References Chapter 5

References – Chapter 5

Akiyama, H., Ichino, K., and Horii, K. 1985. Channel reconstruction of triggered lightning flashes with bipolar currents from thunder measurements. J. Geophys. Res. 90: 10,674-80.

Allibone, T.E. 1977. The long spark. In Lightning, vol. 1, Physics of Lightning, ed. R.H. Golde, pp. 231-280, London: Academic Press.

Avila, E.E., and Pereyra, R.G. 2000. Charge transfer during crystal-graupel collisions for two different cloud droplet size distributions. Geophys. Res. Lett. 27: 3837-40.

Anderson, F.J., and Freier, G.D. 1974. Relative amounts of positive and negative charge in lightning flashes. J. Geophys. Res. 79: 5057-8

Avansky, V.R., Chernov, E.N., Lupeiko, A.V., and Petrov, N.I. 1992. Experimental investigations of lightning phenomena in laboratory. In Proc 9th Int. Conf. on Atmospheric Electricity, St. Petersburg, Russia, pp. 783-787.

Baral, K.N., and Mackerras, D. 1992. The cloud flash-to-ground flash ratio and other lightning occurrence characteristics in Kathmandu thunderstorms. J. Geophys. Res. 97: 931-8.

Baral, K.N., and Mackerras, D. 1993. Positive cloud-to-ground lightning discharges in Kathmandu thunderstorms. J. Geophys. Res. 98: 10,331-40.

Bazelyan, E.M., Gorin, B.N., and Levitov, V.I. 1978. Physical and Engineering Foundations of Lightning Protection. 223 p., Leningrad: Gidrometeoizdat.

Bazelyan, E.M., and Raizer, Yu. P. 1998. Spark discharge. 294 p. Boca Raton, Florida: CRC Press.

Bazelyan, E.M., and Raizer, Yu. P. 2000a. Lightning Physics and Lightning Protection, 325 p., Bristol: IOP Publishing.

Bazelyan, E.M., and Raizer, Yu. P. 2000b. Lightning attraction mechanism and the problem of lightning initiation by lasers. UFN 170(7): 753-69.

Beasley, W.H. 1985. Positive cloud-to-ground lightning observations. J. Geophys. Res. 90: 6131-8.

Beasley, W.H., Uman, M.A., Jordan, D.M., and Ganesh, C. 1983. Positive cloud to ground lightning return strokes. J. Geophys. Res. 88: 8475-82.

Bejleri, M. 1999. Triggered-lightning testing of an airport runway lighting system. Master's thesis, Univ. of Florida, Gainesville, 233 p.

Berger, K. 1967. Novel observations on lightning discharges: Results of research on Mount San Salvatore. J. Franklin Inst. 283: 478-525.

Berger, K. 1972. Methoden und Resultate der Blitzforschung auf dem Monte San Salvatore bei Lugano in den Jahren 1963-1971. Bull. Schweiz. Elektrotech, Ver. 63: 1403-22.

Berger, K. 1973a. Kugelblitz und Blitzforschung. Naturwissenschaften 60: 485-92.

Berger, K. 1973b. Oszillographische Messungen des Feldverlaufs in der Nähe der Blitzeinschläge auf dem Monte San Salvatore. Bull. Schweiz. Elektrotech. Ver. 64: 120-36.

Berger, K. 1977. The Earth Flash. In Lightning, Vol. 1, Physics of Lightning, ed. R.H. Golde, pp. 119-190. New York: Academic Press.

Berger, K. 1978. Blitzstrom-Parameter von Aufwärtsblitzen. Bull. Schweiz. Elektrotech. Ver. 69: 353-60.

Berger, K. 1980. Extreme Blitzströme und Blitzschutz. Bull. Schweiz. Elektrotech. Ver. 71: 460-4.

Berger, K., Anderson, R.B., and Kroninger, H. 1975. Parameters of lightning flashes. Electra 80: 23-37.

Berger, K., and Garbagnati, E. 1984. Lightning current parameters. Results obtained in Switzerland and in Italy. URSI Conf., Florence, Italy, 13 p.

Berger, K., and Vogelsanger, E. 1965. Messungen und Resultate der Blitzforschung der Jahre 1955-1963 auf dem Monte San Salvatore. Bull. Schweiz. Elektrotech. Ver. 56: 2-22.

Berger, K., and Vogelsanger, E. 1966. Photographische Blitzuntersuchungen der Jahre 1955-1965 auf dem Monte San Salvatore. Bull. Schweiz, Elektrotech. Ver. 57: 599-620.

Berger, K., and Vogelsanger, E. 1969. New results of lightning observations. In Planetary Electrodynamics, eds. S.C. Coroniti and J. Hughes, pp. 489-510, New York: Gordon and Breach.

Biswas, K.R., and Hobbs, P.V. 1990. Lightning over the Gulf Stream. Geophys. Res. Lett. 17: 941-3.

Bluestein, H.B., and MacGorman, D.R. 1998. Evolution of cloud-to-ground lightning characteristics and storm structure in the Spearman, Texas, tornadic supercells of 31 May 1990. Mon. Wea. Rev. 126: 1451-67.

Boccippio, D.J., Williams, E.R., Heckman, S.J., Lyons, W.A., Baker, I.T., Boldi, R. 1995. Sprites, ELF transients, and positive ground strokes. Science 269: 1088-91.

Bondiou-Clergerie, A., Bacchiega, G.L., Castellani, A., Lalande, P., Laroche, P., and Gallimberti, I. 1996. Experimental and theoretical study of the bi-leader process. Part II: Theoretical investigation. In Proc. 10th Int. Conf. on Atmospheric Electricity, Osaka, Japan, pp. 676-679.

Branick, M.L., and Doswell, C.A., III, 1992. An observation of the relationship between supercell structure and lightning ground-strike polarity. Wea. Forecast. 7: 143-9.

Brook, M. 1992. Breakdown electric fields in winter storms. Res. Lett. Atmos. Electr. 12: 47-52.

Brook, M., Henderson, R.W., and Pyle, R.B. 1989. Positive lightning strokes to ground. J. Geophys. Res. 94: 13,295-303.

Brook, M., Krehbiel, P., MacLaughlin, D., Takeuti, T., and Nakano, M. 1983. Positive ground stroke observations in Japanese and Florida storms. In Proc. Atmos. Electr. eds. J. Latham and L. Ruhnke, pp. 365-369, Hampton, Virginia: Deepak.

Brook, M., Nakano, M., Krehbiel, P., and Takeuti, T. 1982. The electrical structure of the Hokuriku winter thunderstorms. J. Geophys. Res. 87: 1207-15.

Bruce, C.E.R., and Golde, R.H. 1941. The lightning discharge. J. Inst. Electr. Eng. (London) 88: 487-520.

Burke, C.P. and Jones, D.K. 1996. On the polarity and continuing currents in unusually large lightning flashes deduced from ELF events. J. Atmos. Terr. Phys. 58: 531-40.

Cooray, V. 1984. Further characteristics of positive radiation fields from lightning in Sweden. J. Geophys. Res. 89: 11,807-15.

Cooray, V. 1986a. A novel method to identify the radiation fields produced by positive return strokes and their submicrosecond structure. J. Geophys. Res. 91: 7907-11.

Cooray, V. 1986b. Correction to "A novel method to identify the radiation fields produced by positive return strokes and their submicrosecond structure". J. Geophys. Res. 91: 13,318.

Cooray, V. 2000. The modeling of positive return strokes in lightning flashes. J. Atmos. Solar-Terr. Phys. 62: 169-87.

Cooray, V., Fernando, M., Gomes, C., Sorensen, T., Scuka, V., and Pedersen, A. 1998. The fine structure of positive return stroke radiation fields: A collaborative study between researchers from Sweden and Denmark. In Proc. 24th Int. Conf. on Lightning Protection, Birmingham, United Kingdom, pp. 78-82.

Cooray, V., Fernando, M., Sörensen, T., Götschl, T., and Pedersen, Aa. 2000. Propagation of lightning generated transient electromagnetic fields over finitely conducting ground. J. Atmos. Solar-Terr. Phys. 62: 583-600.

Cooray, V., and Lundquist, S. 1982. On the characteristics of some radiation fields from lightning and their possible origin in positive ground flashes. J. Geophys. Res. 87: 11,203-14.

Cooray, V., and Perez, H. 1994a. HF radiation at 3 MHz associated with positive and negative return strokes. J. Geophys. Res. 99: 10,633-40.

Curran, E.B., and Rust, W.D. 1992. Positive ground flashes produced by low-precipitation thunderstorms in Oklahoma on 26 April, 1984. Mon. Wea. Rev. 120: 544-53.

Cummer, S.A., and Füllekrug, M. 2001. Unusually intense continuing current in lightning produced delayed mesospheric breakdown. Geophys. Res. Lett. 28: 495-8.

Davis, R., and Standring, W.G. 1947. Discharge currents associated with kite balloons. Proc. Roy. Soc. (London) A191: 304-22.

Engholm, C.D., Williams, E.R., and Dole, R.M. 1990. Meteorological and electrical conditions associated with positive cloud-to-ground lightning. Mon. Wea. Rev. 118: 470-87.

Eriksson, A.J. 1982. The CSIR lightning research mast-data for 1972-1982. National Electric Engineering Research Institute, South Africa, Report No. Ek/9/82, 26 p.

Eybert-Berard, A., Barret, L., and J.P. Berlandis, J.P. 1988. Campagne d’experimentations foudre RTLP 87, NASAKennedySpaceCenter, Floride, USA (in French). STT/LASP 88-21/AEB/LB/JPB-pD, Cent. D’Etud. Nucl. de Grenoble, Grenoble, France.

Fernandez, M.I. 1997. Responses of an unenergized test power distribution system to direct and nearby lightning strikes. M.S. Thesis, Univ. Florida, Gainesville, 249 p.

Fieux, R., Gary, C., and Hubert, P. 1975. Artificially triggered lightning above land. Nature 257: 212-4.

Fieux, R.P., Gary, C.H., Hutzler, B.P., Eybert-Berard, A.R., Hubert, P.L., Meesters, A.C., Perroud, P.H., Hamelin, J.H., and Person, J.M. 1978. Research on artificially triggered lightning in France. IEEE Trans. on Pow. Appar. Syst. PAS-97: 725-33.

Fofana, I., Ben Rhouma, A., Beroual, A., and Auriol, P. 1998. Modeling of positive lightning downward leader to study its effects on engineering systems. IEEE Proc.: Generation, Transmission and Distribution 145: 395-403.

Fofana, I., and Beroual, A. 1998. Induced effects on an overhead line due to nearby positive lightning downward leader. Electric Power Systems Research 48: 105-19.

Fuchs, F. 1998. Lightning current and LEMP parameters of upward discharges measured at the Peissenberg tower. In Proc. 24th Int. Conf. on Lightning Protection, Birmingham, United Kingdom, pp. 17-22.

Fuchs, F., Landers, E.U., Schmid, R., and Wiesinger, J. 1998. Lightning current and magnetic field parameters caused by lightning strikes to tall structures relating to interference of electronic systems. IEEE Trans. on Electromagn. Compat. 40 (4): 444-51.

Funaki, K., Kitagawa, N., Nakano, M., and Takeuti, T. 1981. Multistation measurements of lightning discharges to ground in Hokuriku winter thunderstorms. Res. Lett. Atmos. Electr. 1: 19-26.

Fuquay, D.M. 1982. Positive cloud-to-ground lightning in summer thunderstorms. J. Geophys. Res. 87: 7131-40.

Fuquay, D.M., Baughman, R.G., Taylor, A.R., and Hawe, R.G. 1967. Characteristics of seven lightning discharges that caused forest fires. J. Geophys. Res. 72: 6371-3.

Gallimberti, I. 1979. The mechanism of the long spark formation. J. de Phys. Coll. C7, 40: 193-250.

Gao, L., Akyuz, M., Larsson, A., Cooray, V., and Scuka, V. 2000. Measurement of the positive streamer charge. J. Phys. D: Appl. Phys. 33: 1861-5.

Garbagnati, E., Giudice, E., Lo Piparo, G.B. 1978. Measurement of lightning currents in Italy - Results of a statistical evaluation. ETZ-A 99: 664-8.

Gary, C., Cimador, A., and Fieux, R. 1975. La foudre: Étude du phénoméne. Applications à la protection des lignes de transport. Revue Générale de l'Électricité 84: 24-62.

Gomes, C., and Cooray V. 1998. Radiation field pulses associated with the initiation of positive cloud to ground lightning flashes. In Proc. 24th Int. Conf. on Lightning Protection, Birmingham, United Kingdom, pp. 365-370.

Gomes. C., Thottappillil, R., and Scuka, V. 1997. Bipolar electric field pulses in lightning flashes over Sweden. In Proc. 12th Int. Zurich Symp. on Electromagn. Compat., Zurich, Switzerland, pp. 163-166.

Gorin, B.N., and Inkov, A.Y. 1962. Investigation of a spark channel. Sov. Phys. Tech. Phys. 7: 235-41.

Gorin, B.N., Levitov, V.I., and Shkilev, A.V. 1976. Some principles of leader discharge of air gaps with a strong non-uniform field. In Gas Discharges, IEE Conf. Publ. 143, pp. 277-278.

Gorin, B.N., and Shkilev, A.V. 1984. Measurements of lightning currents at the Ostankino tower. Elektrichestvo 8: 64-5.

Goto, Y., and Narita, K. 1992. Observations of winter lightning to an isolate tower. Res. Lett. Atmos. Electr. 12: 57-60.

Goto, Y., and Narita, K. 1995. Electrical characteristics of winter lightning. J. Atmos. Terr. Phys. 57: 449-59.

Hagenguth, J.H., and Anderson, J.G. 1952. Lightning to the EmpireStateBuilding - Part III. AIEE Trans. 71: 641-9.

Halliday, E.C. 1932. The polarity of thunderclouds. Proc. Roy. Soc. (London) A138: 205-29.

Heidler, F., Drumm, F., and Hopf, Ch. 1998. Electric fields of positive earth flashes in near thunderstorms. In Proc. 24th Int. Conf. on Lightning Protection, Birmingham, United Kingdom, pp. 42-47.

Heidler, F., and Hopf, C. 1998. Measurement results of the electric fields in cloud-to-ground lightning in nearby Munich, Germany. IEEE Trans. on Electromagn. Compat. 40(4): 436-43.

Heidler, F., Zischank, W., and Wiesinger, J. 2000. Statistics of lightning current parameters and related nearby magnetic fields measured at the Peissenberg tower. In Proc. 25th Int. Conf. on Lightning Protection, Rhodes, Greece, pp. 78-83.

Hill, R.D. 1988. Interpretation of bipole pattern in a mesoscale storm. Geophys. Res. Lett. 15: 643-4.

Hojo, J., Ishii, M., Kawamura, T., Suzuki, F., and Funayama, R. 1985. The fine structure in the field change produced by positive ground strokes. J. Geophys. Res. 90: 6139-43.

Hojo, J., Ishii, M., Kawamura, T., Suzuki, F., Komuro, H., and Shiogama, M. 1988. Characteristics and evaluation of lightning field waveforms. Electrical Engineering in Japan 108: 55-65.

Hojo, J., Ishii, M., Kawamura, T., Suzuki, F., Komuro, H., and Shiogama, M. 1989. Seasonal variation of cloud-to-ground lightning flash characteristics in the coastal area of the Sea of Japan. J. Geophys. Res. 94: 13,207-12.

Holle, R.L., Lopez, R.E., Howard, K.W., Cummins, K.L., Malone, M.D., and Krider, E.P. 1997. An isolated winter cloud-to-ground lightning flash causing damage and injury in Connecticut. Bull. Am. Meteor. Soc. 78: 437-41.

Holle, R.L., and Watson, A.I. 1996. Lightning during two central U.S. winter precipitation events. Wea. Forecast. 11: 599-614.

Horii, K. 1986. Experiment of triggered lightning discharge by rocket. In Proc. Korea-Japan Joint Symp. on Electrical Material and Discharge, Cheju Island, Korea, paper 8-3, 6 p.

Horii, K., and Ikeda, G. 1985. A consideration on success conditions of triggered lightning. In Proc. 18th Int. Conf. on Lightning Protection, MunichGermany, paper 1-3, 6 p.

Horii, K., and Nakano M. 1995. Artificially triggered lightning. In Handbook of Atmospheric Electrodynamics, vol. 1. ed. H. Volland, pp. 151-166. Boca Raton, Florida: CRC Press.

Huang, E., Williams, E., Boldi, R., Heckman, S., Lyons, W., Taylor, M., Nelson, T., and Wong, C. 1999. Criteria for sprites and elves based on Schumann resonance observations. J. Geophys. Res. 104: 16,943-64.

Hubert, P., Laroche, P., Eybert-Berard, A., and Barret, L. 1984. Triggered lightning in New Mexico. J. Geophys. Res. 89: 2511-21.

Hubert, P., and Mouget, G. 1981. Return stroke velocity measurements in two triggered lightning flashes. J. Geophys. Res. 86: 5253-61.

Huffines, G.R., and Orville, R.E. 1999. Lightning ground flash density and thunderstorm duration in the continental United States: 1989-96. J. Appl. Meteor. 38: 1013-9.

Hunter, S.M., Schuur, T.J., Marshall, T.C., and Rust, W.D. 1992. Electric and kinematic structure of the Oklahoma mesoscale convective system of 7 June 1989. Mon. Wea. Rev. 120: 2226-39.

Huse, J., and Olsen, K. 1984. Some characteristics of lightning ground flashes observed in Norway. In Lightning and Power Systems. IEE Conference Publication 236, London and New York, pp. 72-76.

Idone, V.P., and Orville, R.E. 1982. Lightning return stroke velocities in the Thunderstorm Research International Program (TRIP). J. Geophys. Res. 87: 4903-15.

Idone, V.P., Orville, R.E., and Henderson, R.W. 1984. Ground truth: a positive cloud-to-ground lightning flash. J. Clim. Appl. Meteor. 23: 1148-51.

Idone, V.P., Orville, R.E., Mach, D.M., and Rust, W.D. 1987. The propagation speed of a positive lightning return stroke. Geophys. Res. Lett. 14: 1150-3.

Ishii, M., and Hojo, J. 1989. Statistics on fine structure of cloud-to-ground lightning field waveforms. J. Geophys. Res. 94: 13,267-74.

Ishii, M., Shimizu, K., Hojo, J., and Shinjo, K. 1998. Termination of multiple-stroke flashes observed by electromagnetic field. In Proc. 24th Int. Conf. on Lightning Protection, Birmingham, United Kingdom, pp. 11-16.

Janischewskyi, W., Shostak, V., Hussein, A.M., and Kordi, B. 1999b. A lightning flash containing strokes of opposite polarities. CIGRE SC 33.99 (COLL), 2 p.

Jensen, J.C. 1932. The relation of branching of lightning discharges to changes in the electrical field of thunderstorms. Phys. Rev. 40: 1012-4.

Jensen, J.C. 1933. The branching of lightning and the polarity of thunderclouds. J. Franklin Inst. 216: 707-47.

Kawasaki, Z-I., and Mazur, V. 1992a. Common physical processes in natural and triggered lightning in winter storms in Japan. J. Geophys. Res. 97: 12,935-45.

Kawasaki, Z-I., and Mazur, V. 1992b. Common physical processes in natural and triggered lightning in winter storms in Japan. Res. Lett. Atmos. Electr. 12: 61-70.

Kawasaki, Z-I., Nakano, M., Takeuti, T., Nagatani, M., Nakada, H., Mizuno, Y., and Nagai, T. 1987. Fourier spectra of positive lightning fields during winter thunderstorms. Res. Lett. Atmos. Electr. 7: 29-34.

Knupp, K.R., Geerts, B., and Goodman, S.J. 1998. Analysis of a small, vigorous mesoscale convective system in a low-shear environment. Part I: Formation, radar echo structure, and lightning behavior. Mon Wea. Rev. 126: 1812-36.

Krehbiel, P.R. 1981. An analysis of the electric field change produced by lightning, Ph.D. Thesis, University of Manchester Institute of Science and Technology, Manchester, England, (available as Report T-11, Geophys. Res. Ctr., New Mexico Inst. Mining and Tech., Socorro, NM87801, 1981).

Krehbiel, P.R., Brook, M., and McCrory, R. 1979. An analysis of the charge structure of lightning discharges to the ground. J. Geophys. Res. 84: 2432-56.

Krider, E.P., Leteinturier, C., and Willett, J.C. 1996. Submicrosecond fields radiated during the onset of first return strokes in cloud-to-ground lightning, J. Geophys. Res. 101: 1589-97.

Lacerda, M., Pinto, O., Pinto, I.R.C.A., Diniz, J.H., and Carvalho, A.M. 1999. Analysis of negative downward lightning current curves from 1985 to 1994 at Morro do Cachimbo research station (Brazil). In Proc. 11th Int. Conf. on Atmospheric Electricity, Guntersville, Alabama, pp. 42-45.

Laroche, P., Eybert-Berard, A., and Barret, L. 1985. Triggered lightning flash characteristics. In Proc. 10th Int. Aerospace and Ground Conf. on Lightning and Static Electricity, Paris, France, pp. 231-239.

Latham, D. 1991. Lightning flashes from a prescribed fire-induced cloud. J. Geophys. Res. 96: 17,151-7.

Le Boulch, M., and Plantier, T. 1990. The Meteorage thunderstorm monitoring system: A tool for new EMC protection strategies. In Proc. 20th Int. Conf. on Lightning Protection. Interlaken, Switzerland, Paper 6.13P, 8 p.

Les Renardieres Group. 1977. Positive discharges in long air gaps at Les Renardieres, 1975 results and conclusions. Electra 53: 31-153.

Levin, Z., Yair, Y., and Ziv, B. 1996. Positive cloud-to-ground flashes and wind shear in Tel-Aviv thunderstorms. Geophys. Res. Lett. 23: 2231-4.

Lewis, W.W., and Foust, C.M. 1945. Lightning investigation on transmission lines, Pt. 7. Trans. AIEE 64: 107-15.

Liu, X.-S., Wang, C., Zhang, Y., Xiao, Q., Wang, D., Zhou, Z., and Guo, C. 1994. Experiment of artificially triggering lightning in China. J. Geophys. Res. 99: 10,727-31.

Liu, X., and Zhang, Y. 1998. Review of artificially triggered lightning study in China. Trans. IEE Japan 118-B (2): 170-5.

Lopez, R.E., Holle, R.L., Watson, A.I., and Skindlov, J. 1997. Spatial and temporal distributions of lightning over Arizona from a power utility perspective. J. Appl. Meteor. 36: 825-31.

Lopez, R.E., Maier, M.W., and Holle, R.L. 1991. Comparison of the signal strength of positive and negative cloud-to-ground lightning flashes in northeastern Colorado. J. Geophys. Res. 96: 22,307-18.

Lyons, W.A. 1996. Sprite observations above the U.S. high plains in relation to their parent thunderstorm systems. J. Geophys. Res. 101: 29,641-52.

Lyons, W.A., Nelson, T.E., Williams, E.R., Cramer, J.A., and Turner, T.R. 1998a. Enhanced positive cloud-to-ground lightning in thunderstorms ingesting smoke from fires. Science 282: 77-80.

Lyons, W.A., Uliasz, M., and Nelson, T.E. 1998b. Large peak current cloud-to-ground lightning flashes during the summer months in the contiguous United States. Mon. Wea. Rev. 126: 2217-33.

MacGorman, D.R., and Burgess, D.W. 1994. Positive cloud-to-ground lightning in tornadic storms and hailstorms. Mon. Wea. Rev. 122: 1671-97.

MacGorman, D.R., and Morgenstern, C.D. 1998. Some characteristics of cloud-to-ground lightning in mesoscale convective systems. J. Geophys. Res. 103: 14,011-23.

MacGorman, D.R., and Nielsen, K.E. 1991. Cloud-to-ground lightning in a tornadic storm on 8 May 1986. Mon. Wea. Rev. 119: 1557-74.

MacGorman D.R., and Taylor, W.L. 1989. Positive cloud-to-ground lightning detection by a direction-finder network. J. Geophys. Res. 94: 13,313-8.

Mach, D.M, and Rust, W.D. 1993. Two-dimensional velocity, optical risetime, and peak current estimates for natural positive lightning return strokes. J. Geophys. Res. 98: 2635-8.

Mackerras, D. 1968. A comparison of discharge processes in cloud and ground lightning. J. Geophys. Res. 73: 1175-83.

Mackerras, D. 1973. Photoelectric observations of the light emitted by lightning flashes. J. Atmos. Terr. Phys. 35: 521-35.

Mackerras, D., and Darveniza, M. 1994. Latitudinal variation of lightning occurrence characteristics. J. Geophys. Res. 99: 10,813-21.

Marshall, T.C. 2000. Comment on "'Spider' lightning in intracloud and positive cloud-to-ground flashes" by Vladislav Mazur, Xuan-Min Shao, Paul R. Krehbiel. J. Geophys. Res. 105: 7397-9; Reply, 7401-2.

Marshall, T.C., Stolzenburg, M., and Rust, W.D. 1996. Electric field measurements above mesoscale convective systems. J. Geophys. Res. 101: 6979-96.

Marshall, T.C., Stolzenburg, M., Rust, W.D., Williams, E.R., and Boldi, R. 2001. Positive charge in the stratiform cloud of a mesoscale convective system. J. Geophys. Res. 106: 1157-63.

Matsumoto, Y., Sakuma, O., Shinjo, K., Saiki, M., Wakai, T., Sakai, T., Nagasaka, H., Motoyama, H., Ishii., M. 1996. Measurement of lightning surges on test transmission line equipped with arresters struck by natural and triggered lightning. IEEE Trans. Pow. Del. 11: 996-1002.

Mazur, V., Shao, X.M., and Krehbiel, P. 1998. "Spider" lightning in intracloud and positive cloud-to-ground flashes. J. Geophys. Res. 103: 19,811-22.

McEachron, K.B. 1939. Lightning to the EmpireStateBuilding. J. Franklin Inst. 227: 149-217.

McEachron, K.B. 1941. Lightning to the EmpireStateBuilding. AIEE Trans. 60: 885-90.

Miyake, K., Suzuki, T., and Shinjou, K. 1992. Characteristics of winter lightning current on JapanSea coast. IEEE Trans. Pow. Del. 7: 1450-6.

Mohr, K.I., Toracinta, E.R., Zipser, E.J., and Orville, R.E. 1996. A comparison of WSR-88D reflectivities, SSM/I brightness temperatures, and lightning for mesoscale convective systems in Texas. Part II: SSM/I brightness temperatures and lightning. J. App. Meteor. 35: 919-31.

Molinari, J., Moore, P., and Idone, V. 1999. Convective structure of hurricanes as revealed by lightning locations. Mon. Wea. Rev. 127: 520-34.

Molinie, G, Soula, S., and Chauzy, S. 1999. Cloud-to-ground lightning activity and radar observations of storms in the Pyrenees range area. Q.J.R. Meteorol. Soc. 125: 3103-22.

Moore, P.K., and Orville, R.E. 1990. Lightning characteristics in lake-effect thunderstorms. Mon. Wea. Rev. 118: 1767-82.

Murray, N.D., Orville, R.E., and Huffines, G.R. 2000. Effect of pollution from Central American fires on cloud-to-ground lightning in May 1998. Geophys. Res. Lett. 27: 2249-52.

Nakahori, K., Egawa, T., and Mitani, H. 1982. Characteristics of winter lightning currents in Hokuriku district. IEEE Trans. Pow. Appar. Syst. PAS-101: 4407-12.

Nakano, M. 1979. Initial streamer of the cloud discharge in winter thunderstorms of the Hokuriku coast. J. Meteor. Soc. Japan 57: 452-8.

Nakano, M., Kawasaki, Z.-I., Takeuti, T., Sirai, T., and Kawamata, Y. 1989. VHF/UHF radiation from positive and negative lightning. In Proc. URSI Symp. on Environ. and Space Electromagnetics, Tokyo, Japan, pp. 459-465.

Nakano, M., Nagatani, M., Nakada, H., Takeuti, T., and Kawasaki, Z. 1987. Measurements of the velocity change of a lightning return stroke with height. Res. Lett. Atmos. Electr. 7: 25-8.