Geoscience Reference
In-Depth Information
Lee, W.-C., R. M. Wakimoto, and R. E. Carbone (1992) The evolution and structure of a
bow-echo-microburst event, Part II: The bow echo. Mon. Wea. Rev., 120, 2211-2225.
Lemon, L. R. (1998) The radar three-body scatter spike: An operational large-hail signature.
Wea. Forecasting, 13, 327-340.
Li, L., G. M. Heymsfield, P. E. Racette, L. Tian, and E. Zenker (2004) A 94-GHz cloud radar
system on a NASA high-altitude ER-2 aircraft. J. Atmos. Oceanic Technol., 21, 1378-
1388.
Ludlam, F. H. (1963) Severe local storms: A review. Severe Local Storms, Meteorological
Monograph 27, no. 5, American Meteorological Society, Boston, pp. 1-30.
Ludlam, F. (1966) Cumulus and cumulonimbus convection. Tellus, 18, 687-698.
Martner, B. E. (1995) Doppler radar observations of mammatus. Mon. Wea. Rev., 123, 3115-
3121.
Marwitz, J. D. (1972) The structure and motion of severe hailstorms, Part I: Supercell storms.
J. Appl. Meteor., 11, 166-179.
Marwitz, J. D. (1972) The structure and motion of severe hailstorms, Part II: Multicell storms.
J. Appl. Meteor., 11, 180-188.
Marwitz, J. D. (1972) The structure and motion of severe hailstorms, Part I: Severely sheared
storms. J. Appl. Meteor., 11, 189-201.
McCann, D. W. (1983) The enhanced-V: A satellite observable severe storm signature. Mon.
Wea. Rev., 111, 887-894.
McPherson, R. A., J. D. Lane, K. C. Crawford, and W. G. McPherson (2010) A
climatological analysis of heatbursts in Oklahoma (1994-2009). Int. J. Climatology,
Roy. Meteor. Soc., 14 pp (
http://onlinelibrary.wiley.com/doi/10.1002/joc.2087/pdf ).
Moncrieff, M. W. (1981) A theory of organized steady convection and its transport properties.
Quart. J. Roy. Meteor. Soc., 107, 29-50.
Musil, D. J., S. A. Christopher, R. A. Deola, and P. L. Smith (1991). Some interior
observations of southeastern Montana hailstorms. J. Appl. Meteor., 30, 1596-1612.
Newton, C. W. (1950) Structure and mechanism of the prefrontal squall line. J. Meteor., 7,
210-222.
Parsons, D. B. and R. A. Kropfli (1990) Dynamics and fine structure of a microburst. J. Atmos.
Sci., 47, 1674-1692.
Parsons, D. B. and M. L. Weisman (1993) A numerical study of a rotating downburst.
J. Atmos. Sci., 50, 2369-2385.
Peterson, R. E. (1984) A triple-Doppler radar analysis of a discretely propagating multicell
convective storm. J. Atmos. Sci., 41, 2973-2990.
Roberts, R. D. and J. W. Wilson (1989) A proposed microburst nowcasting procedure using
single-Doppler radar. J. Appl. Meteor., 28, 285-303.
Rotunno, R., J. B. Klemp, and M. L. Weisman (1988) A theory for strong, long-lived squall
lines. J. Atmos. Sci., 45, 463-485.
Schultz, D. M., K. M. Kanak, J. M. Straka, R. J. Trapp, B. A. Gordon, D. S. Zrnic, G. H.
Bryan, A. J. Durant, T. J. Garrett, P. M. Klein, and D. K. Lilly (2006) The mysteries of
mammatus clouds: Observations and formation mechanisms. J. Atmos. Sci., 63, 2409-
2435.
Simpson, J. E. (1997) Gravity Currents in the Environment and the Laboratory, Second Edition,
Cambridge University Press, Cambridge, U. K., 244 pp.
Srivastava, R. C. (1985) A simple model of evaporatively driven downdraft: Application to
microburst downdraft. J. Atmos. Sci., 42, 1004-1023.
Srivastava, R. C. (1987) A model of intense downdrafts driven by the melting and evaporation
of precipitation. J. Atmos. Sci., 44, 1752-1773.
Search WWH ::
Custom Search