USE OF GEOS-CHEM BY SMITHSONIAN ASTROPHYSICAL OBSERVATORY AND DALHOUSIE UNIVERSITY

USE OF GEOS-CHEM BY SMITHSONIAN ASTROPHYSICAL OBSERVATORY AND DALHOUSIE UNIVERSITY Randall Martin Mid-July Halifax, Nova Scotia SAO

RETRIEVAL AND INTERPRETATION OF SATELLITE OBSERVATIONS OF THE TROPOSPHERE NO2, HCHO, O3, SO2, BrO

GEOS-CHEM MODEL IDENTIFIES FAVORABLE REGIONS TO DETERMINE STRATOSPHERIC COLUMN AND INSTRUMENT BIASES Martin et al., 2002

SLANT COLUMNS OF TROPOSPHERIC NO2 FROM GOME 1996 Martin et al., 2002

USE GEOS-CHEM TO CALCULATE AMFs FOR NO2 and HCHO FOR EVERY SATELLITE VIEWING SCENE GEOS-CHEMGLOBAL 3-D MODEL OF TROPOSPHERIC CHEMISTRY: provides shape factors LIDORT RAD.TRANSFER MODEL: provides scattering weights AMF spectral fit SATELLITE DATA SLANT COLUMN VERTICAL COLUMN • Best information applied to each scene • Consistency in comparing model and observed columns ADVANTAGES OF 3-D MODEL APPROACH FOR COMPUTING AMFs

OPTIMIZE INVENTORY USING A PRIORI BOTTOM-UP AND GOME TOP-DOWN INFORMATION Determine NOx Emissions from GOME Observations Using GEOS-CHEM to Provide Information on the NOx/NO2 Ratio and NOx Lifetime GOME Tropospheric NO2 GEOS-CHEM Tropospheric NO2 Martin et al., 2003 1015 molecules cm-2

IN THE QUEUE: GEOS-CHEM NOX EMISSIONS WILL REFLECT ADDITIONAL GOME INFORMATION Annual mean ratio (A posteriori / A priori) Martin et al., 2003

EXAMINE SEASONAL VOC EMISSIONS USING GOME AND GEOS-CHEM HCHO COLUMNS: SAO Role in Retrieval, AMFs, and Model Simulation JUL MAR AUG APR MAY SEP OCT JUN Abbot et al., 2003

EL NINO INTERANNUAL VARIABILITY IN OZONE:DIFFERENCE BETWEEN OCT 97 AND OCT 96 TOMS Chandra et al. [2002]

TOMS/MLS TROPOSPHERIC OZONE PROVIDES FURTHER EVIDENCE THAT OZONE IS TOO HIGH OVER INDIA 30 N Dobson Units for March, April, May TOMS/MLS 30 S 30 N GEOS-CHEM Chandra et al., 2003 30 S

SUPPORT FOR GMI OPERATIONAL HCHO RETRIEVAL ALGORITHM FOR OMI Uses Monthly Mean HCHO Shape Factors from GEOS-CHEM • Provide GEOS-CHEM resultsfor various simulations (i.e. with and without aerosols) • Assist interpretation of model results EVALUATE GEOS-CHEM SIMULATION OF NOX With In Situ NO2 Measurements from SOS (1999) and TEXAQS (2000)

FUTURE USE OF GEOS-CHEM AT DALHOUSIE Likely local platforms: 8-Processor 1.2 GHz Sun Fire 3800 (Works!, credit Yantosca) 20-Processor 700 MHz SGI Origin 350 Continued support for GMI Real-time HCHO and NO2 Retrievals from SCIAMACHY for INTEXUse Shape Factors from GEOS-CHEMRetrieval and Interpretation of HCHO, NO2, SO2, O3, BrO, CO from TOMS / GOME / SCIAMACHY / OMIInterpretation of satellite observations from MOPITT, MODIS, TES, … and aircraft missions such as INTEX, ITCT-2K4, …

USE OF GEOS-CHEM BY SMITHSONIAN ASTROPHYSICAL OBSERVATORY AND DALHOUSIE UNIVERSITY

USE OF GEOS-CHEM BY SMITHSONIAN ASTROPHYSICAL OBSERVATORY AND DALHOUSIE UNIVERSITY

Presentation Transcript

The Astrophysical Virtual Observatory

Dalhousie University

DALHOUSIE UNIVERSITY

Brad Wargelin Chandra X-Ray Center Smithsonian Astrophysical Observatory

GEOS–Chem Support Staff

GEOS-CHEM: Platforms and Resolution

GEOS-CHEM Activities at NIA

Martin Elvis Smithsonian Astrophysical Observatory

German Astrophysical Virtual Observatory

German Astrophysical Virtual Observatory

Marie Machacek Smithsonian Astrophysical Observatory

GEOS–CHEM, Transition to ESMF, and GEOS-5 met fields

Dalhousie University

GEOS–CHEM: Code Management and Benchmarking

The astrophysical Virtual Observatory

GEOS-CHEM at the University of Washington

German Astrophysical Virtual Observatory

Smithsonian Astrophysical Observatory, April 22, 2002

German Astrophysical Virtual Observatory

German Astrophysical Virtual Observatory

German Astrophysical Virtual Observatory

Trish Jibben Smithsonian Astrophysical Observatory Cambridge,MA