three-dimensional airflow through fronts and midlatitude cyclones
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Three-Dimensional Airflow Through Fronts and Midlatitude Cyclones. Importance of Air Flows. Great insights into cyclone structures and evolution can be derived from understanding the air flows in midlatitude systems. - PowerPoint PPT PresentationTRANSCRIPT
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Three-Dimensional Airflow Through Fronts and Midlatitude Cyclones
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Importance of Air Flows
• Great insights into cyclone structures and evolution can be derived from understanding the air flows in midlatitude systems.
• Great advances have been possible during the past several decades using model output.
• Air flows and trajectories provide a more fundamental understanding than traditional (frontal) approaches. (Not all key structures are associated with fronts!)
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Some History
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1800’s
• Thermal Theory conceptual model was dominant in the 1830s and for several subsequent decades.
• Warm core with hurricane-like circulation
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Major Debates on Cyclone Airflows During the Mid-1800s
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Loomis (1841): First Air Flow Schematic Over Cold Front
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By 1860s the idea of two main airflows (warm and cold) was becoming accepted
Fitz-Roy1863
cold
warm
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By the beginning of the 20th century the idea of three main airflows was being suggested.
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The Norwegian Cyclone Model (Bjerknes 1918 and later) was the
First to Connect the Concept of Three-Dimension Airflows with the
Clouds and Temperature Structures of Midlatitude Fronts
and Cyclones
• A huge advance, but as we will see it had its deficiencies
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Norwegian Cyclone Model Concept of Air Flows in Cyclones
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Missing Key Ingredients
• Dry descending airstreams in the mid to upper troposphere.
• Forward-tilting frontal structures• Relationships of upper level short wave
troughs and ridges with lower tropospheric structures.
• And more…
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1930s-1950s• The availability of
radiosonde data painted a revised pictures of three-dimensional airflows and structures.
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Palmen and Newton (1969)
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1950s-1980s• Many of these studies used relative flow isentropic
analysis---assuming system is in steady state and displayed flow relative to the system to give a picture of trajectories and vertical motions.
• Air trajectories follow theta or thetae surfaces depending whether air parcels are unsaturated or saturated.
• Eliassen and Kleinschmidt 57, Browning and Harrold 69, Harold 73, Carlson 80, Browning 86, Young et al., 87, Browning 90
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Conveyor Belts
• Many of these studies described the major airflows in cyclones as occurring in a limited number of discrete airstreams or conveyor belts.
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The Conveyor
Belt Model of Cyclone
Airflows(Carlson,
1980)
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Clearer Version!
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Three Main Airstreams or “Conveyor Belts”
• Warm conveyor belt (WCB)– associated with most of clouds and precipitation
in cyclones. – begins at low levels within the southern part of
the warm sector and climbs anticyclonically above the warm front.
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• Cold conveyor belt (CCB)– Originates in cold, low-level anticyclonic flow to the northeast of
the cyclone and moves westward (relative to the eastward-moving cyclone) north of the warm front.
– Undercuts the warm conveyor belt (WCB moves over the CCB)– Two ideas what happens next:• Carlson (1980): Cold conveyor belt then rises and emerges beneath the
western edge of the WCB (producing the western extension of the comma head) and then ascends anticyclonically to merge with the WCB.
• Browning (1990): part of the CCB descends cyclonically around the low center to a position behind the cold front.
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• Dry Airstream or dry intrusion– Descends cyclonically from the upper troposphere
or lower stratosphere into the lower troposphere and then ascend over the cyclone
– Often advances over the warm sector of the cyclone
– The warm sector is often NOT a region of uniform warm, moist air!
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Airflow and Conveyor-Belt Studies Have Suggested Structures Not Described in the Norwegian Cyclone Model
Split and Upper “Cold” Front (Browning and Monk 1982)
• Forward-tilting• Upper front is more of a
moisture than temperature front
• Leads to potential instability
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Split “Cold” Front• Often see this on satellite pictures, with a
separation between surface front and middle/upper clouds.
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Terminology: Anafront versus Katafront
• Anafront: backward leaning. Sinking on cold side and rising motion on warm side.
coldwarm
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• Katafront: descent on both sides of cold front (generally stronger descent on warm side). Not much precipitation with front
cold
warm
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Strengths and Weaknesses of the Conveyor Belt Model
• Strengths– If you ignore the details, one can often identify three
main broad air streams in cyclones and fronts– Gets us away from thinking that all the weather action
is related to frontal boundaries. Not only vertical motion is directly related to fronts.
• Weaknessess• It is can be a great simplification to consider only three air
streams• There are all kinds of intermediary trajectories
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Sometimes Belts Are Not Where You Expect Them
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1980s-now: The Model Revolution
• Realistic model simulation at high resolution allows the creation of three-dimensional trajectories.
• Modern graphics promotes visualization—a major challenge.
• An early example: The President’s Day Storm of 1993:http://www.atmos.washington.edu/academic/videos/PresidentsDayStorm.html
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Trajectories for a Relatively “Classical” Case over North
America: December 14-16, 1987 (Mass and Shultz,1993)
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Realistic Simulation
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Model-BasedTrajectories
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MoistDry
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Can We Use Trajectories to Understand Why Precipitation Leads the Cold Front?
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