Abstract
Abstract. Temperature and water vapor variations due to clouds in the tropical tropopause layer (TTL) are investigated using co-located MLS, CALIPSO, and CloudSat data. Convective cooling occurs only up to the cloud tops, with warming above these heights in the TTL. Water vapor and ozone anomalies above the cloud tops are consistent with the warming being due to downward motion. Thicker clouds are associated with larger anomalies. Environmental water vapor below cloud tops can be either higher or lower than when clouds are absent, depending on the cloud top height. The critical factor determining the sign of this change appears to be the relative humidity. In general cloud-forming processes hydrate the environment below 16 km, where the air after mixing between cloud and the environmental air does not reach saturation, but clouds dehydrate above 16 km, as the larger temperature drop and the high initial relative humidity cause supersaturation to occur. Negative water vapor anomalies above cloud tops compared to clear skies suggest another dehydration mechanism operating above the detected cloud layers.
Highlights
The tropical tropopause is important for understanding the future state of our climate system because tropospheric air, which includes water vapor and other trace gases, enters the stratosphere preferentially through this layer (Brewer, 1949)
We focus especially on cloud top height in order to investigate how cloud ice influences environmental temperature and water vapor variations
Warm anomalies occur up to 13 km, followed by Figure 1 shows the zonal distribution of cloud top height fre- colder temperatures near the tropical tropopause layer (TTL) over the western Pacific quency averaged over the period from May 2008 to January where strong deep convection frequently occurs
Summary
The role of tropical deep convective clouds on temperature, water vapor, and dehydration in the tropical tropopause layer (TTL). Discuss.: 7 April 2010 Revised: 1 April 2011 – Accepted: 17 April 2011 – Published: 27 April 2011
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