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Abstract
This paper investigates the effects of surface drag on upper-level front with a three-dimensional nonhydrostatic mesoscale numerical model (MM5). To this end, a new and simple potential vorticity intrusion (PVI) index is proposed to quantitatively describe the extent and path that surface drag affects upper-level front. From a PV perspective, the formation of the upper-level front is illustrated as the tropopause folding happens from the stratosphere. The PVI index shows a good correlation with the minimum surface pressure, and tends to increase with the deepening of the surface cyclone and upper-level front. The surface drag acts to damp and delay the development of upper-level front, which could reduce the growth rate of the PVI index. However, the damping presents different effects in different development stages. It is the most significant during the rapid development stage of the surface cyclone. Compared with no surface drag cases, the tropopause is less inclined to intrude into the troposphere due to the surface drag. Positive feedback between the surface cyclone and upper-level front could accelerate the development of the frontal system.
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Citation
ZHANG Yi, TAN Zhemin, CHU Kekuan. 2016: Effects of Surface Drag on Upper-Level Frontogenesis within a Developing Baroclinic Wave. Journal of Meteorological Research, 30(5): 706-718. DOI: 10.1007/s13351-016-6018-x
ZHANG Yi, TAN Zhemin, CHU Kekuan. 2016: Effects of Surface Drag on Upper-Level Frontogenesis within a Developing Baroclinic Wave. Journal of Meteorological Research, 30(5): 706-718. DOI: 10.1007/s13351-016-6018-x
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ZHANG Yi, TAN Zhemin, CHU Kekuan. 2016: Effects of Surface Drag on Upper-Level Frontogenesis within a Developing Baroclinic Wave. Journal of Meteorological Research, 30(5): 706-718. DOI: 10.1007/s13351-016-6018-x
ZHANG Yi, TAN Zhemin, CHU Kekuan. 2016: Effects of Surface Drag on Upper-Level Frontogenesis within a Developing Baroclinic Wave. Journal of Meteorological Research, 30(5): 706-718. DOI: 10.1007/s13351-016-6018-x
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