Cases-97: Late-Morning Warming And Moistening Of The Convective Boundary Layer Over The Walnut River Watershed |
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| Authors: | Margaret A LeMone Robert L Grossman Robert T Mcmillen Kuo-Nan Liou SC Ou Stuart Mckeen Wayne Angevine Kyoko Ikeda Fei Chen |
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| Institution: | (1) National Center for Atmospheric Research, Boulder, Colorado, 80307, U.S.A.;(2) PAOS, University of Colorado, Boulder, Colorado, U.S.A;(3) NOAA Atmospheric Turbulence and Diffusion Division, Oak Ridge, Tennessee, U.S.A;(4) Department of Atmospheric Science, UCLA, Los Angeles, California, U.S.A;(5) CIRES, University of Colorado and NOAA Aeronomy Laboratory, Boulder, Colorado, U.S.A |
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| Abstract: | Aircraft, radiosonde, surface-flux, and boundary-layer windprofiler data from the Cooperative Atmosphere Surface Exchange Study's 1997 field project, CASES-97, are combined with synoptic data to study the evolution of the vertically-averaged mixed-layerpotential temperature  ]and mixing-ratio Q] onthree nearly-cloudless days from 1000 CST to 1200CST (local noon is approximately 1230 CST). This was achieved through examination of the terms in the time-tendency (`budget')equations for ]and Q]. We estimate three of the terms –local time rate of change, vertical flux divergence, andhorizontal advection. For the Q]-budget, vertical flux divergence usually dominates, buthorizontal advection is significant on one of the three days. The Q]-budget balances for two of the three days to within the large experimental error. For the -budget,vertical flux divergence accounts for most of the morningwarming, with horizontal advection of secondary importance.The residual in the -budget has the same sign for all three days, indicating that not all the heating is accounted for. We can balance the ]-budgets to within experimental error on two of the three days by correcting the vertical-flux divergence for apparent low biases in the flux measurements of one of the aircraft and in the surface fluxes, and accounting for direct heating of the mixed layer by radiative flux divergence allowing for the effects of carbonaceous aerosols. The ];-budget with these corrections also balances on the third day if horizontal gradients from synoptic maps are used to estimate the horizontal advection. However, the corrected budget for this day does not balance if the horizontal gradient in the advection term is estimated using CASES-97aircraft and radiosondes; we suggest that persistent mesoscale circulations led to an overestimate of the horizontal gradient andhence horizontal advection. |
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| Keywords: | Convective boundary layer Diurnal cycle Mixed layer Radiative heating Surface-mixed layer interaction Vegetation and soil moisture effects |
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