Soundings and Adiabatic Diagrams for Severe Weather Prediction and Analysis Continued
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Transcript of Soundings and Adiabatic Diagrams for Severe Weather Prediction and Analysis Continued
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Soundings and Adiabatic Diagrams for Severe Weather Prediction and Analysis
Continued
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Shear vs. CAPE
• Need a balance between Shear and CAPE for supercell development
• Without shear: single, ordinary, airmass thunderstorm which
lasts 20 minutes• If shear is too strong (gust front moves too fast) :
multicellular t-storms or low topped severe thunderstorms
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CAPE and Shear
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Bulk Richardson Number
BRN = CAPE
½ (Uz2)
Where Uz = the vertical wind shear
(averaged over 3-6km layer)
• In general: 15-40 favors supercell development
>40 favors multicellular type storms• Explains the balance between wind shear and
convective energy
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Bulk Richardson Number (BRN)
BRN= CAPE
1/2Uz2
(where Uz is a measure of the vertical
wind shear)
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Shear Classification:• Two Main types: Speed and Directional• Bulk Shear: The Boundary Layer through 6 km (or
higher) above ground level shear vector denotes the change in wind throughout this height.
• Usually given in units of knots
• Thunderstorms tend to become more organized and persistent as vertical shear increases. Supercells are commonly associated with vertical shear values of 35-40 knots and greater through this depth
• Doesn’t take into account elevated parcels:
• Effective Shear (kts)
• Bulk Richardson Number shear (m^2/s^2)
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DIRECTIONAL SHEAR
• Veering vs. Backing winds with height
• Clockwise vs. Counterclockwise with height
• Warm Air advection vs. Cold Air Advection
• Northern vs. Southern Hemisphere
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Shear Just Right
• 2-D equilibrium: squall line develops
• 3-D equilibrium: right moving and left moving
supercells
A B
A B
Right Mover
Left Mover
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Hodographs
Wind speed
•Draw wind vectors in direction they are going
•This is opposite of how the wind barbs are drawn
V
U
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How a Hodograph is Created!
• Lets open our Sounding COMET Module…
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Example
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Straight Line Shear
• Storm Splitting:– R and L storm cells
move with mean wind but drift outward
1000
900
850
700
500
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Curved Hodograph
• Emphasizes one of the supercells– Veering (clockwise curve):
• right moving supercells
• warm air advection in northern hemisphere
– Backing (counter clockwise curve):• left moving supercells
• warm air advection in southern hemisphere
1000
850
900
700 500 300
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Straight Line Hodograph
Clockwise Curved hodograph
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Helicity• Can be thought of as a measure of the “corkscrew”
nature of the winds.
• Higher helicity values relate to a curved hodograph.– large positive values--> emphasize right cell– large negative values--> emphasize left cells
• Values near zero relate to a straight line hodograph.
H = velocity dotted with vorticity = V • ζ = u (dyw - dzv) - v (dxw - dzu) + w (dxv - dyu)
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Lets Review Main Points• Shear in two parts: Direction and Speed• Hodographs: characterize shear and help us to
visualize the vertical shear profile• Helicity = V • ζ• Positive values favor right cells• Negative values favor left cells• 2-d equilibrium calls for developing squall line• 3-d equilibrium calls for storm splitting to occur.• Now lets take a look at some radar loops to see
these processes in action!!!!
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The “Granddaddy” of them all!!!Not the Rose Bowl
• Super Tornado Outbreak of March 11th- 12th , 2006• Early season event, Strongly dynamically driven• 105 confirmed tornadoes, 13 fatalities• Longest lived singular supercell in recorded weather
history!• Supercell tracked 800 miles across Oklahoma, Kansas,
Missouri, Illinois, Indiana, and Michigan.• Supercell lasted 17.5 hours• Accounted for nearly a 1/3 of the tornadoes on March 12th!• In a few weeks we will cover the physical and dynamical
processes involved in creating and maintaining a supercell through its complete life-cycle.
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CAPE and Helicity
•Plainfield, IL tornado:
CAPE=7000
Helicity=165
Energy Helicity:
( )160,000
CAPE HEHI
´=
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In Class Case Study
Tornado OutbreakMissouri, Illinois, Indiana
3/08/09
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Synoptic Setup:300mb
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500mb
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700mb
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850mb
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925mb
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Surface
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Springfield, Missouri
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Lincoln, Illinois
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SPC really jumps on the bandwagon…Yee Haw!!!
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SPC really jumps on the bandwagon…Yee Haw!!!
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1600z SPC Mesocale Discussion
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Radar Loopshttp://vortex.plymouth.edu/nids.html
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Radar Loopshttp://vortex.plymouth.edu/nids.html
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What to take away from this event…?
Dynamics/Shear dominate heat energy!• Strong mid/upper level shortwave trough• Strong dynamical forcing/frontal forcing• Strengthening surface low• Cold temperatures: <70F• Very small CAPE values: <1000J/kg• Bulk Shear: 80+ kts !!!• Helicity: 500+ m^2/s^2 !!!• Clockwise Hodographs favoring right moving
cells• Perfect situation for low topped discrete supercells
capable of producing tornadoes near triple point.
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Stability Indices
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K Index• This index uses the values for temperature (t) and dew
point temperature (td), both in oC at several standard levels.
K = t850 - t 500 + td850 - t700 + td700
K value T-Storm Probability
<15 0%
15-20 <20%
21-25 20-40%
26-30 40-60%
31-35 60-80%
36-40 80-90%
>40 >90%
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Vertical Totals
VT = T850 - T500
• A value of 26 or greater is usually indicative of thunderstorm potential.
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Cross Totals
CT =T d850 - T500
CT T-Storm Potential
18-19 Isolated to few moderate
20-21 scattered moderate, a few heavy
22-23 scattered moderate, a few heavy and isolated severe
24-25 scattered heavy, a few severe; isolated tornados
26-29 scattered to numerous heavy, few to scattered severe, a few tornados
>29 numerous heavy, scattered showers, scattered tornadoes
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Total Totals (TT)
TT = VT + CT =T850 + T d850 - 2 T500
TT T-Storm Potential
44-45 Isolated to few moderate
46-47 scattered moderate, a few heavy
48-49 scattered moderate, a few heavy and isolated severe
50-51 scattered heavy, a few severe; isolated tornados
52-55 scattered to numerous heavy, few to scattered severe, a few tornados
>55 numerous heavy, scattered showers, scattered tornadoes
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SWEAT (severe weather threat) Index
SWI = 12D + 20(T - 49) + 2f8 + f5 + 125(S + 0.2)
where: D=850mb dew point temperature (oC)(if D<0 then set D = 0)T = total totals (if T < 49 then set entire term = 0)
f8=speed of 850mb winds (knots)
f5= speed of 500mb winds (knots)S = sin (500mb-850mb wind direction)
And set the term 125(S+0.2) = 0 when any of the following are not true1. 850mb wind direction is between 130-2502. 500mb wind direction is between 210-3103. 500mb wind direction minus 850mb wind direction is positive4. 850mb and 500mb wind speeds > 15knots
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SWEAT (severe weather threat) Index
SWI = 12D + 20(T - 49) + 2f8 + f5 + 125(S + 0.2)
<300 Non-severe thunderstorms
300-400 Severe thunderstorms possible
>400 Severe thunderstorms, including possible tornados
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Lifted Index (LI)
• Compares the parcel with the environment at 500mb.
LI = (Tenv-Tparcel)500
Lifted Index Thunderstorm Potential
>+2 No convective activity
0 to +2 Showers probable, isolated thunderstorms possible
-2 to 0 Thunderstorms probable
-4 to –2 Severe thunderstorms possible
< -4 Severe thunderstorms probable, tornados possible
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• Best Lifted Index– Uses the highest value of e or win the lower
troposphere.– Use the highest mixing ratio value in
combination with the warmest temperature.
• SELS Lifted Index– Use the mean mixing ratio and mean of the
lowest 100mb– If using a 12z sounding add 2o – Start parcel at 50mb above the surface
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Showalter Index (SI)• Compares a parcel starting at 850mb with
the environment at 500mb.
SI = (Tenv-Tparcel)500
SI Thunderstorm Possibility
> +3 No convective activity
1 to 3 Showers probable, isolated thunderstorms possible
-2 to 1 Thunderstorms probable
-6 to –2 Severe thunderstorms possible
< -6 Severe thunderstorms probable, tornados possible
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Supercell Index
• Weights various parameters which are indicative of possible supercell development
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Important Points to Remember
• Severe weather is more dependent on dynamical forcing than instability!
• No one parameter tells the full tale!
• 12z soundings usually predict afternoon convection better than 00z soundings predict evening convection.
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Links
• http://www.geocities.com/weatherguyry/swx2.html• http://avc.comm.nsdlib.org/cgi-bin/wiki.pl?Severe_Weather_Indices• http://www.theweatherprediction.com/severe/indices/• http://www.theweatherprediction.com/habyhints/315/• http://www.spc.noaa.gov/exper/mesoanalysis/• http://mocha.meteor.wisc.edu/table.12z.html