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Climate Science Branch, NASA Langley Research Center
Validation of Surface-Only Flux Algorithms
Twenty Fifth CERES-II Science Team MeetingNASA/LaRC
Hampton, VirginiaApril 26, 2016
David P. Kratz1, Shashi K. Gupta2, Anne C. Wilber2, Victor E. Sothcott2
1NASA Langley Research Center2Science Systems and Applications, Inc.
Climate Science Branch, NASA Langley Research Center
Background (Part 1)
CERES uses several Surface-Only Flux Algorithms (SOFA) to compute SW and LW surface fluxes in addition to the more precise model used by SARB. The SOFA algorithms include:
LPSA/LPLA:Langley ParameterizedSW/LW Algorithm
SOFA References: SW A: Li et al. (1993): J. Climate, 6, 1764-1772. SW B: Darnell et al. (1992): J. Geophysical Research, 97, 15741-15760. SW B: Gupta et al. (2001): NASA/TP-2001-211272, 31 pp. LW A: Inamdar and Ramanathan (1997): Tellus, 49B, 216-230. LW B: Gupta et al. (1992): J. Appl. Meteor., 31, 1361-1367. LW C: Zhou et al. (2007): J. Geophysical Research, 112, D15102.
SOFA: Kratz et al. (2010): J. Appl. Meteor. Climatology, 49, 164-180. SOFA: Gupta et al. (2010): J. Appl. Meteor. Climatology, 49, 1579-1589.
FLASH: Kratz et al. (2014): J. Appl. Meteor. Climatology, 53, 1059-1079.
Model A Model B Model C Clear Li et al. LPSA --
SW All-Sky -- LPSA -- Clear Inamdar and
Ramanathan LPLA Zhou-Cess
LW All-Sky -- LPLA Zhou-Cess
Climate Science Branch, NASA Langley Research Center
Background (Part 2)• The SOFA LW and SW Models are based on rapid, highly parameterized TOA-to-
surface transfer algorithms to derive the surface fluxes.
• LW Model A (clear-sky only), LW Model B (all-sky) and SW Model A (clear-sky only) were incorporated at the start of the CERES project.
• SW Model B (all-sky) was adapted for use in the CERES processing shortly before the launch of the CERES instrument on the TRMM satellite.
• The Edition 2B LW and SW surface flux results underwent extensive validation [Kratz et al., 2010].
• The ongoing validation process led to improvements to the LW models [Gupta et al., 2010].
• LW Model C (all-sky) [Zhou et al., 2007] was introduced into the Edition 4 processing to maintain two independent LW algorithms after the broadband LW Channel was chosen to replace the CERES Window Channel for CERES FM-6 and the next generation Radiation Budget Instrument (RBI).
• LW and SW Models B were incorporated into the FLASHFlux effort to produce a rapidly available Environmental Data Record [Kratz et al., 2014]
Recent and Future Improvements to the Surface-Only Flux AlgorithmsSW Model Improvements: 1) Replacing the ERBE albedo maps with Terra maps greatly improved the SW retrievals, most notably for polar regions. 2) Replacing the original WCP-55 aerosols properties with monthly MATCH/OPAC datasets while also replacing the original Rayleigh molecular scattering formulation with the Bodhaine et al., (1999) model significantly improved SW surface fluxes for clear conditions. 3) To account for the short term aerosol variability we have incorporated daily MATCH aerosol data into Edition 4. 4) Using a revised empirical coefficient in the cloud transmission formula has improved the SW surface fluxes for partly cloudy conditions. 5) Work continues on the improvement of the cloud transmission method for Edition 4 clouds. Use of SSF-82 (cloud layer note) may reduce uncertainties in surface flux retrievals.LW Model Improvements: 1) Constraining the lapse rate to 10K/100hPa (roughly the dry adiabatic lapse rate) improved the derivation of surface fluxes for conditions involving surface temperatures that greatly exceeded the overlying air temperatures, see Gupta et al. (2010). 2) Limiting the inversion strength to -10K/100hPa for the downward flux retrievals provided the best results for cases involving surface temperatures that were much below the overlying air temperatures (strong inversions).SW and LW Model Improvements: 1) The availability of ocean buoy measurements may improve surface flux retrievals by providing validation over oceans.
Parameterized models for fast computation of surface fluxes for both CERES and FLASHFlux
Climate Science Branch, NASA Langley Research Center
Status of Total Solar Irradiance (TSI) Measurements
The SORCE TIM (Total Irradiance Monitor) began producing TSI data on February 25, 2003. A battery failure on SORCE, however, stopped regular production during the period from July 16, 2013 through March 4, 2014.
Thus, for the period from July 1, 2013 though October 31, 2013 we used the RMIB composite TSI data provided by S. Dewitte.
The RMIB data, however, requires an offset from the DIARAD VIRGO solar minimum value of ~1363 W/m2 to match the SORCE solar minimum of ~1361 W/m2. Note, for CERES Edition 4 processing all TSI data are offset to match SORCE TSI Version 15. The offset is: V15 – V17 = −0.0049 W/m2.
In the meantime, the TSI Calibration Transfer Experiment (TCTE) was launched into orbit on November 19, 2013 and began producing TSI data on an irregular basis on December 16, 2013, and more recently, on a regular daily basis since January 1, 2015.
The SORCE instrument resumed data production on a daily basis on March 5, 2014. CERES subsequently resumed merging the SORCE TSI data into the CERES processing beginning on November 1, 2014.
Climate Science Branch, NASA Langley Research Center
TSI composite data from WRC, SORCE(V15) and RMIB for the Timeframe of CERES Terra, Aqua & NPP
1356
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1360
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1362
1363
1364
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016
Tota
l Sol
ar Ir
radi
ance
(Wm
-2)
Year
WRC Composite
SORCE (V15/V17)
RMIB Composite
01Mar2000 - 24Feb2003
25Feb2003 - 30Jun201301Nov2014 - 31Dec201501Jul2013 - 31Oct2014
Total Solar Irradiance for CERES Edition-4 (20000301-20151231)
Climate Science Branch, NASA Langley Research Center
For CERES Ed4, all TSI data are offset to match SORCE TSI Version 15
Comparison of TSI data [SORCE(V15) versus RMIB] for the 5-year overlap period 1-Mar-2003 to 29-Feb-2008
13561357135813591360136113621363136413651366
2003 2004 2005 2006 2007 2008 2009
Tota
l Sol
ar Ir
radi
ance
(Wm
-2)
SORCE-V15 RMIB-Comp RMIB-Offset
2.0
2.2
2.4
2.6
2.8
3.0
2003 2004 2005 2006 2007 2008 2009
RMIB
-V15
TSI
(Wm
-2)
Year
RMIB-V15
Mean Offset = 2.4447
RMIB - SORCE V15 Offset -- 01Mar 2003 to 29 Feb 2008
Slope = -0.0237 Wm-2/year
Climate Science Branch, NASA Langley Research Center
Slope of RMIB vs. SORCE is -0.0237 W/m2/y which yields an offset of 1 W/m2 in 42.19 years
This timeframe corresponds to the first 60 months of the SORCE data record
Comparison of SORCE(V15) and RMIB for the timeframe: 1-Mar-2003 to 23-Jun-2015
1356
1358
1360
1362
1364
1366
2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016
Tota
l Sol
ar Ir
radi
ance
(Wm
-2)
RMIB Comp SORCE V15 RMIB Offset
1.8
2.0
2.2
2.4
2.6
2.8
3.0
2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016
Diffe
renc
e (W
m-2
)
Year
RMIB Offset - V15
RMIB Offset vs.SORCE V15 -- 01 Mar 2003 to 23 Jun 2015
Slope = -0.0229 Wm-2/year
Mean (RMIB - SORCE V15) = 2.3653 Wm-2
Climate Science Branch, NASA Langley Research Center
Slope of RMIB versus SORCE -0.0229 W/m2/y corresponds to first 120 months and yields an offset of 1 W/m2 in 43.67 years
This timeframe corresponds to the first 148 months of the SORCE data record
RMIB offset by +2.3653 W/m2 from SORCE
Comparison of SORCE(V17) and TCTE(V02) Daily/Weekly Total Solar Irradiance Retrievals
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1364
Tota
l Sol
ar Ir
radi
ance
(Wm
-2)
TCTE V02 SORCE V17
201312 201403 201406 201409 201412 201503 201506 201509 201512
TSI Comparison: SORCE V17 vs. TCTE V02 (16 Dec 2013 to 31 Dec 2015)
Climate Science Branch, NASA Langley Research Center
SORCE: 1 value/day, Dec 22, 2013 through Dec 28, 2013, and 1 value/dayMar 5, 2014 through Mar 31, 2016; Absolute Accuracy: ±0.48 W/m2 at 1361 W/m2
TCTE: 1 value/day, Dec 16, 2013 through May 8, 2014, 1 value/week May 11, 2014 through Dec 31, 2014, 1 value/day Jan 1, 2015 through Mar 31, 2016; Absolute Accuracy: ±1.36 W/m2 at 1361 W/m2
SORCE minus TCTE (Jan 1, 2015 to Dec 31, 2015) is -0.4879 ± 0.0599 W/m2 SORCE minus TCTE (Jan 1, 2015 to Mar 31, 2016) is -0.4965 ± 0.0582 W/m2
Comparison of SORCE(V17) and TCTE(V02) Daily Total Solar Irradiance Retrievals
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1361
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1363
1364
Tota
l Sol
ar Ir
radi
ance
(Wm
-2)
TCTE V02 SORCE V17
201312 201403 201406 201409 201412 201503 201506 201509 201512
TSI Comparison: SORCE V17 vs. TCTE V02 (16 Dec 2013 to 31 Dec 2015)
Climate Science Branch, NASA Langley Research Center
SORCE: 1 value/day, Dec 22, 2013 through Dec 28, 2013, and 1 value/dayMar 5, 2014 through Mar 31, 2016; Absolute Accuracy: ±0.48 W/m2 at 1361 W/m2
TCTE: 1 value/day, Dec 16, 2013 through May 8, 2014, 1 value/week May 11, 2014 through Dec 31, 2014, 1 value/day Jan 1, 2015 through Mar 31, 2016; Absolute Accuracy: ±1.36 W/m2 at 1361 W/m2
SORCE minus TCTE (Jan 1, 2015 to Dec 31, 2015) is -0.4879 ± 0.0599 W/m2 SORCE minus TCTE (Jan 1, 2015 to Mar 31, 2016) is -0.4965 ± 0.0582 W/m2
TSI composite data from WRC, SORCE(V15) and RMIB for the Timeframe of CERES Terra, Aqua & NPP
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1362
1363
1364
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016
Tota
l Sol
ar Ir
radi
ance
(Wm
-2)
Year
WRC Composite
SORCE (V15/V17)
RMIB Composite
01Mar2000 - 24Feb2003
25Feb2003 - 30Jun201301Nov2014 - 31Dec201501Jul2013 - 31Oct2014
Total Solar Irradiance for CERES Edition-4 (20000301-20151231)
Climate Science Branch, NASA Langley Research Center
For CERES Ed4, all TSI data are offset to match SORCE TSI Version 15
1356
1357
1358
1359
1360
1361
1362
1363
1364
2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016
Total
Solar
Irrad
iance
(Wm-
2 )
Year
WRC Composite
SORCE (V15/V17)
RMIB Composite
01Mar2000 - 24Feb2003
25Feb2003 - 30Jun201301Nov2014 - 31Dec201501Jul2013 - 31Oct2014
Total Solar Irradiance for CERES Edition-4 (20000301-20151231)
Sunspot Numbers for Solar Cycles 23 & 24
Climate Science Branch, NASA Langley Research Center
Surface Sites Available for Validation of Terra & Aqua Ed4, and NPP Ed1
Climate Science Branch, NASA Langley Research Center
Continental
Desert
Coastal
Island
Polar
Ocean
CERES Terra Edition 4 LW Ground Validation (Global) Clear-Sky
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
N = 21029Bias = 5.1 W m-2
R.E = 15.0 W m -2
N = 21032Bias = -4.7 W m-2
R.E = 14.1 W m -2
N = 20969 Bias = -4.7 W m-2
R.E = 13.6 W m -2
LWA LWB LWC
Combined LW Ground Validation for Terra (4/2000 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES Terra Edition 4 LW Ground Validation (Global) All-Sky
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
LWB
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
LWC
N = 210752Bias = 2.6 W m-2
R.E = 23.1 W m -2
N = 209526Bias = 3.1 W m-2
R.E = 21.5 W m -2
Combined LW Ground Validation for Terra (4/2000 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES Aqua Edition 4 LW Ground Validation (Global) Clear-Sky
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
N = 17678Bias = 6.1 W m-2
R.E = 14.9 W m -2
N = 17682Bias = -4.7 W m-2
R.E = 13.8 W m -2
N = 17596Bias = -4.9 W m-2
R.E = 12.6 W m -2
LWA LWB LWC
Combined LW Ground Validation for Aqua (7/2002 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES Aqua Edition 4 LW Ground Validation (Global) All-Sky
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
LWB
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d4A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
LWC
N = 185263Bias = 2.4 W m-2
R.E = 23.0 W m -2
N = 184104Bias = 2.8 W m-2
R.E = 21.2 W m -2
Combined LW Ground Validation for Aqua (7/2002 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES NPP Edition 1 LW Ground Validation (Global) Clear-Sky
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d1A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d1A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d1A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
N = 5402Bias = -0.6 W m-2
R.E = 14.4 W m -2
N = 5407Bias = -7.7 W m-2
R.E = 13.7 W m -2
N = 5337 Bias = -5.9 W m-2
R.E = 12.1 W m -2
LWA LWB LWC
Combined LW Ground Validation for NPP (1/2012 through 12/2015).
Climate Science Branch, NASA Langley Research Center
CERES NPP Edition 1 LW Ground Validation (Global) All-Sky
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d1A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
LWB
0
100
200
300
400
500
600
0 100 200 300 400 500 600
CE
RE
S E
d1A
Der
ived
DLF
(W
m-2
)
Ground Measured DLF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
LWC
N = 90272Bias = -1.4 W m-2
R.E = 21.9 W m -2
N = 89547Bias = 1.2 W m-2
R.E = 20.9 W m -2
Combined LW Ground Validation for NPP (1/2012 through 12/2015).
Climate Science Branch, NASA Langley Research Center
LW Surface Flux Results
The Terra, Aqua and NPP LW fluxes derived for Clear Sky conditions show low biases ≈±6 W/m2, and relatively low uncertainties ≈12 to 15 W/m2.
The Terra, Aqua and NPP LW fluxes derived for Cloudy Sky conditions show low biases ≈±3 W/m2, and moderate uncertainties ≈20 to 23 W/m2.
Climate Science Branch, NASA Langley Research Center
CERES Terra Edition 4 SW Ground Validation Global Clear-Sky
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
SWA SWB
N = 8239Bias = -11.0 W m-2
R.E. = 41.7 W m-2
N = 8519Bias = -3.4 W m-2
R.E. = 35.5 W m-2
Combined SW Ground Validation for Terra (4/2000 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES Terra Edition 4 SW Ground Validation (Global) All-Sky
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
1 2 - 50 51 - 100 101 - 500 501 -1000 >1000
SWB
N = 99111Bias = -7.9 W m-2
R.E. = 93.0 W m-2
SWB Ground Validation for Terra (4/2000 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES Aqua Edition 4 SW Ground Validation Global Clear-Sky
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
1 2 - 25 26 - 100 101 - 600 601 - 800 > 800
SWA SWB
N = 6417Bias = -3.6 W m-2
R.E. = 39.2 W m-2
N = 6592Bias = -2.4 W m-2
R.E. = 30.8 W m-2
Combined SW Ground Validation for Aqua (7/2002 through 12/2014).
Climate Science Branch, NASA Langley Research Center
CERES Aqua Edition 4 SW Ground Validation (Global) All-Sky
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
1 2 - 50 51 - 100 101 - 500 501 -1000 >1000
SWB
N = 86632Bias = -5.3 W m-2
R.E. = 92.1 W m-2
SWB Ground Validation for Aqua (7/2002 through 1/2014).
Climate Science Branch, NASA Langley Research Center
CERES NPP Edition 1 SW Ground Validation (Global) Clear-Sky
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
1 2 - 5 6 - 20 21 - 40 41 - 50 > 50
SWA SWB
N = 2141Bias = -5.0 W m-2
R.E. = 31.2 W m-2
N = 2180Bias = -0.4 W m-2
R.E. = 25.5 W m-2
Combined SW Ground Validation for NPP (1/2012 through 12/2015).
Climate Science Branch, NASA Langley Research Center
CERES NPP Edition 1 SW Ground Validation (Global) All-Sky
0
200
400
600
800
1000
1200
0 200 400 600 800 1000 1200
CE
RE
S E
d1A
Der
ived
DS
F (W
m-2
)
Ground Measured DSF (W m-2)
1 2 - 20 21 - 100 101 - 200 201 - 400 > 400
SWB
N = 42052Bias = -4.7 W m-2
R.E. = 91.7 W m-2
SWB Ground Validation for NPP (1/2012 through 1/2015).
Climate Science Branch, NASA Langley Research Center
SW Surface Flux Results
The Terra, Aqua and NPP SW fluxes derived for Clear Sky conditions show relatively low biases ≈0 to -10 W/m2, and moderate uncertainties ≈25 to 35 W/m2.
The Terra, Aqua and NPP SW fluxes derived for Cloudy Sky conditions show relatively low biases ≈-5 to -10 W/m2, but large uncertainties ≈90 W/m2.
Our current effort is focused on finding methods to reduce the large uncertainties in the retrieved SW Cloudy Sky surface fluxes.
Climate Science Branch, NASA Langley Research Center
Conclusions for SOFA Ed4 algorithms
Validation studies have demonstrated that revisions to both the LW algorithms and the SW algorithms (for clear to partly cloudy conditions) appear to be working well, though further revisions to the cloud transmission method and/or overcast albedo method are needed for SW Model B. Current attention is focused on the cloud transmission data, and whether use of SSF-82 (cloud layer note) could be used to refine the results.
An analysis of the LW and SW surface only flux algorithm results using the Edition 4 inputs, especially those from the Clouds Subsystem, has indicated improved accuracies for most locations.
The Terra, Aqua and NPP flux retrievals show the anticipated results.
Climate Science Branch, NASA Langley Research Center