Abstract
Abstract. During the VOCALS campaign spaceborne satellite observations showed that travelling gravity wave packets, generated by geostrophic adjustment, resulted in perturbations to marine boundary layer (MBL) clouds over the south-east Pacific Ocean (SEP). Often, these perturbations were reversible in that passage of the wave resulted in the clouds becoming brighter (in the wave crest), then darker (in the wave trough) and subsequently recovering their properties after the passage of the wave. However, occasionally the wave packets triggered irreversible changes to the clouds, which transformed from closed mesoscale cellular convection to open form. In this paper we use large eddy simulation (LES) to examine the physical mechanisms that cause this transition. Specifically, we examine whether the clearing of the cloud is due to (i) the wave causing additional cloud-top entrainment of warm, dry air or (ii) whether the additional condensation of liquid water onto the existing drops and the subsequent formation of drizzle are the important mechanisms. We find that, although the wave does cause additional drizzle formation, this is not the reason for the persistent clearing of the cloud; rather it is the additional entrainment of warm, dry air into the cloud followed by a reduction in longwave cooling, although this only has a significant effect when the cloud is starting to decouple from the boundary layer. The result in this case is a change from a stratocumulus to a more patchy cloud regime. For the simulations presented here, cloud condensation nuclei (CCN) scavenging did not play an important role in the clearing of the cloud. The results have implications for understanding transitions between the different cellular regimes in marine boundary layer (MBL) clouds.
Highlights
Background to the VOCALS studyThe VOCALS project took place from 15 October to 15 November 2008 in the southeast Pacific Ocean (SEP) to investigate the interactions between land, sea and atmosphere with the aim of improving representation of processes in the region in both global and regional models
The Large eddy modelling (LEM) was used to investigate the effect of the imposed As there was some variability in the amplitude of the obwave on the dynamics and microphysics of the stratocumu- served gravity waves, we have looked at the effect of wave lus clouds
– Gravity waves are able to promote irreversible changes to the cloud microphysics inside Sc clouds, such that the resulting thermodynamics alter the dynamics of the marine boundary layer (MBL), and lead to a more patchy cloud regime, which may be associated with POCs
Summary
Background to the VOCALS studyThe VOCALS project took place from 15 October to 15 November 2008 in the SEP to investigate the interactions between land, sea and atmosphere with the aim of improving representation of processes in the region in both global and regional models. Wood et al, 2011b,a; Allen et al, 2011) and so the details will not be repeated here; rather we will present an overview of the campaign and discuss the measurements relevant to this paper. There were no in situ observations on this day and so the model simulations presented in this paper are idealised and have been developed from observed statistics taken from VOCALS flight data (Bretherton et al, 2010; Allen et al, 2011). Additional condensation causes cloud drops to become larger colliding and coalescing to form rain. Water is lost from the cloud and evaporating rain creates cold pools, cutting off closed cells and initiating more convection Cloud and inversion drops down to below the original level (and is adiabatically warmed) before rising back to the original level.
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