Mesoscale Convective Vortices (MCVs) Observed During the Bow-Echo and MCV Experiment (BAMEX) 2003
mesovortex apex of bow echo Bow Echo: radar-observed features mid-level overhang weak echo notch...
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Transcript of mesovortex apex of bow echo Bow Echo: radar-observed features mid-level overhang weak echo notch...
![Page 1: mesovortex apex of bow echo Bow Echo: radar-observed features mid-level overhang weak echo notch bookend vortex.](https://reader031.fdocuments.in/reader031/viewer/2022013004/56649cb85503460f9497e778/html5/thumbnails/1.jpg)
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mesovortex
mesovortex
apexof bow echo
Bow Echo: radar-observed features
mid-level overhang
weak echonotch
bookendvortex
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Front-to-Rear Flow
Houze et al. (BAMS 1989)
All flows are system-relative
Ascending front-to-rear flow:
• Instrumental in creating stratiform rain shield
• Forced by a horizontal pressure gradient associated with mid-levelmesolow in the stratiform rain area; mesolow marks the hydrostatic responseto the net latent heat release by the convective cells
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Phenomena associated with horizontal vorticity Phenomena associated with horizontal vorticity
+-
1. Updraft 2. Vertical Shear 3. Cold Pool
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Interactions of Vorticity Regions Interactions of Vorticity Regions
Matching vorticity regions of opposite sense
Mismatched vorticity regions of opposite sense
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Life Cycle Life Cycle
(a) Downshear tilt due toambient shear
(b) Balance of cold pool and low-level shear
(c) Cold pool overwhelms low-level shear; formation of a rear inflowjet
“RKW Theory” (Weisman andRotunno; JAS 2004)
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Rear Inflow Jet
Houze et al. (BAMS 1989)
Rear Inflow Jet (RIJ):
Generated by a vertical gradient in horizontal buoyancy contrasts
The circulation associated with latent heat release aloft reinforces the cold pool circulation
In other words, RIJ accelerates into mid-level L
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Houze et al. (BAMS 1989)
Rear Inflow Jet (RIJ):
RIJ descends towards the front of the squall line where as -- jet cools due to melting of ice-- rain falls into its dry air cooling it through evaporation
RIJ helps maintain strong rising motion near the leading edge of the cold pool
Rear Inflow Jet
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Strong Squall LinesStrong Squall Lines
Strong environmental shear
Gust Front stays close to precipitation
Storm remains upright near deep gust front
Strong environmental shear
Gust Front stays close to precipitation
Storm remains upright near deep gust front
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Vorticity Interaction: Cold Pool LiftVorticity Interaction: Cold Pool Lift
+ =
2.3: Matching cold pool + shear
LFC
DeepLift
shear counteracts the cold pool’s tendency to sweep environmental air over the top of the cold pool.
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Strong Squall LinesStrong Squall Lines
Storm-Relative Velocity shows gust front at leading edge of reflectivity core
Gust front is also vertically-stacked and deep
Storm-Relative Velocity shows gust front at leading edge of reflectivity core
Gust front is also vertically-stacked and deep
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
20-200 km long curved line of cells usually associated with long swaths of damaging surface winds
Develop some hours into MCS lifecycle + can persist for several hours
Forms in environments similar to supercells (CAPE > 2000 J/kg; strong vertical shear of 30 kts+ over lowest 2.5-5 km) except for mechanisms promoting linear, rather than cellular, organisation (high T/Td spread etc.)
Rear Inflow Jet associated with a pair of cyclonic and anti-cyclonic “bookend” vortices
mid-level vortices (~ 3-7 km above ground), one at each ends of line primarily produced by tilting of horizontal vorticity at downdraft edge cyclonic poleward vortex usually becomes dominant over time due to
Coriolis comma-shaped system appearance
20-200 km long curved line of cells usually associated with long swaths of damaging surface winds
Develop some hours into MCS lifecycle + can persist for several hours
Forms in environments similar to supercells (CAPE > 2000 J/kg; strong vertical shear of 30 kts+ over lowest 2.5-5 km) except for mechanisms promoting linear, rather than cellular, organisation (high T/Td spread etc.)
Rear Inflow Jet associated with a pair of cyclonic and anti-cyclonic “bookend” vortices
mid-level vortices (~ 3-7 km above ground), one at each ends of line primarily produced by tilting of horizontal vorticity at downdraft edge cyclonic poleward vortex usually becomes dominant over time due to
Coriolis comma-shaped system appearance
Bow EchoesBow Echoes
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1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting1-4 August 2007 WMO Workshop on Radar Meteorology & Nowcasting
Areas of particularly severe winds within bow echoesAreas of particularly severe winds within bow echoes
strong straight-line winds in apex of bow
cyclonic bookend vortex on poleward end
anticyclonic bookend vortex on equatorward end
low-level mesovortices near or poleward of apex of any bowing segments