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Download Chapter 10 – Mid-Latitude Cyclones
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Chapter 10 – Mid-Latitude Cyclones Understanding Weather and Climate Aguado and Burt ATMO 1300 Mid Latitude Cyclone Life Cycle • Polar front separates cold easterlies and westerlies. ATMO 1300 1 Mid Latitude Cyclone Life Cycle • A kink forms on the front and cold air starts to move southward. Warm air starts to move northward. • Cyclogenesis occurs ATMO 1300 Mid Latitude Cyclone Life Cycle • Cold air continues to move south, and warm air north. Fronts develop and low pressure develops in the center. ATMO 1300 2 Mid Latitude Cyclone Life Cycle • Cyclone matures, warm and cold fronts become more established. ATMO 1300 Mid Latitude Cyclone Life Cycle • Cyclone occludes (end of life cycle) and cyclone decay starts ATMO 1300 3 Precipitation Patterns ATMO 1300 Vorticity • Vorticity - the turning of an object usually with respect to the vertical direction. • Relative Vorticity – vorticity relative to the Earths surface – Speed Shear – Curvature • Earth vorticity – Vorticity due to the Earth’s daily rotation about its axis. ATMO 1300 4 Vorticity ATMO 1300 Vorticity • Clockwise rotation yields negative vorticity • Counterclockwise rotation yields positive vorticity • Related to convergence and divergence! ATMO 1300 5 Upper Air Motions ATMO 1300 Upper Air Motions ATMO 1300 6 Divergence and Convergence • Divergence aloft, caused by decreasing vorticity, draws air upward, providing a lifting mechanism that can initiate or help maintain surface low pressure. • Convergence aloft, caused by increasing vorticity, promotes sinking air, and surface high pressure. ATMO 1300 Divergence and Convergence • Speed Divergence and Convergence ATMO 1300 7 Divergence and Convergence • Diffluence and Confluence ATMO 1300 Linking Upper Levels to the Surface ATMO 1300 8 Linking Upper Levels to the Surface • Upper-level divergence causes the formation and intensification of surface mid-latitude cyclones. • Upper-level convergence causes high pressure at the the surface. ATMO 1300 Mid-Latitude Cyclone ATMO 1300 9 Mid-Latitude Cyclone ATMO 1300 Mid-Latitude Cyclone ATMO 1300 10 Mid-Latitude Cyclone ATMO 1300 Large-Scale Flow Patterns • Zonal flow – upper level winds moving mainly west to east. – No vorticity – No divergence or convergence • Meridional flow – upper level winds moving north and south – Provide for vorticity – Provide for convergence and divergence ATMO 1300 11 Short Waves • Smaller ripples superimposed on the larger scaled Rossby waves • They can enhance or reduce the local divergence and convergence • Formation is dependent on temperature advection – Warm air advection – horizontal movement of warm air – Cold air advection – horizontal movement of cold air ATMO 1300 Barotropic Conditions ATMO 1300 12 Baroclinic Conditions • Cold Air Advection Warm Air Advection ATMO 1300 The Result of Temperature Advection ATMO 1300 13
