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Issues as seemingly clear- cut as the 3-D structure and evolution of mid- latitude cyclones are hotly debated topics. My research interests include the diagnosis of the structure of midwest winter cyclones and the effect that that structure has on both the production and distribution of precipitation within these cyclones. This work involves a combination of observational analysis (in which a multi-scale approach is used) as well as the use of high resolution meoscale numerical model simulations of selected storms. The "multi-scale" approach means that we consider processes that vary in scale from the planetary scale effects of the Rocky Mountain cordillera on the baroclinically unstable westerly flow, down to the micron-sized cloud microphysical processes responsible for the production of individual precipitation particles. This approach is compelled by the fact that the precipitation production and distribution in cyclones is the result of a scale interaction between all scales of motion in the atmosphere and that a consistent description of how the mid-latitutde cyclone really works cannot be given without considering all of these scale-dependent processes.
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Jonathan E. Martin, Taylor Norton
WEATHER AND CLIMATE DYNAMICSno. 4 (2023): 875-886
QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETYno. 754 (2023): 1990-2010
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