satellite based nowcasting of convection initiation and data assimilation
DESCRIPTION
Satellite Based Nowcasting of Convection Initiation and Data Assimilation. John R. Mecikalski 1 , Kristopher M. Bedka 2 Simon J. Paech 1 , Todd A. Berendes 1 , Wayne M. Mackenzie 1. 1 Atmospheric Science Department University of Alabama in Huntsville - PowerPoint PPT PresentationTRANSCRIPT
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transitioning unique NASA data and research technologies to the NWS
Satellite Based Nowcasting of ConvectionInitiation and Data Assimilation
John R. Mecikalski1, Kristopher M. Bedka2
Simon J. Paech1, Todd A. Berendes1, Wayne M. Mackenzie1
1Atmospheric Science DepartmentUniversity of Alabama in Huntsville
2Cooperative Institute for Meteorological Satellite StudiesUniversity of Wisconsin-Madison
Supported by:NASA New Investigator Program (2002)NASA ASAP, SERVIR & SPoRT Initiatives
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transitioning unique NASA data and research technologies to the NWS
Outline
• Convective Initiation research, validation & transition activities
• NWS Products
• Soil Moisture Initialization Research (data assimilation)
• New Research, with NASA Data (lightning, MAMVs)
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Courtesy, NCAR RAP
Lightning:Type (CG, IC, CC)AmountPolarityAltitude in cloudswith respect to anvil
Ambient Environment:Freezing level(i.e. tropical vs. midlatitude)CAPE (also, its shape)
Cumulus:Cloud-top TCloud growth rateCloud glaciationFreezing level: warm rain process ice microphysicsInteractions with ambient clouds (pre-existingcirrus anvils)
Models/Sounders
Satellite: VIS & IR
LMA & NLDNCI
What are the
factors?
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Where We Are Now• Applying CI algorithm over U.S., Central America & Caribbean• SATCAST/Flat ADAS to NWS HUN & MKX• SATCAST to NOAA/NESDIS & SPC• Validation & Confidence analysis• Satellite CI climatologies/CI Index: 1-6 h• Work with new instruments• Hydrological applications
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CI Nowcast Validation• Like any satellite-based weather decision-support product, false alarms do occur with the SATCAST nowcasting product
– VIS/IR Satellite observations only provide a “view from the top” and cannot retrieve in-cloud dynamics or thermodynamics, which can greatly influence cumulus evolution
– Cloud tracking errors using MESO AMVs
• An objective quantitative validation of the SATCAST nowcast product is challenging for several reasons
1) Parallax viewing effect causes difficulty in matching satellite observations with radar observed precipitation fields
2) Objective synchronization of current satellite cloud growth trends with future radar observations
3) Satellite navigation issuesParallax Shift
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SATELLITE AMV WOULD INCORRECTLY FORECAST
FUTURE RADAR ECHO LOCATION
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Correlations IF1 IF2 IF3 IF5 IF6 IF7 IF8IF1 1.000 — — — — — —IF2 0.8581 1.000 — — — — —IF3 -0.9388 -0.8690 1.000 — — — —IF5 -0.2411 -0.3304 0.2818 1.000 — — —IF6 -0.4403 -0.4989 0.5143 0.5976 1.000 — —IF7 0.1405 0.2246 -0.1358 -0.9323 -0.5029 1.000 —IF8 0.0914 0.3405 -0.0892 -0.7743 -0.3654 0.7826 1.000
ExVarPC#1 23.745 12.318 -33.025 -7.552 -16.327 4.048 2.986PC#2 10.425 1.758 -11.616 22.017 22.970 -17.277 -13.936PC#3 7.712 5.807 -1.729 -17.353 34.192 15.330 17.877PC#4 -1.057 -28.687 -11.201 -17.045 5.090 10.407 -26.514PC#5 -39.710 6.427 -28.009 -4.775 4.812 -9.567 6.700PC#6 -6.859 34.038 7.016 -5.932 2.323 14.112 -29.721PC#7 -7.123 -5.950 -9.345 33.245 -0.824 39.048 4.465
PC Eigenvalue % Variance1 396.87 67.642 122.21 20.833 42.57 7.264 11.59 1.985 8.93 1.526 2.66 0.4547 1.89 0.322
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InterestField
IF1 IF2 IF3 IF4 IF5 IF6 IF7 IF8 Mean
IF1 0.751 0.700 0.449 0.217 0.470 0.555 0.511 0.414 50.83%IF2 0.883 0.424 0.212 0.477 0.635 0.539 0.412 53.51%IF3 0.449 0.216 0.295 0.339 0.319 0.255 34.33%IF4 0.231 0.157 0.175 0.167 0.134 18.85%IF5 0.542 0.375 0.529 0.411 40.69%IF6 0.730 0.422 0.327 44.46%IF7 0.604 0.430 43.99%IF8 0.481 35.80%
Max: 53.51%
Conditional POD skill scores
CI Nowcast Validation
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Conditional FAR skill scores
InterestField IF1 IF2 IF3 IF4 IF5 IF6 IF7 IF8 MeanIF1 0.670 0.607 0.364 0.164 0.430 0.505 0.457 0.355 44.42%IF2 0.828 0.339 0.164 0.447 0.611 0.498 0.352 48.08%IF3 0.364 0.162 0.239 0.277 0.255 0.193 27.42%IF4 0.179 0.114 0.129 0.121 0.095 14.10%IF5 0.554 0.394 0.523 0.398 38.74%IF6 0.753 0.415 0.319 42.56%IF7 0.591 0.402 40.80%IF8 0.463 32.21%
Min: 14.10%
CI Nowcast Validation
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SATCAST Algorithm“Interest Field” Importance
CI Interest Field Critical Value
10.7 µm TB (1 score) < 0° C
10.7 µm TB Time Trend (2 scores)< -4° C/15 mins
∆TB/30 mins < ∆TB/15 mins
Timing of 10.7 µm TB drop below 0° C (1 score) Within prior 30 mins
6.5 - 10.7 µm difference (1 score) -35° C to -10° C
13.3 - 10.7 µm difference (1 score) -25° C to -5° C
6.5 - 10.7 µm Time Trend (1 score) > 3° C/15 mins
13.3 - 10.7 µm Time Trend (1 score) > 3° C/15 mins
• Deep convection, dry upper troposphere.• Best for high CAPE environments, and strong updrafts.• Winter-time, Midlatitudes
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SATCAST Algorithm“Interest Field” Importance
CI Interest Field Critical Value
10.7 µm TB (1 score) < 0° C
10.7 µm TB Time Trend (2 scores)< -4° C/15 mins
∆TB/30 mins < ∆TB/15 mins
Timing of 10.7 µm TB drop below 0° C (1 score) Within prior 30 mins
6.5 - 10.7 µm difference (1 score) -35° C to -10° C
13.3 - 10.7 µm difference (1 score) -25° C to -5° C
6.5 - 10.7 µm Time Trend (1 score) > 3° C/15 mins
13.3 - 10.7 µm Time Trend (1 score) > 3° C/15 mins
• Moist upper troposphere, “warm-top” convection. Shallow convection.• Low CAPE environments (tropical, cold-upper atmosphere). f(Physics)• Optimal in Tropics during summer.
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SATCAST Algorithm“Interest Field” Importance: POD/FAR
CI Interest Field Critical Value
10.7 µm TB (1 score) < 0° C
10.7 µm TB Time Trend (2 scores)< -4° C/15 mins
∆TB/30 mins < ∆TB/15 mins
Timing of 10.7 µm TB drop below 0° C (1 score) Within prior 30 mins
6.5 - 10.7 µm difference (1 score) -35° C to -10° C
13.3 - 10.7 µm difference (1 score) -25° C to -5° C
6.5 - 10.7 µm Time Trend (1 score) > 3° C/15 mins
13.3 - 10.7 µm Time Trend (1 score) > 3° C/15 mins
• Use of 8.5-11 & 3.7-11 m from MODIS have been considered• Instantaneous 13.3–10.7 um: Highest POD (88%)• Cloud-top freezing transition: Lowest FAR (as low as 15%)• Important for CI & Lightning Initiation
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NWS Transition ActivitiesSATCAST in AWIPS
Web Survey 2007
NESDIS Operations
U. Wisconsin - CIMSS collaboration
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transitioning unique NASA data and research technologies to the NWS
Outline
• Convective Initiation research, validation & transition activities
• NWS Products
• Soil Moisture Initialization Research (data assimilation)
• New Research, with NASA Data (lightning, MAMVs)
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NWS Transition ActivitiesFlat ADAS for Surface Analyses
Flat ADAS
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NWS Transition ActivitiesMesoscale AMVs: 2007-2008
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NWS Transition ActivitiesCI “Trends of Trends”: 2007-2008
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Satellite-Lightning Relationships• Current Work: Develop relationships between IR TB/TB trends and lightning source counts/flash densities toward nowcasting (0-2 hr) future lightning occurrence* Supported by the NASA New Investigator Program Award #:NAG5-12536
2047 UTC
2147 UTC
Northern Alabama LMA Lightning Source Counts
2040-2050 UTC
2140-2150 UTC
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GOES CI Interest Fields: 21 July 2005 (afternoon)Details:-topography-main updrafts
…for LI1 km Resolution
CI Climatology Research
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IR Window TB
8.5-
11 μ
m D
iffe
renc
e
Deep Cu/Ice Cloud
Cirrus Edge/Mid-Height Cu
Clear Sky/Small Cu
Semi-Transparent CirrusJava-based Hydra Visualization Tool
Multispectral cloud properties are used to classify cumulus and identify clouds in a pre-CI state
8.5-11 m Difference vs IR Window TB
GOES-R Risk Reduction
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GOES-R Risk Reduction
Preliminary MSG CI Nowcasting Criteria
CI Interest Field Critical Value
10.8 µm TB < 0 K
10.8 µm TB Time Trend< -4 K/15 mins
TB/30 mins > TB/15 mins
Timing of 10.8 µm TB drop below 0° C Within prior 30 mins
8.5-10.8 µm TB Difference < 0 K
12.0-10.8 µm TB Difference* -3 to 0 K
CAPE > 500 J/kg Microphysical information from 1.6 reflectance is used to improve Microphysical information from 1.6 reflectance is used to improve the convective cloud mask and negative 8.7-10.8 the convective cloud mask and negative 8.7-10.8 m differencing m differencing values are used to identify cumulus with liquid water topsvalues are used to identify cumulus with liquid water tops
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MODIS/GOES Convective Cloud Mask Validation
Visible Channel GOES Convective Cloud Mask
MODIS Convective Cloud Mask
a) c)b)
d) f)e)
Visible ChannelGOES Convective Cloud Mask
MODIS Convective Cloud Mask
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a) c)b)
d) f)e)
In preparation for GOES-R
Visible Channel MSG Convective Cloud Mask
MODIS Convective Cloud Mask
Visible ChannelMSG Convective Cloud Mask
MODIS Convective Cloud Mask
MODIS/GOES Convective Cloud Mask Validation
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1 Aug 2004 Soil Moisture Differences
0-10 cm 10-40 cm
40-100 cm 100-200 cm
ALEXI - EDAS
• The largest differences between ALEXI and EDAS soil moisture occur over the eastern half of the study domain
• The 40-100 cm soil layer shows that ALEXI soil moisture is wetter across a majority of the domain
• The drier conditions in the 100-200 cm soil layer are once again in a region where vegetation is not able to extract water from the soil. The wetter conditions in SE OK are located within vegetation types which can extract water from this layer.
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ALEXI and EDAS Comparisons
ALEXI
RMSE = 0.059 or 19.7% fAW
EDAS
RMSE = 0.095 or 31.7% fAW
The retrieval of ALEXI soil moisture is compared to soil moisture observations from the Eta Data Assimilation System (EDAS) for each of the composite periods.
The EDAS soil moisture show substantial dry biases, with the largest bias occurring during observed wet soil moisture conditions (high fPET).
With respect to all observations during this period, the ALEXI soil moisture retrieval produces soil moisture estimates that exhibit a much lower RMSE than EDAS.
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Future Work• Continue AWG GOES-R Risk Reduction• Further Satellite based lightning initiation research using GOES, MODIS
& MSG• Thru NASA SERVIR, provide more hydrologic information from SATCAST• Using MODIS NDVI product and topography maps, improve nowcasting
0-3 hours using vegetation and topography to determine areas where CI may occur. [John Walker, UAH]
• CloudSat, MODIS & QuikSCAT for convective momentum fluxes and mesoscale AMV assimilation [Chris Jewett, UAH]
• Peer-reviewed papers• Additional soil moisture assimilation work: AMSR+MODIS via ALEXI
[Chris Hain, UAH]; with the USDA• Convective Climatologies [2 UAH Graduate Students]• Collaboration with SPC [late 2007] & NOAA NESDIS• Continued SATCAST validation + transfer of MAMVs to NWS Huntsville