Abstract
Abstract. The EU HIBISCUS project consisted of a series of field campaigns during the intense convective summers in 2001, 2003 and 2004 in the State of São Paulo in Brazil. Its objective was to investigate the impact of deep convection on the Tropical Tropopause Layer (TTL) and the lower stratosphere by providing a new set of observational data on meteorology, tracers of horizontal and vertical transport, water vapour, clouds, and chemistry in the tropical Upper Troposphere/Lower Stratosphere (UT/LS). This was achieved using short duration research balloons to study local phenomena associated with convection over land, and long-duration balloons circumnavigating the globe to study the contrast between land and oceans. Analyses of observations of short-lived tracers, ozone and ice particles show strong episodic local updraughts of cold air across the lapse rate tropopause up to 18 or 19 km (420–440 K) in the lower stratosphere by overshooting towers. The long duration balloon and satellite measurements reveal a contrast between the composition of the lower stratosphere over land and oceanic areas, suggesting significant global impact of such events. The overshoots are shown to be well captured by non-hydrostatic meso-scale Cloud Resolving Models indicating vertical velocities of 50–60 m s−1 at the top of the Neutral Buoyancy Level (NBL) at around 14 km, but, in contrast, are poorly represented by global Chemistry-Transport Models (CTM) forced by Numerical Weather Forecast Models (NWP) underestimating the overshooting process. Finally, the data collected by the HIBISCUS balloons have allowed a thorough evaluation of temperature NWP analyses and reanalyses, as well as satellite ozone, nitrogen oxide, water vapour and bromine oxide measurements in the tropics.
Highlights
The tropical Upper Troposphere/Lower Stratosphere (UT/LS) is a key region for both stratospheric ozone depletion and climate
Ground-based instruments and meteorological products were provided by the TroCCiBras project (Held et al, 2007, 2008), which were essential for operations and interpretation of balloon data: i. two Doppler S-band Doppler radars at Bauru (BRU) and at Presidente Prudente (PPR) located 240 km west of Bauru in the direction of the balloon flights were extensively used for balloon flight decisions; ii
The rich observational data set collected during the HIBISCUS campaigns has been used for a variety of investigations: (i) the impact of convection on the thermal structure, the composition and the water vapour concentration in the Tropical Tropopause Layer (TTL) and the lower stratosphere; (ii) the identification of possible biases in Numerical Weather Prediction (NWP) model temperatures in the lower stratosphere and trends in their re-analyses, by comparison with measurements of French long duration balloons flights performed in the tropics since 1988; and (iii) the evaluation of ozone, water vapour, and chemical species satellite retrievals in the tropics
Summary
The tropical Upper Troposphere/Lower Stratosphere (UT/LS) is a key region for both stratospheric ozone depletion and climate. It is only recently that space-borne precipitation radar (PR) and visible-IR imager (VIIRS) observations aboard the NASA Tropical Rainfall Measurements Mission satellite (TRMM) have shown that land convective systems, developing in the afternoon, reached higher altitudes than maritime systems (Nesbitt et al, 2000; Alcala and Dessler, 2002; Nowicky and Merchant, 2004; Liu and Zipser, 2005) Within this context, the objectives of HIBISCUS were to provide a set of new observational data on meteorology, tracers of horizontal and vertical transport, water vapour, clouds, and chemistry in the tropical UT/LS from balloon observations at local scale within a subtropical convective land area in Brazil, as well as at global scale using circumnavigating long-duration balloons, for studying the contrast between continents and oceans, the representation of temperature and wind in the Numerical Weather Prediction (NWP) models analyses, and the performances of satellite ozone and chemicals measurements in the tropics. This overview describes the background of the project, including the available observational and modelling tools, and highlights the most significant results
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