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Hail Large hail is not a killer, but does considerable damage
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Falling from 20,000 feet or higher, large hailstones pack quite a punch!
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Large hail does significant damage to cars.
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Average annual number of days with hail
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This is the Aurora hailstone, the largest one at the time
This is the Aurora hailstone, the largest one at the time. It fell at Aurora, NE on June 22, 2003.
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The Aurora hailstone was 7 inches in diameter
The Aurora hailstone was 7 inches in diameter. Imagine that falling on your head from 20,000 feet up!
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This is the previous record-holder, the Coffeyville hailstone with some props (egg, hand) for comparison.
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The Coffeyville hailstone cut into sections. Notice the layers
This stone fell on Coffeyville, KS on Sept 3, 1970.
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The rings are caused by different growth regimes
The rings are caused by different growth regimes. Clear ice is deposited slowly and contains few air bubbles. Cloudy ice occurs when water freezes quickly, trapping the air bubbles.
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The current record-holder is the Vivian (SD) hailstone, July 23, 2010.
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Hail is often categorized by its size in relation to everyday objects
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Marble Sizes of hail and the everyday objects used as adjectives (e.g., baseball-sized hail is 2.75” in diameter)
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Oneonta hail, June 15, 2009. This is marble-sized
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Those are small pine cones for comparison.
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A schematic supercell radar echo with a hook echo
A schematic supercell radar echo with a hook echo. Tornadic thunderstorms often also have large hail. The hailfall area is close to the tornado.
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Ingredients for Hail Growth
In a basic sense, 3 Main “ingredients” are required: 1. Adequate updraft to keep hailstone aloft for an appropriate amount of time, -10 to -30C 2. Sufficient supercooled water near the hailstone to enable growth during transit through an updraft 3. A piece of ice or snow (embryo) for it to grow upon
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Vertical cross section of a supercell hailstorm.
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Deep, Moist Convection (DMC) has 3 Ingredients:
Forecasting Hail Deep, Moist Convection (DMC) has 3 Ingredients: Sufficiently deep low level moisture Steep lapse rates (related to instability) Sufficient lifting from LCL to LFC Long range hail forecasting has changed very little since the early 1990s. Johns & Doswell (1992) detail process as looking at deep moist convection, then trying to identify ingredients for an enhanced hail threat. Once DMC identified as possibility, look for hail signal
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Hail Ingredients Strong updrafts necessary but not sufficient
High CAPE in hail growth zones Edwards and Thompson study found that golfball hail could be formed with any value of CAPE from a RUC proximity sounding. Just about all golfball hail reports were associated with at least 1000 J/kg, while all baseball hail was associated with larger than 1300 J/kg.
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Hail Ingredients (continued)
2. Storm scale winds: Speed/Direct-ional shear is important. Directional shear helps create a rotating updraft. Rotation can enhance updraft strength by a factor of 2 or more, above that of an updraft created by buoyancy alone. Very large hail events (> golfball) tend to be associated with strong veering with height wind profiles that are favorable for supercells
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12 hours earlier
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The concept of the Wet-bulb Zero
Wet-bulb Zero (WBZ): This is the level where evaporative cooling reduces a parcel temperature to 0C. It correlates well with large hail when the altitude of the WBZ is between 2200 meters and 2800 meters. If the WBZ is higher than 2800 meters, hailstones must fall through a large layer which is above 0C and usually do not reach the ground in frozen form. If the WBZ is lower than 2200 meters, the lower atmosphere is relatively cold and stable so the large updrafts needed for hail formation don’t exist. The exception to the above guidelines is when the ground level is significantly above sea level. That usually reduces the thickness of the low-level warm layer and hail becomes more common. This is the reason for the hail maximum in the High Plains and especially east of the Colorado Rockies. Source: A World of Weather by Lee Grenci and Jon Nese (2001)
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Example of Skew-T Log P determination of WBZ
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WBZ 729 mb 2788m
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Tennessee Colony
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SHIP - Significant Hail Parameter
Strengths Weaknesses Based on large number of soundings and is simple to calculate High POD of SIG HAIL (>90%) Statistically separates SIG from NON SIG hail Widely available: (SPC Mesoanalysis page, SFCOA, NMAP, NSHARP) Only forecasts SIG Category, not actual hail size (values > 1 favorable for SIG) Conditional on >0.75” hail “going to occur” Based on MUCAPE, thus may exhibit noise at times Again, dependent upon accurate thermodynamic profile forecast Will instability be realized? Forcing is not parameterized SHIP = MUCAPE * MUMR * 7-5LR * 500T* 0-6 SHR / Constant MUMR = Mixing Ratio of Most Unstable Parcel
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