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Spatial & Temporal Distribution of Clouds as Observed by MODIS onboard the Terra and Aqua Satellites  MODIS atmosphere products –Examples from Aqua Cloud.

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Presentation on theme: "Spatial & Temporal Distribution of Clouds as Observed by MODIS onboard the Terra and Aqua Satellites  MODIS atmosphere products –Examples from Aqua Cloud."— Presentation transcript:

1 Spatial & Temporal Distribution of Clouds as Observed by MODIS onboard the Terra and Aqua Satellites  MODIS atmosphere products –Examples from Aqua Cloud fraction Cloud top properties Cloud optical & microphysical properties –Probability density functions Marginal Joint  Status and plans –Collection 5.1 –Collection 6 Michael D. King, 1 Steven Platnick, 2 Paul A. Hubanks, 2 W. Paul Menzel, 3 and Steven A. Ackerman 3 1 LASP, University of Colorado 2 NASA Goddard Space Flight Center 3 University of Wisconsin-Madison

2 Gridded Level-3 Joint Atmosphere Products (M. D. King, S. Platnick, P. A. Hubanks – NASA GSFC)  Daily, 8-day, and monthly products (97, 255, 255 MB) –20-25% of the size of these products in Collection 4 –Files contain more SDSs, but are stored with internal hdf compression  1°  1° equal angle grid  Statistics – Mean, standard deviation, minimum, maximum – QA mean, QA standard deviation – Cloud fraction, pixel counts – Log mean, log standard deviation (useful for cloud inhomogeneity studies) – Mean uncertainty, QA mean uncertainty – Marginal probability density functions for cloud properties Histogram counts, confidence histograms –Joint probability density functions Joint histograms between various cloud properties (e.g., cloud optical thickness vs cloud top pressure)

3 Monthly Mean Cloud Fraction (S. A. Ackerman, R. A. Frey et al. – Univ. Wisconsin) Aqua/MODIS  Cloud fraction similar during day and night (in Collection 5) –High cloud amount Roaring 40s ITCZ North Atlantic Indonesia and western tropical Pacific –Low cloud amount Subtropical gyres over the ocean Deserts Antarctica Greenland July 2006

4 Zonal Mean Cloud Fraction (S. A. Ackerman, R. A. Frey et al. – Univ. Wisconsin) July 2006

5 Time Series of Cloud Fraction during the Daytime (M. D. King, S. Platnick et al. – NASA GSFC) July 2002 – January 2007

6 Aqua Cloud Fraction – Terra Cloud Fraction (M. D. King, S. Platnick et al. – NASA GSFC)  Terra –Higher over oceans than land Marine stratocumulus  Aqua –Higher over land than ocean Interior continents Desert southwestern US Australia –Higher over ocean than land Northern Indian Ocean July 2006

7 Liquid Water Cloud Zonal Mean Cloud Fraction by Phase (M. D. King, S. Platnick et al. – NASA GSFC) July 2006

8 Ice Cloud Zonal Mean Cloud Fraction by Phase (M. D. King, S. Platnick et al. – NASA GSFC) July 2006

9 Aqua Cloud Fraction – Terra Cloud Fraction (M. D. King, S. Platnick et al. – NASA GSFC) July 2006  Liquid Water Clouds –Terra Greater over oceans Greater over northern Amazonia  Ice Clouds –Aqua Greater over continents Greater over ITCZ  Aqua shows more ice clouds, especially over land  Terra shows more liquid clouds, especially over ocean

10 Monthly Mean Cloud Fraction by Phase (M. D. King, S. Platnick et al. – NASA GSFC) July 2006 Aqua  Liquid water clouds –Marine stratocumulus regions Angola/Namibia Peru/Ecuador California/Mexico  Ice clouds –Tropics Indonesia & western tropical Pacific ITCZ –Roaring 40s

11 Monthly Mean Cloud Top Properties (W. P. Menzel, R. A. Frey et al. – Univ. Wisconsin) Aqua/MODIS  Cloud top pressure and temperature low (high clouds) –ITCZ –Deserts –India and China land –Western tropical Pacific –Northern Indian Ocean –Greenland –Antarctica  Cloud top pressure and temperature high (low clouds) –Central ocean gyres –Southern Indian Ocean –Western Europe July 2006

12 Zonal Mean Cloud Top Pressure (W. P. Menzel, R. A. Frey et al. – Univ. Wisconsin) July 2006

13 Monthly Mean Cloud Optical Thickness (M. D. King, S. Platnick et al. – NASA GSFC) July 2006 Aqua (QA Mean)  Liquid water clouds –Marine stratocumulus  c ~ 15 –Higher optical thickness over land than ocean Cloud optical thickness ~5 in Indian Ocean –High optical thickness around roaring 40s  Ice clouds –Larger in tropics (ITCZ) –High where deep convection occurs Congo basin Amazon basin –High optical thickness around roaring 40s –Higher over land than ocean

14 Monthly Mean Cloud Effective Radius (M. D. King, S. Platnick et al. – NASA GSFC) July 2006 Aqua (QA Mean)  Liquid water clouds –Larger drops in SH than NH –Larger drops over ocean than land Due to cloud condensation nuclei (aerosols)  Ice clouds –Larger in tropics than high latitudes Anvils –Small ice crystals at top of deep convection

15 Zonal Mean Cloud Effective Radius (M. D. King, S. Platnick et al. – NASA GSFC) July 2006

16 Marginal Histograms of Cloud Optical Thickness South Atlantic Ocean Terra March 30 – April 6, 2005

17 Marginal Histograms of Cloud Effective Radius South Atlantic Ocean Terra March 30 – April 6, 2005

18 MODIS  c vs r e Joint Histograms Liquid Water Clouds over Ocean 32°-40°N, 117°-125°W June 2005

19 ISCCP-like  c vs p c Joint Histograms 50°N-50°STerra August 2001

20 MODIS  c vs p c Joint Histograms Ice Clouds 50°N-50°STerra August 2001

21 MODIS  c vs p c Joint Histograms Liquid Water Clouds 50°N-50°STerra August 2001

22  Terra and Aqua –MODIS atmosphere products (descriptions, level-1b and level-3 browse imagery, documentation, contact information, tools for working with and ordering data…) modis-atmos.gsfc.nasa.gov –Data available for browse (level-1 and atmosphere level-2 and level-3) and ordering at Level 1 and Atmosphere Archive and Distribution System () –Data available for browse (level-1 and atmosphere level-2 and level-3) and ordering at Level 1 and Atmosphere Archive and Distribution System (LAADS) ladsweb.nascom.nasa.gov ladsweb.nascom.nasa.gov  Plans for the future –Collection 5.1 enhancements and reprocessing Atmosphere reprocessing of Aqua to begin on May 21, 2008 (beginning of Aqua around July 4, 2002 to August 2007) and complete in September 21, 2008 Atmosphere reprocessing of Aqua to begin on May 21, 2008 (beginning of Aqua around July 4, 2002 to August 2007) and complete in September 21, 2008 Atmosphere reprocessing of Terra to begin on September 16, 2008 (beginning of Terra around February 24, 2000 to August 2007) and complete in February 2009 Atmosphere reprocessing of Terra to begin on September 16, 2008 (beginning of Terra around February 24, 2000 to August 2007) and complete in February 2009 »To include Deep Blue aerosol algorithm –Collection 6 enhancements and processing Atmosphere initial delivery of code in November 2008 for initial testing Atmosphere initial delivery of code in November 2008 for initial testing Atmosphere processing of Terra and Aqua to begin in February 2009 Atmosphere processing of Terra and Aqua to begin in February 2009 Status and Plans for Collection 6

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