climatological aspects of ice storms in the northeastern u.s
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Climatological Aspects of Ice Storms in the Northeastern U.S. Christopher M. Castellano, Lance F. Bosart, and Daniel Keyser Department of Atmospheric and Environmental Sciences University at Albany, State University of New York, Albany, NY John Quinlan and Kevin Lipton - PowerPoint PPT PresentationTRANSCRIPT
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Climatological Aspects of Ice Storms in the Northeastern U.S.
Christopher M. Castellano, Lance F. Bosart, and Daniel KeyserDepartment of Atmospheric and Environmental Sciences
University at Albany, State University of New York, Albany, NY
John Quinlan and Kevin LiptonNOAA/NWS/WFO Albany, NY
46th CMOS Conference25th AMS Conference on Weather Analysis and Forecasting
1 June 2012, Montreal, QC
NOAA/CSTAR Grant: NA01NWS4680002
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Ice storms endanger human life and safety, undermine public infrastructure, and disrupt local and regional economies
Ice storms present a major operational forecast challenge
Ice storms are historically most prevalent and destructive in the northeastern U.S.
Motivation
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Fig 2. Changnon (2003). The amount of loss (millions of dollars expressed in 2000 values) from ice-storm catastrophes in each climate region during 1949–2000. Values in parentheses are the average losses per catastrophe.
Fig 3. Changnon (2003). The number of ice-storm catastrophes in each climate region during 1949–2000. Values in parentheses are those catastrophes that only occurred within the region.
Motivation
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Establish a climatology (1993–2010) of ice storms in the northeastern U.S.
Determine environments conducive to ice storms and dynamical mechanisms responsible for freezing rain
Provide forecasters with greater situational awareness of synoptic and mesoscale processes that influence the evolution of ice storms
Objectives
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Identified ice storms using NCDC Storm Data:1. Any event listed as an “Ice Storm” 2. Any event with freezing rain resulting in significant ice accretion (≥ 0.25 in)3. Any event with damage attributed to ice accretion
Classified individual ice storms by size:
Data and MethodologyIce Storm Climatology
Size Counties Affected CWAs AffectedLocal ≤ 3 AND ≤ 3
Regional 4–12 AND ≤ 6
Subsynoptic 13–48 AND ≤ 6
Synoptic > 48 OR > 6
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Geographical Domain
BGMBUF
CTPCLE
RLX
ALYBOX
BTV
CAR
GYX
OKXPHIPBZ
LWX
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Identified 35 ice storms impacting WFO Albany’s CWA
Created synoptic composite maps from 2.5° NCEP/NCAR reanalysis data
Generated a composite cross-section using 0.5° CFSR (Climate Forecast System Reanalysis) data
Performed analyses at t−48 h, t−24 h, t = 0
Composite Analysis
Data and Methodology
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Ice Storm Climatology
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Ice Storms by Season
93-94
94-95
95-96
96-97
97-98
98-99
99-00
00-01
01-02
02-03
03-04
04-05
05-06
06-07
07-08
08-09
09-10
0
2
4
6
8
10
12
14
16
Season (Oct–Apr)
Num
ber o
f Ice
Sto
rms
N = 136
Mean = 8
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Ice Storms by Month
OCT NOV DEC JAN FEB MAR APR0
5
10
15
20
25
30
35
40
45
50
Month
Num
ber o
f Ice
Sto
rms
N = 136
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Ice Storms by County
Ice Storms1 - 56 - 1011 - 1516 - 2021 - 2526 - 3031 - 35> 35
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23.5%(32)
28.7%(39)
29.4%(40)
18.4%(25)
LocalRegionalSubsynopticSynoptic
Ice Storms by SizeN = 136
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Composite Analysis
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500-hPa geopotential height (black contours, every 6 dam) and anomalies (shaded, every 30 m)
t – 48 h
N = 35
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500-hPa geopotential height (black contours, every 6 dam) and anomalies (shaded, every 30 m)
t – 24 h
N = 35
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500-hPa geopotential height (black contours, every 6 dam) and anomalies (shaded, every 30 m)
t = 0
N = 35
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850–700-hPa layer wind (arrows, m s-1), 850–700-hPa layer 0°C isotherm (dashed contour), precipitable water (green contours, every 4 mm), and standardized precipitable water anomalies (shaded, every 0.5 σ)
N = 35
t – 48 h
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850–700-hPa layer wind (arrows, m s-1), 850–700-hPa layer 0°C isotherm (dashed contour), precipitable water (green contours, every 4 mm), and standardized precipitable water anomalies (shaded, every 0.5 σ)
N = 35
t – 24 h
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850–700-hPa layer wind (arrows, m s-1), 850–700-hPa layer 0°C isotherm (dashed contour), precipitable water (green contours, every 4 mm), and standardized precipitable water anomalies (shaded, every 0.5 σ)
N = 35
t = 0
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300-hPa wind speed (shaded, every 5 m s-1), 1000–500-hPa thickness (dashed contours, every 6 dam), and mean sea-level pressure (solid contours, every 4 hPa)
N = 35
t – 48 h
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300-hPa wind speed (shaded, every 5 m s-1), 1000–500-hPa thickness (dashed contours, every 6 dam), and mean sea-level pressure (solid contours, every 4 hPa)
N = 35
t – 24 h
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300-hPa wind speed (shaded, every 5 m s-1), 1000–500-hPa thickness (dashed contours, every 6 dam), and mean sea-level pressure (solid contours, every 4 hPa)
N = 35
t = 0
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300-hPa wind speed (shaded, every 5 m s-1), 1000–500-hPa thickness (dashed contours, every 6 dam), and mean sea-level pressure (solid contours, every 4 hPa)
N = 35
t = 0
A
A’
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N = 35
5 m s−1 A A′5 cm s−1
Frontogenesis [shaded, every 1 K (100 km)-1 (3 h)-1], potential temperature (black, every 2 K), wind speed (green, every 5 m s-1), vertical velocity
(dashed red, every 5 μb s-1), and ageostrophic circulation (arrows)
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N = 35
5 m s−1 A A′5 cm s−1
Thermally direct jet entrance region
Frontogenesis [shaded, every 1 K (100 km)-1 (3 h)-1], potential temperature (black, every 2 K), wind speed (green, every 5 m s-1), vertical velocity
(dashed red, every 5 μb s-1), and ageostrophic circulation (arrows)
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N = 35
5 m s−1 A A′5 cm s−1
Thermally direct jet entrance region
Ageostrophic northerlies
Frontogenesis [shaded, every 1 K (100 km)-1 (3 h)-1], potential temperature (black, every 2 K), wind speed (green, every 5 m s-1), vertical velocity
(dashed red, every 5 μb s-1), and ageostrophic circulation (arrows)
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N = 35
5 m s−1 A A′5 cm s−1
Thermally direct jet entrance region
Ageostrophic northerlies
Intensifying warm front
Frontogenesis [shaded, every 1 K (100 km)-1 (3 h)-1], potential temperature (black, every 2 K), wind speed (green, every 5 m s-1), vertical velocity
(dashed red, every 5 μb s-1), and ageostrophic circulation (arrows)
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N = 35
5 m s−1 A A′5 cm s−1
Thermally direct jet entrance region
Ageostrophic northerlies
Intensifying warm front
Sloped ascent
Frontogenesis [shaded, every 1 K (100 km)-1 (3 h)-1], potential temperature (black, every 2 K), wind speed (green, every 5 m s-1), vertical velocity
(dashed red, every 5 μb s-1), and ageostrophic circulation (arrows)
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Frontogenesis [shaded, every 1 K (100 km)-1 (3 h)-1], potential temperature (black, every 2 K), wind speed (green, every 5 m s-1), vertical velocity
(dashed red, every 5 μb s-1), and ageostrophic circulation (arrows)
N = 35
5 m s−1 A A′5 cm s−1
Thermally direct jet entrance region
Ageostrophic northerlies
Intensifying warm front
Sloped ascent
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Summary: Ice Storm Climatology
Ice storms are climatologically favored between Dec and Mar
Ice storm occurrence is modulated by synoptic and mesoscale topographic features, and proximity to large bodies of water
Ice storms are primarily governed by mesoscale dynamics, but we cannot ignore synoptic–mesoscale linkages
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Ice storms are coincident with an amplifying ridge along the East Coast and an upstream trough across the central U.S
Ice storms occur near the equatorward entrance region of an upper-level jet
Ice storms are accompanied by low-to-midlevel moisture transport and warm-air advection via deep southwesterly flow
Ice storms typically occur within a region of enhanced ageostrophic northerlies on the poleward side of a warm front
Summary: Composite Analysis