A numerical investigation of squall lines. Part II: the mechanics of evolution

Abstract

Both the thermal and dynamic effects are important in the development of the midlevel meso-γ-scale low pressure zone located just to the rear of the convective core. A positive feedback mechanism is proposed to explain the abrupt transformation of the more or less upright convection line into a quasi-steady meso-β-scale convective system possessing an extensive trailing stratiform region. In order to set the stage for this transformation to take place, the convective updraft is required to possess an initial upshear tilt. Qualitative arguments are given to show that this initial tilt might be the result of a moderate wind shear at low levels and none or reverse shear in the middle to high levels. In addition to the dynamic effects of the low-level wind shear and the strength of the storm-induced cold pool, model results show that other storm-induced features and environmental factors such as the middle-level wind shear also play an important role in determining the evolution of squall systems. -Authors