Boundary Layer Lapse Rate in Cloudy Areas Derived using CALIPSO Data Sunny Sun-Mack 1 , Patrick Minnis 2 , Yan Chen 1 , Yuhong Yi 1 , Sharon Gibson 1 Seiji Kato 2 , Charles A. Trepte 2 , Bruce A. Wielicki 2 (1) SSAI, Hampton, VA, USA (2) NASA Langley Research Center, Hampton, VA, USA CALIPSO STM March 11-13, 2008
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Boundary Layer Lapse Rate in Cloudy Areas Derived using ... · Boundary Layer Lapse Rate in Cloudy Areas Derived using CALIPSO Data Sunny Sun-Mack1, Patrick Minnis2, Yan Chen1, Yuhong
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Boundary Layer Lapse Rate in Cloudy Areas Derivedusing CALIPSO Data
Sunny Sun-Mack1, Patrick Minnis2, Yan Chen1, Yuhong Yi1, Sharon Gibson1
Seiji Kato2, Charles A. Trepte2, Bruce A. Wielicki2
(1) SSAI, Hampton, VA, USA(2) NASA Langley Research Center, Hampton, VA, USA
CALIPSO STM March 11-13, 2008
• Use CALIPSO and CloudSat data products to
- develop improved algorithms for CERES clouds
Objective
CERES-MODIS Cloud Retrieval Methodology.CERES-MODIS Cloud Retrieval Methodology. (Apply CERES algorithms to MODIS imager data)
Compute ice & water phase solution, select most likely phase basedon temperature, model fits, LBTM classification, 2.1-µmreflectance
DAY: Visible Infrared Solar-Infrared Split-Window Technique (VISST)0.65, 3.8, 10.8, & 12.0 µm see Minnis et al. (1995, 1998, 2007b)
NIGHT: Solar-infrared Infrared Split-Window Technique (SIST) 3.8, 10.8, & 12.0 µm see Minnis et al. (1995, 1998, 2007b)
MODIS, MODIS, Calipso Calipso and and CloudSat CloudSat Collocation Match Up.Collocation Match Up.
1 km
333 m
MODIS Pixel Calipso Shots
MODIS Swath
1.4 km
CloudSat Profile
1.1 km
Clear CAL CSat Aero BothCld Ice wat (CERES)
0
1
2
3
4
5
60
1
2
3
4
5
6 k
m
CERES Using MOA Profile
CERES Using Lapse Rate = -7.1 K / km
CERES Water Cld
CALIPSO Cld
April 4, 2007, Hour 00
Lapse Rate Calculation
CALIPSO Clouds:
(1) Single Layer
(2) Transparent Clouds
(3) Cloud Top Height: Ztop
Surface Height: Zsfc
Ztop - Zsfc < 4 km
Lapse Rate = (Ttop - Tskin ) / (Ztop - Zsfc ) <------ For Ocean
Lapse Rate = (Ttop - Tsfc-24h-mean ) / (Ztop - Zsfc ) <------ For Land
CERES Clouds:
(1) Water Clouds
(2) Cloud Top Temp: Ttop
(3) For Ocean: Tskin(4) For Land: Tsfc-24h-mean
For Merged CALIPSO and CERES Clouds
Day Time
Lapse Rate Histogram (April 2007)
Land
Ocean
-30 -26 -22 -18 -14 -10 -6 -2 2 6 10
Global Maps ofLapse Rate(April 2007)
Day Time
Night Time
Day Time, Land
night, ocean
Night Time, Land
Night Time, Ocean
Day Time, Ocean
Zonal Lapse Rate (April 2007)
Before and After Cases
Clear CAL CSat Aero BothCld ICE Wat (CERES) 0
1
2
3
4
5
6
0 1
2
3
4
5
6
km
CERES Using MOA Profile
CERES Using Lapse Rate = -7.1 K / km
CERES Water Cld
CALIPSO Cld
0
1
2
3
4
5
6
Using Zonal Lapse Rate Derived using CALIPSO data
April 4, 2007, Hour 00
0
1
2
3
4
5
6
April 4, 2007, Hour 00
0
1
2
3
4
5
km
0
1
2
3
4
5
Using MOA Profile
Using Lapse Rate = -7.1 K / km
Using Zonal Lapse Rate Derived from CALIPSO
Clear CAL CSat Aero BothCld Ice Wat (CERES)
Clear CAL CSat Aero BothCld Ice Wat (CERES)April 4, 2007, Hour 00
1
2
3
4 5
6
7
8 0
1
2
3 4
5
6 7
km
1
2
3
4 5
6
7
8 Using MOA Profile
Using -7.1 K/km lapse rate
Using zonal lapse rate
1
2
3
4
5
0
1
2
3
4
5
km
0
1
2
3
4
5
6
April 4, 2007, Hour 00 Clear CAL CSat Aero BothCld Ice Wat (CERES)
Using MOA Profile
Using -7.1 lapse rate
Using zonal lapse rate
ConclusionConclusion•• CALIPSO, CALIPSO, CloudSat CloudSat & CERES-MODIS are merged at NASA Langley& CERES-MODIS are merged at NASA Langley
•• CALIPSOCALIPSO is improving CERES retrievalsis improving CERES retrievals
•• Need close examination of cloud temperatures and Need close examination of cloud temperatures and lape lape rates rates voervoerpolar regions.polar regions.
•• Need to process more months to get seasonal lapse rates. Need to process more months to get seasonal lapse rates.