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Combining Observations

Comparison of MODIS radiances and atmosphere products with AIRS, MISR and ground based measurements Steve Ackerman Jun Li, Paul Menzel, Dave Tobin, and others at CIMSS/UW-Madison. Combining Observations. WHY?. Radiance Comparisons Product Comparisons Combined Retrievals Science Insights.

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Combining Observations

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  1. Comparison of MODIS radiances and atmosphere products with AIRS,MISR and ground based measurementsSteve AckermanJun Li, Paul Menzel, Dave Tobin, and others at CIMSS/UW-Madison

  2. Combining Observations WHY? • Radiance Comparisons • Product Comparisons • Combined Retrievals • Science Insights

  3. Combining Observations • Radiance Comparisons • Product Comparisons • Combined Retrievals • Science Insights

  4. Aqua MODIS IR SRF Overlay on AIRS Spectrum Climate

  5. AIRS MODIS AIRS MODIS AIRS/MODIS Brightness Temperature Comparisons 20-July-2002, Band 32 (~12.0mm) GOES-10 sub-satellite point Dome Concordia, Antarctica Climate

  6. Brightness Temperature differences between AIRS and MODIS Climate

  7. Bias appears to be temperature dependent. Impact on CO2 slicing? Black – original, Red corrected by spectral shift

  8. Combining Observations • Collocation • Radiance Comparisons • Product Comparisons • Combined Retrievals • Science Insights Cloud detectionCloud top pressureWater vaporVolcanic Ash cloud

  9. What is a cloud? “I know one when I see one.” Preparing for CALIPSO and MODIS The number of occurrences that MAS scene was identified as clear and the cloud physics lidar (McGill, 2002) detected a cloud optical depths (visible wavelengths). This figure suggests that the cloud limit is approximately optical depth 0.3 Water, Weather

  10. Not Determined Cloudy Uncertain Probably Clear Confident Clear AIRS Clear Flag from MODIS cloud mask

  11. E.g. when the AIRS cloud mask said it was clear, ~72 percent of the time 90-100 percent of the MODIS pixels within those AIRS FOVs were determined to be confident clear (green) by the MODIS cloud mask, ~12 percent of the time 90-100 percent of the MODIS pixels within those AIRS FOVs were determined to be probably clear (cyan) by the MODIS cloud mask, ~0 percent of the time 90-100 percent of the MODIS pixels within those AIRS FOVs were determined to be uncertain (red) by the MODIS cloud mask, and ~3 percent of the time 90-100 percent of the MODIS pixels within those AIRS FOVs were determined to be cloudy (white) by the MODIS cloud mask. Sample AIRS/MODIS Cloud Mask Histogram Clear cases as determined by AIRS cloud mask Fraction of occurrence clear cases MODIS Cloud Mask Cloudy cases as determined by AIRS cloud mask Fraction of occurrence cloudy cases Range bins (%) of MODIS pixels within AIRS FOVs for each MODIS cloud mask class Water, Weather

  12. Cloud Height Comparison over polar regions… AIRS MODIS AIRS Water, Weather

  13. AIRS MODIS AIRS – ARCL (km) MODIS – ARCL (km) ARM ARCL vs AIRS and MODIS High-spectral resolution helps with retrieval in inversions

  14. MODIS MOD07 (IR) TPW MOD07 Collection 5 TPW Aqua AIRS / MODIS Total Precipitable Water Comparison MOD05 Near IR TPW (mm) Water, Weather

  15. Comparison of AIRS (red) and MODIS (blue) profiles Temperature Mixing Ratio All MOD07 profiles in a 3x3 FOV around the selected lat/lon are shown

  16. Estimating the height of volcanic plumes from the 15 micron CO2 band MISR retrieval 6 to 8 km MODIS CO2 retrieval 6 km Composition

  17. 6 4 MISR plume height (km) 2 0 0 2 4 6 MODIS plume Height (km) MODIS CO2 heights lower, but similar variability

  18. Combining Observations • Radiance Comparisons • Product Comparisons • Combined Retrievals • Soundings with MODIS/AIRS – cloud clearing • Clouds with AIRS/MODIS • Science Insights

  19. Study area for cloud clearing Feb.18, 2004, G203, 20:17 – 20:23 UTC, MODIS 20:15; 20:20 Apply Cloud clearing Overcast AIRS BT(K) AIRS cloud detection from MODIS 1km cloud mask Water, Weather

  20. where N*()=1()N1/2()N2. N* can be calculated inMODIS spectral regionfromtwo adjacent AIRS cloudy footprints Rmodis SRF(Rairs)

  21. Clear neighbor for reference Cloudy FOV (Line 74, column 55) Cloudy neighbor for N*

  22. Radiance difference between cloud-cleared FOV and clear neighbor FOV Water, Weather

  23. AIRS single FOV profile retrieval versus ECMWF analysis Water Vapor Mixing Ratio Temperature Clear neighbor Cloud contaminated Cloud-cleared Weather

  24. AIRS BT (All) AIRS BT (Cloud-Cleared) AIRS BT (Clear Only) Weather

  25. Thick ice clouds, see next slide Sept.06, 2002 granule 193 1km MODIS classification mask superimposed to AIRS footprints BT(K) Improving Cloud Property Retrievals in IR

  26. AIRS calculation withMODIS/AIRS CTP, CPS, and COT versus observation CPS=33.90, COT=1.62 Water, Weather

  27. Combining Observations • Radiance Comparisons • Product Comparisons • Combined Retrievals • Science Insights

  28. Smoke plume Student Project: Tire Fire Fire Spot Composition

  29. Mountain wave Turbulence from MODIS MODIS 6.7 micron image over CO March 6, 2004 Lee Waves Waves frequently observed – but not all are turbulent. Weather

  30. Mountain wave Turbulence from MODIS Next Step: Validate Model Simulations MODIS 14.2 micron image over CO March 6, 2004 Lee Waves Waves seen in MODIS CO2 channels

  31. AIRS 6.7 micron: Large footprint, mountain waves still visible, but not detailed pattern. Weather

  32. AIRS 14.2 micron (stratospheric channel): Large footprint, mountain waves still visible. Vertically propagating waves

  33. Summary • AIRS/MODIS calibration/validation activities demonstrate MODIS IR capabilities • Comparison of MODIS products with other instruments is promising. • MODIS masks (cloud mask, cloud phase mask, cloud classification mask) and radiances with 1km spatial resolution can be use for the AIRS sub-pixel cloud characterization. • MODIS data used for AIRS cloud-clearing for partly cloudy AIRS footprints. • Combined observations provide insight into algorithm performance, but also atmospheric behavior/structure.

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