Numerical Simulation of Mesoscale Circulations in a Region of Contrasting Soil Types

Autor: Ryan Boyles, Robb Ellis, Aaron P. Sims, Sethu Raman
Rok vydání: 2005
Předmět:
Zdroj: Pure and Applied Geophysics. 162:1689-1714
ISSN: 1420-9136
0033-4553
DOI: 10.1007/s00024-005-2689-4
Popis: Mesoscale processes that form due to changes in surface characteristics play a dominant role in the development of the planetary boundary layer structure and the formation of convection. In this study, effects of the Sandhills region of North and South Carolina on mesoscale processes are examined. Climatological analyses indicate increased convective precipitation in this location as compared to the surrounding region. This is believed to be due to enhanced convection induced by horizontal heat flux gradients caused by sharp changes in soil type and hence the heat capacity of the soil. Simulations using a non-hydrostatic mesoscale model (MM5 version 3.3) were made for a non-precipitation case with a 5-km resolution domain centered over the Carolinas from August 15, 2000 to August 18, 2000. The results showed the existence of a mesoscale circulation over the Sandhills region. Differential heating induced by contrasting soil types dividing the Coastal Plain from the central Piedmont causes this circulation. Sea-breeze circulation often combines with the Sandhills circulation to initiate convection in this region. Diurnal variations are handled well by the model indicating that the thermodynamic structure of the atmosphere is well simulated.
Databáze: OpenAIRE
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