Polar Lows - Moist Baroclinic Cyclones in Four Different Vertical Wind Shear Environments
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https://hdl.handle.net/10037/23119Date
2021-01-15Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Polar lows are intense mesoscale cyclones that
develop in polar marine air masses. Motivated by the large
variety of their proposed intensification mechanisms, cloud
structure, and ambient sub-synoptic environment, we use
self-organising maps to classify polar lows. The method is
applied to 370 polar lows in the north-eastern Atlantic, which
were obtained by matching mesoscale cyclones from the
ERA-5 reanalysis to polar lows registered in the STARS
dataset by the Norwegian Meteorological Institute. ERA-5
reproduces most of the STARS polar lows.
We identify five different polar-low configurations which
are characterised by the vertical wind shear vector, the
change in the horizontal-wind vector with height, relative to
the propagation direction. Four categories feature a strong
shear with different orientations of the shear vector, whereas
the fifth category contains conditions with weak shear. This
confirms the relevance of a previously identified categorisation into forward- and reverse-shear polar lows. We expand
the categorisation with right- and left-shear polar lows that
propagate towards colder and warmer environments, respectively.
For the strong-shear categories, the shear vector organises
the moist-baroclinic dynamics of the systems. This is apparent in the low-pressure anomaly tilting with height against
the shear vector and the main updrafts occurring along the
warm front located in the forward-left direction relative to the
shear vector. These main updrafts contribute to the intensification through latent heat release and are typically associated
with comma-shaped clouds.
Polar-low situations with a weak shear, which often feature spirali-form clouds, occur mainly at decaying stages of
the development. We thus find no evidence for hurricane-like
intensification of polar lows and propose instead that spiraliform clouds are associated with a warm seclusion process.
Publisher
Copernicus PublicationsCitation
Stoll P, Spengler T, Terpstra A, Graversen R. Polar Lows - Moist Baroclinic Cyclones in Four Different Vertical Wind Shear Environments. Weather and Climate Dynamics (WCD). 2021;2:19-36Metadata
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