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Cyclogenesis in Polar Airstreams

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Cyclogenesis in Polar Airstreams Not all midlatitude cyclones develop along the main polar front/baroclinic zone. Range in size from comma clouds (big) to polar lows ... – PowerPoint PPT presentation

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Title: Cyclogenesis in Polar Airstreams


1
Cyclogenesis in Polar Airstreams
  • Not all midlatitude cyclones develop along the
    main polar front/baroclinic zone.
  • Range in size from comma clouds (big) to polar
    lows (small)

2
Comma Clouds 500-1500 km
3
Polar Lows 100-500 km
4
Comma Clouds
  • Convection and sometimes stratiform-type clouds
    organized into a comma-shaped patterns
  • Smaller than normal synoptic systems and on the
    cold side of the midlatitude jet stream.
  • Most apparent over the oceans during a period
    with high-amplitude, long-wave trough development

5
Generally of a smaller scale (500 to 1000 km)
than classic midlatitude cyclones.
6
  • Frequently multiple with typical spacing of
    1000-1500 km

7
Usually associated with the region of positive
vorticity advection (PVA) associated with a
short-wave trough aloft.
8
Scale often grows in time, particularly as they
move through a long wave trough
9
Three Stages of Comma Cloud Development
  • Incipient Stage
  • Two troughs large scale one and other
    associated with developing comma
  • Appreciable baroclinicity with comma
  • Intensifying Stage
  • Convective elements grow in size and merge.
  • Size of system increases
  • Low center may appear
  • Stronger advections and front-like
    characteristics
  • Mature Stage
  • Large size and movement to the forward side of
    the long-wave trough.
  • Difficult to differentiate from a normal polar
    front cyclone

10
  • Associated with regions of appreciable
    baroclinicity (temperature gradient) on the cold
    side of a major baroclinic zone (polar front).

11
Often develop in conditionally unstable
environments with lots of convection
12
Comma Clouds
  • Most apparent over oceans in winter, but can
    develop over land

13
1445Z/05
GOES-12 Visible
2
1
14
1745Z/05
GOES-12 Visible
2
1
15
2045Z/05
GOES-12 Visible
2
1
16
15Z/05
2
2
17
Some, But Not All, Associated with Lightning
Strikes
Jan 18-21 2010 Lightning in Yellow
Nov 15-17 2009
18
  • Sea-level low-pressure center is sometimes found
    under the comma head, with a trough of low
    pressure under the trailing edge of the comma
    tail.

19
Sometimes the associated trough can develop
frontal characteristics
20
There are a variety of ways for comma clouds, and
their associated vorticity maxima, to interact
with the main baroclinic zone/polar front
21
Little Interaction
22
Instant Occlusion
23
Instant Occlusion
  • The comma cloud/PVA maximum can excite the
    development of a wave on a preexisting front.
  • The comma cloud combines with the developing wave
    to form what appears to be a more occlusion
    WITHOUT the usual occluded front evolution.

24
Why such a small scale?
  • Baroclinicity, latent heat release, and low
    stability appear to accompany most comma clouds.
  • Several studies (e.g., Gall 76 and Staley and
    Gall 76) suggest that baroclinic instability in
    concert with low stability in the lower
    troposphere could contribute to such small
    scales.
  • Needs more work.

25
Polar Lows
Look somewhat like hurricanesspiral rain bands,
cloud free eye
26
Polar Lows (also known as Arctic Hurricanes!)
  • Small scale typically 300 to 800 km in size
  • Usually develop near the ice margin where
    relatively warm, open water is adjacent to ice
    fields or cold continents.
  • Thus, they develop in a region of very strong,
    low-level atmospheric baroclinicity.
  • Low-stability environment as cold air moves over
    warm water. Usually convective clouds are
    present, frequently in linear, cloud streets.

27
Polar Lows
  • Form rapidly when short-wave troughs aloft
    approach such baroclinic, unstable regions.
  • Favored locations Bering Sea, Greenland,
    Norwegian and Barents Seas, Gulf of Alaska.

28
Polar Lows
29
Mesoscale Structure
30
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Polar Low Mechanisms
  • Because they look like hurricanes, some have
    suggested they grow by similar air-sea
    interaction mechanisms
  • CISK (Conditional Instability of the Second Kind)
  • WISHE (Wind Induced Surface Heat Exchange)
  • Others have suggested that baroclinic instability
    in the presence of low stability is dominant.
  • Probably both mechanisms are important.

34
The END
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