Datensatz

Zusammenfassung

Measurements of vertical profiles of areal mean mass divergence, vorticity and vertical velocity, based on dropsondes distributed over an area of 25000 km2, are presented. The dropsondes were released with high frequency along circular flight patterns during an airborne field campaign taking place over the tropical Atlantic near Barbados. Vertical profiles of the area-averaged mass divergence and vorticity were computed from the horizontal wind profiles, and the area-averaged vertical velocity was then inferred from the divergence. The consistency of measurements over pairs of circles flown within the same air mass demonstrated the reproducibility of the measurements, and showed that they characterize the environmental conditions on the scale of the measurement, rather than being dominated by measurement error or small-scale wind variability. The estimates from dropsondes were found to be consistent with the observed cloud field, with Lagrangian estimates of the mean vertical velocity inferred from the free-tropospheric humidity field, and with the mean vertical velocity derived from simulations using an atmospheric model representing kilometer-scale motions and initialized with meteorological analyses. In trade-wind like conditions, the divergence and vorticity profiles exhibit a rich vertical structure and a significant variability in space and time. Yet, a few features appear to be robust, such as the presence of layers of mass convergence at the top of moist layers, extrema of the area-averaged vertical velocity at the top of the sub-cloud layer and in the mid-troposphere, and minima around the trade-inversion near 2 km. The analysis of spatial and temporal auto-correlation scales suggests that the divergent mass field measured from dropsondes is representative of the environment of shallow clouds.