Abstract
The present study aims to provide a comprehensive analysis of the convective tropopause height (COTH) and temperature (COT-T) over the tropics using long-term radio occultation (RO) measurements from the Formosa Satellite Mission 3–Constellation Observing System for Meteorology, Ionosphere and Climate (FORMOSAT-3/COSMIC) from July 2006 to December 2018. The study reveals that the COT-H (COT-T) exhibits a significant longitudinal structure with a maximum (minimum) over the Western Pacific and two secondary maxima (minima) over the American and African regions. The seasonal cycles of COT-H and COT-T are also prominent, with higher and colder values over the Western Pacific in boreal winter and over the Indian region in boreal summer. This seasonality in COT-H and COT-T is consistent with the seasonal process of tropical convective activity and is explained by outgoing longwave radiation (OLR) data. The correlation analysis shows that COT-H (COT-T) is negatively (positively) correlated with OLR, with the highest correlation found in the Indian region. Additionally, the study investigates the relationship between COT-H (COT-T) and upper tropospheric water vapor (UTWV) over the various regions in the tropics. Over the Indian region, the COT-H (COT-T) exhibits a positive (negative) correlation with UTWV, while over the Western Pacific, American, and African regions, it displays a negative (positive) correlation. Finally, the spatial distribution of the convective tropopause in El Niño and La Niña winters was examined. Results show that the COT-H (COT-T) is higher (lower) over the central and eastern Pacific Ocean and lower (higher) over the maritime continent during El Niño compared with La Niña.
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