The Role of Radiation in Heating the Clear-Air Convective Boundary Layer: Revisiting CASES-97

Abstract

Using data for 3 days in the Cooperative Atmosphere-Surface Exchange Study 1997 field experiment that are analyzed in LeMone et al. (Boundary-Layer Meteorol 104:1–52, 2002, hereafter L2002), it is shown that direct radiative heating can have a significant role in warming the nearly cloudless fair-weather convective boundary layer (CBL). Radiative heating becomes especially important in the presence of aerosols in the CBL, with a moist layer above the CBL also contributing. Not only does inclusion of radiative heating help “close” their potential-temperature budgets, but it affects entrainment estimates. Combined, radiative heating rates are of the order of 0.2 K h−1, based on calculations using the Rapid-Radiative Transfer Model for general circulation models (RRTMG) code in a single-column version of the Advanced Research Weather Research and Forecasting model and estimates of aerosol heating published in L2002. Our current estimates of clear-air direct radiative heating differ from the estimates in L2002 because the surface skin temperature was not included in the earlier calculations. Upwelling and downwelling longwave radiation computed using the RRTMG code agrees with aircraft measurements within 10–15 W m−2.