References

Andreae, M.O., D. Rosenfeld, P. Artaxo, A.A. Costa. G.P. Frank, K.M. Longlo, and M.A.F. SilvaDias (2004): Smoking rain clouds over the Amazon. Science, 303, 1337-1342.

Black R.A. and Hallett J (1999). Electrification of the hurricane, J. Atmos. Sci, 56, 2004-2028.

Cecil D.J., E.J. Zipser, and S.W. Nebitt (2002a) Reflectivity, ice scattering, and lightning characteristics of hurricane eyewalls and rainbands. Part 1: Quantitative description. Mon Wea. Rev. 130, 769-784.

Cecil D.J., E.J. Zipser, and S.W. Nebitt (2002a) Reflectivity, ice scattering, and lightning characteristics of hurricane eyewalls and rainbands. Part 2: Intercomparison of observations. Mon Wea. Rev. 130, 785-801.

Cerveny R.S. and R.C. Balling (1998). Weekly cycles of air pollutants, precipitation and tropical cyclones in the coastal NW Atlantic region. Nature 394 (6693) 561-563.

Cotton, W. R., H. Zhang, G.M. McFarquhar, S.M. Saleeby (2007) Should we consider polluting hurricanes to reduce their intensity? J. Weather Modification, 39, 70-73.

Fierro A.O., L. Leslie, E. Mansell, J. Straka, D. MacGorman, and C. Ziegler (2007) A highresolution simulation of microphysics and electrification in an idealized hurricane-like vortex. Meteorol. Atmos. Phys, 98, 13-33, Doi: 10.1007/s00703-006-0237-0.

Jordan, C.L. (1958) Mean soundings for the West Indies area. J. Meteor., 15, 91-97.

Jorgensen, D. P., E.J. Zipser, and. M.A. LeMone (1985). Vertical motions in intense hurricanes. J. Atmos. Sci. 42, 839-856.

Khain, A. P. (1984) Mathematical modeling of tropical cyclones.

Khain, A.P. and E.A. Agrenich (1987) Possible effect of atmospheric humidity and radiation heating of dusty air on tropical cyclone development. Proc. Institute Experim. Meteorol., 42 (127), 77-80.

Khain, A.P., M. Ovtchinnikov, M. Pinsky, A. Pokrovsky, and H. Krugliak (2000) Notes on the state-of-the-art numerical modeling of cloud microphysics. Atmos. Res., 55, 159-224.

Khain, A.P., M.B. Pinsky, M. Shapiro and A. Pokrovsky (2001a) Graupel-drop collision efficiencies. J. Atmos. Sci., 58, 2571-2595.

Khain A., A. Pokrovsky, M. Pinsky, A. Seifert, and V. Phillips (2004) Effects of atmospheric aerosols on deep convective clouds as seen from simulations using a spectral microphysics mixed-phase cumulus cloud model Part 1: Model description. J. Atmos. Sci., 61, 2963-2982.

Khain, A., Rosenfeld and D. Pokrovsky A. (2005). Aerosol impact on the dynamics and microphysics of convective clouds. Quart. J. Roy. Meteor. Soc. 131, 2639-2663.

Khain A.P. and B. Lynn (2007) Simulation of a super cell storm in clean and dirty atmosphere. J. Geophys. Research (submitted).

Khain, A., D. Rosenfeld and A. Pokrovsky (2005). Aerosol impact on the dynamics and microphysics of convective clouds. Quart. J. Roy. Meteor. Soc. 131, 2639-2663.

Khain A.P., N. BenMoshe, A. Pokrovsky (2008) Factors determining the aerosol effects on precipitation: an attempt of classification. J. Atmos. Sci., 65, 1721-1748.

Koren I., Y.J. Kaufman, D. Rosenfeld, L.A. Remer, Y. Rudich (2005) Aerosol invigoration and restructuring of Atlantic convective clouds, Geophys. Res. Lett., 32, L14828, doi:10.1029/ 2005GL023187.

Lhermitte R.M., and P. Krehbiel (1979): Doppler radar and radio observations of thunderstorms. IEEE Trans Geosci Electron 17, 162-171.

Lynn B., A. Khain, J. Dudhia, D. Rosenfeld, A. Pokrovsky, and A. Seifert (2005a) Spectral (bin) microphysics coupled with a mesoscale model (MM5). Part 1. Model description and first results. Mon. Wea. Rev. 133, 44-58.

Lynn B., A. Khain, J. Dudhia, D. Rosenfeld, A. Pokrovsky, and A. Seifert (2005b) Spectral (bin) microphysics coupled with a mesoscale model (MM5). Part 2: Simulation of a CaPe rain event with squall line Mon. Wea. Rev., 133, 59-71.

Mansell E.R. , D.R. Mac.Gorman and J.M. Straka (2002) Simulated three-dimensional branched lightning in a numerical thunderstorm model. J. Geophys. Res. 107, D9 (doi: 10.1029/ 2000JD000244).

McFarquhar G., and R.A. Black (2004) Observations of particle size and phase in tropical cyclones: implications for mesoscale modeling of microphysical processes. J. Atmos. Sci. 61, 422-439.

Meyers, M.P., P.J. DeMott, and W.R. Cotton (1992) New primary ice-nucleation parameteriza-tions in an explicit cloud model. J. Appl. Meteor., 31, 708-721.

Molinari J., Moore P., and V. Idone (1998g) Convective Structure of hurricane as revealed by lightning locations, Mon. Wea. Rev., 127, 520-534.

Orville R.E. and J.M. Coyne (1999) Cloud-to-ground lightning in tropical cyclones (1986-1996). Preprints, 23-rd Conf. on Hurricanes and tropical meteorology, Dallas, Amer. Meteor. Soc., 194 pp.

Pinsky, M. and A.P. Khain (1998) Some effects of cloud turbulence on water-ice and ice-ice collisions, Atmos. Res., 47-48, 69-86.

Pinsky, M., A.P. Khain, and M. Shapiro (2001) Collision efficiency of drops in a wide range of Reynolds numbers: Effects of pressure on spectrum evolution. J. Atmos. Sci., 58, 742-764.

Pinsky, M. B., A.P. Khain, and M. Shapiro (2007) Collisions of cloud droplets in a turbulent flow. Part 4. Droplet hydrodynamic interaction. J. Atmos. Sci., 64, 2462-2482.

Pruppacher, H.R. and J.D. Klett (1997) Microphysics of clouds and precipitation. 2nd edition, Oxford Press, 1997, 963p.

Ramanathan, V., P.J. Crutzen, J.T. Kiehl and D. Rosenfeld (2001), Aerosols, climate, and the hydrological cycle, Science, 294, 2119-2124

Rogers, R.R. and Yau, M.K. (1989) A short course of cloud physics. Pregamon, Oxford, 293 pp.

Rodgers E., J. Weinman, H. Pierce, W. Olson (2000) Tropoical cyclone lightning distribution and its relationship to convection and intensity change. Preprints, 24th Conf. on Hurricanes and Tropical meteorology, Ft. Lauderdale, Amer. Meteor. Soc. pp. 537-541.

Rosenfeld D., R. Lahav, A. Khain, and M. Pinsky (2002) The role of sea spray in cleaning air pollution over ocean via cloud processes. Science 297, 1667-1670.

Rosenfeld D., M. Fromm, J. Trentmann, G. Luderer, M. O. Andreae, and R. Servranckx (2007a) The Chisholm firestorm: observed microstructure, precipitation and lightning activity of a pyro-Cb. Atmos. Chem. Phys., 7, 645-659.

Rosenfeld D., A. Khain, B. Lynn, W.L. Woodley (2007f) Simulation of hurricane response to suppression of warm rain by sub-micron aerosols. Atmos. Chem. Phys. Discuss., 7, 5647-5674.

Saunders, C.P.R. (1993). A review of thunderstorm electrification processes, J. Appl. Meteor., 32, 642-655.

Shepherd, J.M., and S.J. Burian (2003) Detection of urban-induced rainfall anomalies in a major coastal city. Earth Interactions, 7, 1-17.

Sherwood S.C., V. Phillips and J. S. Wettlaufer (2006). Small ice crystals and the climatology of lightning. Geophys. Res. Letters, 33, L058804, doi. 10.1029/2005GL.

Shao X.M., Harlin J., Stock M., Stanley M., Regan A., Wiens K., Hamlin T., Pongratz M., Suszcynsky D. and Light T. (2005) Katrina and Rita were lit up with lightning, EOS, Vol. 86, No. 42, page 398-399.

Simpson, R.H., and Malkus J.S. (1964) Experiments in hurricane modification. Sci. Amer., 211, 27-37.

Skamarock, W.C., Klemp J.B., Dudhia J., Gill D.O., Barker D.M., Wang W., and Powers J.G. (2005). A description of the Advanced Research WRF Version 2. NCAR Tech Notes-468+STR.

Straka J.M. and E.R. Mansell (2005). A bulk microphysics parameterization with multiple ice precipitation categories. J. Appl. Meteorol. 44, 445-466.

Takahashi, T (1978) Riming electrification as a charge generation mechanism in thunderstorms. J. Atmos. Sci., 35, 1536-1548.

Takahashi, T., T. Endoh, and G. Wakahama (1991) Vapor diffusional growth of free-falling snow crystals between -3 and —23 C. J. Meteor. Soc. Japan, 69, 15-30.

Thompson, G., P.R. Field, W.D. Hall, and R. Rasmussen (2006) A new bulk microphysical parameterization for WRF (& MM5). Presented at WRF conference, NCAR, June 2006.

Wang C.A (2005) Modelling study of the response of tropical deep convection to the increase of cloud condensational nuclei concentration: 1. Dynamics and microphysics. J. Geophys. Res., v. 110; D21211, doi:10.1029/2004JD005720.

Williams E, G. Satori (2004) Lightning, thermodynamic and hydrological comparison of the two tropical continental chimneys. J. Atmos. And Solar-Terrestrial Phys. 66, 1213-1231.

Williams E., V. Mushtak, D. Rosenfeld, S. Goodman and D. Boccippio, (2005) Thermodynamic conditions favorable to superlative thunderstorm updraft, mixed phase microphysics and lightning flash rate. Atmos. Res., 76, 288-306.

Wiens K.C., S.A. Rutledge, and S.A. Tessendorf (2005) The 29 June 2000 supercell observed during steps. Pt 2: Lightning and charge structure. J. Atmos. Sci. 62, 4151-4177.

Willoughby, H.E., Jorgensen D.P., Black R.A., and Rosenthal S.L. (1985) Project STORMFURY, A Scientific Chronicle, 1962-1983, Bull. Amer. Meteor. Soc., 66, 505-514.

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