22nd Conference on Climate Variability and Change

1.4

Intraseasonal variations in tropical deep convection, tropospheric mean temperature and cloud-induced radiative fluxes

Holly S. Ramey, Univ. of Alabama, Huntsville, AL; and F. R. Robertson

Intraseasonal variability of deep convection represents a fundamental mode of variability in the organization of tropical convection. While most studies of intraseasonal oscillations (ISOs) have focused on the spatial propagation and dynamics of convectively coupled circulations, we examine the projection of ISOs on the tropically-averaged temperature and energy budget. The area of interest is the global oceans between 20oN/S. Our analysis then focuses on these questions: (i) How is tropospheric temperature related to tropical deep convection and the associated ice cloud fractional amount (ICF) and ice water path (IWP)? (ii) What is the source of moisture sustaining the convection and what role does deep convection play in mediating the PBL – free atmospheric temperature equilibration? (iii) What affect do convectively generated upper-tropospheric clouds have on the TOA radiation budget? Our methodology is similar to that of Spencer et al., (2007) with some modifications and some additional diagnostics of both clouds and boundary layer thermodynamics. A composite ISO time series of cloud, precipitation and radiation quantities built from nearly 40 events during a six-year period is referenced to the atmospheric temperature signal. The increase of convective precipitation cannot be sustained by evaporation within the domain, implying strong moisture transports into the tropical ocean area. While there is a decrease in net TOA radiation that develops after the peak in deep convective rainfall, there seems little evidence that an “Infrared Iris”-like mechanism is dominant. Rather, the cloud-induced OLR increase seems largely produced by reduced cloud cover with warmer cloud tops after deep convective rainfall has peaked. Tropical ISO events offer an accessible target for study not just in terms of propagation mechanisms, but for their tropically-averaged signals of heat, moisture and radiative flux feedback processes.

Recorded presentation

Session 1, Observed Seasonal to Interannual Variability: I Part 1
Monday, 18 January 2010, 11:00 AM-12:00 PM, B215

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