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Status of the MOD07 atmospheric profile algorithm Éva E. Borbás 1, Suzanne W. Seemann 1, W. Paul Menzel 1, Anikó Kern 2, K. Strabala 1 and L. Moy 1 1 Space.

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Presentation on theme: "Status of the MOD07 atmospheric profile algorithm Éva E. Borbás 1, Suzanne W. Seemann 1, W. Paul Menzel 1, Anikó Kern 2, K. Strabala 1 and L. Moy 1 1 Space."— Presentation transcript:

1 Status of the MOD07 atmospheric profile algorithm Éva E. Borbás 1, Suzanne W. Seemann 1, W. Paul Menzel 1, Anikó Kern 2, K. Strabala 1 and L. Moy 1 1 Space Science and Engineering Center, UW -Madison, WI, USA 2 Eötvös Lóránd University, Meteorological Department, Budapest, Hungary

2 Outlines Collection 6 algorithm updates Validation –H20/CO2 channels spectral shifts –Effect of emissivity –Surface air Temperature –Local comparison of TPW and TOZ –Global comparisons with TOMS/OMI, AIRS Conclusion and Future Plans

3 MOD07 algorithm updates for Collection 6 Update the radiative transfer model to CRTM (from prototypeCRTM) Remove TPW based bias adjustment in the final TPW product Apply H2O/CO2 channel spectral shifts for Aqua (Tobin et al., 2006, JGR) Update Nedr for both Terra and Aqua Update surface emissivity spectra to the current version In the training database Make the Aqua and Terra DAAC code uniform Modify definition of TPW low and TPW high to enable calculation of 3 layer water vapor means. The new layers are: (Low) sfc-680 and (high) 440-Top (10hPa) Improve QA/QC flags, QA usefulness and Confidence flag bug is fixed Update output file: adding offset/scale factor usage, list of pressure levels, K- index valid range fixed, surface temperature changed to skin temperature, mixing ratio profile

4 The surface characterization in the training dataset Skin temperature – empirical relationship between Tsurf and Tskin based on IR Thermometer measurements at 3 Cart Sites IR surface emissivity over land - Baseline Fit Approach

5 Motivation: Atmospheric retrieval algorithm (e.g. MOD07) requires a global set of profiles and corresponding surface data (Tskin, Psurf and surface emissivity). We need: A gridded, global surface emissivity database at high spectral and high spatial resolution We have: MODIS MOD11 emissivity, but only at 6 wavelengths only 4 distinct wavelength regions (monthly data on 0.05 degree grid (missing values)) Laboratory measurements (UCSB, Dr. Wan, MODIS LT) of emissivity at high spectral resolution, but not necessarily representative of the emissivity of global ecosystems as viewed from space Original NOAA88 emissivity assigned to training profiles (Li et al, 2000, Seemann et al, 2003)

6 Suzanne W. Seemann et al., 2008: J. Appl. Meteor. Climatol., Vol. 47, 108-123. http://cimss.ssec.wisc.edu/iremis Moderate Spectral Resolution DB: Baseline Fit Approach (Seemann) Input data: MODIS MYD11 The baseline fit method based on a conceptual model developed from laboratory measurements of surface emissivity is applied to fill in the spectral gaps between the six emissivity wavelengths available from MYD11 10 hinge points were chosen to capture as much of the shape of the higher- resolution spectra as possible between 3.7 and 14.3  m. Adjust a laboratory-derived “baseline emissivity spectra” based on the MOD11 values for every global latitude/longitude pair Result: a monthly global emissivity database at 10 wavelengths with 0.05 degree spatial resolution. Reference: Grass Leaf of Green Spruce Sandstone Gypsum

7 Application: MOD07 TPW on 1 Aug 2005 at 2000 - 2320 UTC Emissivity=0.95 NCEP GDAS TPW

8 Emissivity=0.95Emissivity=BF Application: MOD07 TPW on 1 Aug 2005 at 2000 - 2320 UTC NCEP GDAS TPW

9 MOD07 Validation Efforts TPW: over the SGP ARM cart site with MWR and GOES TOZ: over Budapest, Hungary with Brewer and TOMS/OMI measurements TPW & TOZ: for selected global days with TOMS and AIRS data TPW & Tsurf over 3 locations in Sahara desert in 2007 by Zhengming Wan, ERI, University of California, Santa Barbara, CA

10 SRF Investigation using IASI – MODIS BT Comparison for 2009 by C. Moeller, G. Quinn and D. Tobin Band 27 Aqua Aqua Terra Mean (K): 0.18 1.43 Std (K): 0.44 0.88 Min (K): -3.08 -1.22 Max (K): 4.81 5.49 N: 3323 3781 Terra – Aqua: +1.25 K Aqua Terra Mean (K): 0.18 1.43 Std (K): 0.44 0.88 Min (K): -3.08 -1.22 Max (K): 4.81 5.49 N: 3323 3781 Terra – Aqua: +1.25 K

11 SRF Investigation using IASI – MODIS BT Comparison for 2009 by C. Moeller, G. Quinn and D. Tobin Band 27 Aqua Terra Aqua Terra Mean (K): 0.18 1.43 Std (K): 0.44 0.88 Min (K): -3.08 -1.22 Max (K): 4.81 5.49 N: 3323 3781 Terra – Aqua: +1.25 K Aqua Terra Mean (K): 0.18 1.43 Std (K): 0.44 0.88 Min (K): -3.08 -1.22 Max (K): 4.81 5.49 N: 3323 3781 Terra – Aqua: +1.25 K Aqua Terra Mean (K): -0.46 0.34 Std (K): 0.29 0.88 Min (K): -2.67 -2.54 Max (K): 2.77 4.1 N: 3323 3781 Terra – Aqua: +0.81 K

12 Aqua Terra Mean (K): 0.18 1.43 Std (K): 0.44 0.88 Min (K): -3.08 -1.22 Max (K): 4.81 5.49 N: 3323 3781 Terra – Aqua: +1.25 K Band 28 SRF Investigation using IASI – MODIS BT Comparison for 2009 by C. Moeller, G. Quinn and D. Tobin Aqua

13 Aqua Terra Mean (K): 0.18 1.43 Std (K): 0.44 0.88 Min (K): -3.08 -1.22 Max (K): 4.81 5.49 N: 3323 3781 Terra – Aqua: +1.25 K Band 28 Aqua Terra Mean (K): -0.14 0.78 Std (K): 0.39 0.88 Min (K): -3.77 -2.09 Max (K): 4.98 5.46 N: 3323 3781 Terra – Aqua: +0.92 K SRF Investigation using IASI – MODIS BT Comparison for 2009 by C. Moeller, G. Quinn and D. Tobin Aqua Terra

14 Microwave radiometer TPW (mm) MODIS, GOES, and radiosonde TPW (mm) Microwave radiometer TPW (mm) WVR - MODIS TPW differences (mm) MODIS, GOES, and radiosonde TPW (mm) Microwave radiometer TPW (mm) Dry cases (228): bias =-0.8 mm RMS= 2.5 mm Wet cases ( 89): bias= 2.3 mm RMS= 3.8 mm All cases (317): bias= 0.1 mm RMS= 3.0 mm Comparison of total precipitable water (mm) at the ARM SGP site from Aqua MODIS (red), GOES-8 and -12 (blue), and radiosonde (black), with the ground-based ARM SGP microwave radiometer for 317 clear sky cases from 4/2001 to 8/2005. MODIS (Aqua) TPW comparison at the SGP Cart Site

15 Microwave radiometer TPW (mm) MODIS, GOES, and radiosonde TPW (mm) Microwave radiometer TPW (mm) WVR - MODIS TPW differences (mm) MODIS, GOES, and radiosonde TPW (mm) Microwave radiometer TPW (mm) WVR - MODIS TPW differences (mm) Microwave radiometer TPW (mm) Dry cases (228): bias =-0.8 mm RMS= 2.5 mm Wet cases ( 89): bias= 2.3 mm RMS= 3.8 mm All cases (317): bias= 0.1 mm RMS= 3.0 mm Comparison of total precipitable water (mm) at the ARM SGP site from Aqua MODIS (red), GOES-8 and -12 (blue), and radiosonde (black), with the ground-based ARM SGP microwave radiometer for 317 clear sky cases from 4/2001 to 8/2005. MODIS (Aqua) TPW comparison at the SGP Cart Site + MYD07 NoShift: bias = 1.1 mm RMS = 3.6 mm + MYD07 wShift: bias = 0.1 mm RMS = 3.0 mm

16 The impact of the Aqua H2O/CO2 channel spectral shifts on MYD07 TPW over the SGP Arm cart site TPW field at July 3, 2003 at 0800 UTC

17 The impact of the Aqua H2O/CO2 channel spectral shifts on MYD07 TPW over the SGP Arm cart site MYD07 TPW no shifts MYD07 TPW with shifts GOES TPW TPW field at July 3, 2003 at 0800 UTC

18 SRF Investigation using IASI – MODIS BT Comparison for 2009 by C. Moeller, G. Quinn and D. Tobin Band 30 Aqua

19 SRF Investigation using IASI – MODIS BT Comparison for 2009 by C. Moeller, G. Quinn and D. Tobin Band 30 Aqua Terra

20 Aqua/MODIS Col 6OMI Total Ozone on 07.08.2007 at 12:18:55 UTC To date no Band 30 SRF shifts have been applied for Total Ozone product derivation

21 Time series of TOZ observations for 2007 over Budapest, Hungary Aqua – Col5.2 Terra – Col5.2

22 Satellite-based TOZ vs. Surface Brewer MeasurementsBias [DU]Stdev [DU]RMSE [DU]R2R2 OMI at Terra overpass times6.86.99.70.96 MOD07/Terra Collection 5.2-16.820.026.10.69 MOD07/Terra Collection 6 without spectral shifts-26.517.331.60.76 OMI at Aqua overpass times0.67.57.60.99 MYD07/Aqua Collection 5.26.020.821.60.81 MYD07/Aqua Collection 6 without spectral shifts-1.217.617.70.83 MYD07/Aqua Collection 6 with spectral shifts4.016.016.50.88 Aqua – Col6 with SRF shift Terra – Col6 Time series of TOZ observations for 2007 over Budapest, Hungary

23 MOD07 TOZ vs. Brewer Ozone over Budapest, Hungary for 2007 Satellite-based TOZ vs. Surface Brewer Measurements Bias [DU] Stdev [DU] RMSE [DU] R2R2 OMI at Terra overpass times6.86.99.70.96 MOD07/Terra Collection 5.2-16.820.026.10.69 MOD07/Terra Collection 6 without spectral shifts-26.517.331.60.76 OMI at Aqua overpass times0.67.57.60.99 MYD07/Aqua Collection 5.26.020.821.60.81 MYD07/Aqua Collection 6 without spectral shifts-1.217.617.70.83 MYD07/Aqua Collection 6 with spectral shifts4.016.016.50.88 Terra case nb= 102 Aqua case nb= 41 The Brewer spectrophotometer derived TOZ measurements were provided by Zoltan Toth (Hungarian Met Service).

24 Scatter plot of satellite-based (MODIS and OMI) TOZ vs. ground- based Brewer Measurements for 2007 at Budapest, Hungary Collection 5 TERRAAQUA

25 Scatter plot of satellite-based (MODIS and OMI) TOZ vs. ground- based Brewer Measurements for 2007 at Budapest, Hungary Collection 6 TERRAAQUA

26 TOZ bias dependence by the Ozone content AQUA

27 Comparing the C5.2 and C6 MYD07 CWV and Ta-surf with RAOB over 2007 by Zhengming Wan, ERI, UCSB, CA wan@icess.ucsb.edu [27.04 o N, 27.97 o E] Farafra, Egypt [26.285 o N, 32.78 o E] South of Valley Univ., Egypt MYD07 CWV [cm] MYD07 Ta-surf [K] RAOB CWV [cm] RAOB Ta-surf [cm] C5.2 MYD07 C6 MYD07 C5.2 MYD07 C6 MYD07 [27.18 o N, 2.6 o E] In-salah, Algeria The TPW in the C5 MYD07 product is often significantly overestimated comparing to RAOB and the air temperature at the surface boundary layer is underestimated in North Africa regions cwv values in the new MYD07 are more close to the RAOB values in most cases (for Location A&C) but some cases in loc. B get worse. Ta-surf values in the new MYD07 are much better than the C5 values in loc. A but they become slightly overestimated at the three sites. Overall, the new MYD07 data are better than the C5 MYD07 data at these sites. A A B B C C

28 Global TPW comparison with AIRS on Aug 28, 2006 AIRS C6 noShift C6 wShift C5 [mm]

29 No SRF Shift Land: +0.1  5.2 Ocean: -0.7  4.7 Latitude dep. of AIRS-MOD TPW Differences on Feb 1, 2007 Land Ocean

30 With SRF Shift Land: -0.9  5.8 Ocean: -1.5  4.8 Latitude dep. of AIRS-MOD TPW Differences on Feb 1, 2007 Land Ocean

31 Conclusions Validation over Sahara Desert by Dr. Wan: TPW values in the new MYD07 are closer to the RAOB values in most cases with some exceptions. Ta-surf values in the new MYD07 are much better than the Col5 values in one site but they are slightly overestimated at the three sites. Overall, the new MYD07 TPW and Ta-surf data are better than the Col5 MYD07 data at the three Sahara desert sites. TPW validation over the SGP cart site: The application of Aqua spectral shifts shows big improvement of MOD07 TPW products particularly in the wet cases (TPW > 15mm) where the rms error was improved by 1.9 mm and the bias was reduced by 2.3 mm.

32 Conclusions (cont.) TOZ validation over Budapest, Hungary: The MOD07 TOZ comparison with the surface Brewer measurements and OMI TOZ shows that the new MOD07 collection 6 algorithm results in better correlation (less stdev) for Both Terra and Aqua. The Terra larger bias needs further investigation. Global validation with AIRS and TOMS/OMI: TOZ and TPW comparison with AIRS and TOMS/OMI are regularly monitored, but the results are inconclusive. The analytical comparisons need some further adjustments. POSTER Terra – Aqua SRF Investigations IASI vs. MODIS BT differences show that Terra /MODIS H2O and O3 channels are more opaque while the CO2 channels are less opaque. Additionally, the IR channels (Band 20-30) show strong cold BT biases, which may be corrected by the adjustment of the calibration offset coefficients.

33 Future Work Investigate the impact of the corrected calibration offset coefficients and possible spectral H2O/CO2 spectral shifts on the TERRA/MOD07 products. Investigate the atmospheric profile products at one kilometer resolution. Study possibilities for switching from the synthetic statistical regression method to a physical retrieval algorithm.

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