, VIVEKANANDAN J. Anevaluation of a drop distribution�Cbased rainfall estimator [J]. J.Appl. Meteor., 2003, 42(5): 652-660. |
| [27] | ZHANG G, VIVEKANANDAN J, BRANDES E A, et al.The shape�Cslope relation in observed gamma raindrop sizedistributions: Statistical error or useful information? [J]. J.Atmos. Oceanic Technol., 2003, 20(8): 1106-1119. |
| [28] | JORGENSEN D P, WILLIS P T. A Z-R relationship forhurricanes [J]. J. Appl. Meteor., 1982, 21(3): 356-366. |