Abstract
Abstract Detailed observational data are used to simulate the sensitivity of clear-sky outgoing longwave radiation (OLR) to water vapor perturbations in order to investigate the effect of uncertainties in water vapor measurements and spectroscopic parameters. Seasonal, geographical, and spectral variations in the clear-sky OLR, and of zonal mean clear-sky atmospheric cooling rate profiles are calculated for this purpose. Outside of deep convective regions, when only water vapor is varied, it is found that the 20–30-μm waveband of the far infrared (FIR) is the most substantial influence on the clear-sky OLR change. By contrast, the largest contribution to the clear-sky OLR variation in deep convective areas is from the continuum. Similarly, seasonal clear-sky infrared cooling rates are largely determined by contributions from the FIR and continuum, with a systematic variation in these contributions with latitude and altitude. The results presented reinforce the conclusions of recent studies that the lack o...
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