Negative water vapour skewness and dry
tongues in the convective boundary layer: observations and large-eddy
simulation budget analysis
Couvreux, F., F. Guichard, V. Masson and J-L. Redelsperger
2007
Boundary-Layer Meteorology, 123, 269-294
CNRM-GAME, CNRS & Météo-France, Toulouse, France
Abstract
This
study focuses on the intrusion of dry air into the convective boundary
layer (CBL) originating from the top of the CBL. Aircraft in-situ
measurements from the IHOP_2002 field campaign indicate a prevalence of
negative skewness of the water vapour distribution within the growing
daytime CBL over land. This negative skewness is interpreted according
to large-eddy simulations (LES) as the result of descending dry
downdrafts originating from above the mixed layer. LES are used to
determine the statistical properties of these intrusions: their size
and thermodynamical characteristics. A conditional sampling analysis
demonstrates their significance in the retrieval of moisture variances
and fluxes. The rapid CBL growth explains why greater negative skewness
is observed during the growing phase: the large amounts of dry air that
are quickly incorporated into the CBL prevent a full homogenisation by
turbulent mixing. The boundary-layer warming in this phase also plays a
role in the acquisition of negative buoyancy for these dry tongues, and
thus possibly explains their kinematics in the lower CBL. Budget
analysis helps to identify the processes responsible for the negative
skewness. This budget study underlines the main role of turbulent
transport, which distributes the skewness produced at the top or the
bottom of the CBL into the interior of the CBL. The dry tongues
contribute significantly to this turbulent transport.