References/Addendum
Corfidi, S.F., J.H. Merritt, and J.M. Fritsch, 1996: Predicting the movement of mesoscale convective complexes. Wea. Forecasting, 11: 41-46.
Corfidi, S. F. 2003: Cold Pools and MCS Propagation: Forecasting the Motion of Downwind-Developing MCSs. Wea. Forecasting, 6: 997–1017.
Doswell, C. A. , H. E. Brooks, R. A. Maddox, 1996: Flash Flood Forecasting: An Ingredients-Based Methodology. Weather and Forecasting, 11: 560-581.
Hane, C. E., H. B. Bluestein, T. M. Crawford, Michael E. Baldwin, Robert M. Rabin, 1997: Severe thunderstorm development in relation to alongdryline variability: A case study. Mon. Wea. Rev., 125: 231–251.
Koch, S, and C. A. Ray, 1997: Mesoanalysis of summertime convergence zones in central and eastern North Carolina. Wea. Forecasting, 12: 56–77.
Mahoney, W.P. III, 1988: Gust front characteristics and the kinematics associated with interacting thunderstorm outflows. Mon. Wea. Rev., 116: 1474-1491.
Purdom, J. F. W., 1976: Some uses of high resolution GOES imagery in the mesoscale forecasting of convection and its behavior. Mon. Wea. Rev., 104: 1474–1483.
Orlanski, I., 1975: A rational subdivision of scales for atmospheric processes. Bulletin of the American Meteorological Society, 56(5): 527-530.
Richardson, Y.P., 1999: The Influence of horizontal variations in vertical shear and low-level moisture on numerically simulated convective storms. Ph.D. Dissertation, School of Meteorology, University of Oklahoma - Norman, 236 pp.
Rotunno, R., J. B. Klemp, M. L. Weisman, 1988: A Theory for Strong, Long-Lived Squall Lines
Journal of the Atmospheric Sciences, 45(3): 463-485.
Weaver, J. F., 1979: Storm Motion as Related to Boundary-Layer Convergence. Mon. Wea. Rev., 107: 612–619.
Wilson, J. W. and W. E. Schreiber, 1986: Initiation of convective storms by radarobserved
boundary layer convergent lines. Mon. Wea. Rev., 114: 2516––2536.