NITROGEN OXIDES (NOX=NO+NO2) PRODUCED DURING COMBUSTION PROCESSES ARE DESIGNATED AS CRITERIA POLLUTANTS BY THE US ENVIRONMENTAL PROTECTION AGENCY (EPA) DUE TO THEIR NEGATIVE EFFECTS ON PUBLIC HEALTH AND THE ENVIRONMENT. THEY ARE PRECURSORS OF OZONE AND PARTICULAR MATTER BOTH OF WHICH ARE ALSO CRITERIA POLLUTANTS THAT HAVE IMPORTANT IMPLICATIONS FOR AIR QUALITY CROP YIELDS AND CLIMATE. WHILE SEVERAL SPACE-BASED INSTRUMENTS HAVE MADE NO2 OBSERVATIONS OVER THE PAST 20+ YEARS THE SATELLITE-BASED NO2 DATASETS HAVE RARELY BEEN ANALYZED TOGETHER IN A SYSTEMATIC WAY DUE TO ALGORITHMIC INSTRUMENTAL AND OBSERVATIONAL DIFFERENCES. WE PROPOSE TO DEVELOP CONSISTENT LONG-TERM GLOBAL DATA RECORDS OF TROPOSPHERIC AND STRATOSPHERIC NO2 COLUMNS AS WELL AS VALUE ADDED SURFACE NO2 CONCENTRATIONS AND ANTHROPOGENIC NOX EMISSIONS BY APPLYING OUR MATURE NO2 ALGORITHMS DEVELOPED FOR THE NASA EARTH OBSERVING SYSTEM (EOS) AURA OZONE MONITORING INSTRUMENT (OMI) TO SIMILAR SATELLITE SPECTROMETERS INCLUDING HERITAGE CONCURRENT AND UPCOMING INSTRUMENTS THAT OBSERVE AT DIFFERENT TIMES OF DAY. OVER THE PAST 12 YEARS OUR NASA OMI SCIENCE TEAM HAS DEVELOPED IMPLEMENTED AND MAINTAINED THE OFFICIAL NASA OMI NO2 PRODUCT. OUR OMI NO2 PRODUCT ARCHIVED AT THE NASA GODDARD EARTH SCIENCES DATA AND INFORMATION SERVICES CENTER (GES-DISC) HAS BEEN WIDELY USED TO QUANTIFY TROPOSPHERIC POLLUTION LEVELS STUDY DECADAL WORLD-WIDE CHANGES IN NO2 EVALUATE CHEMICAL TRANSPORT MODELS INFER NOX EMISSIONS AND STUDY NOX CHEMISTRY AND LIFETIME. OMI NO2 IS ONE OF THE MOST WIDELY UTILIZED AURA DATASETS WITH OVER 400 RESEARCH ARTICLES. THE PAPER DESCRIBING OUR VERSION 2 NO2 DATA SET (BUCSELA ET AL. 2013) IS THE SECOND MOST DOWNLOADED PAPER IN THE HISTORY OF THE JOURNAL ATMOSPHERIC MEASUREMENT TECHNIQUES. THE NUMBER OF USERS SCIENCE APPLICATIONS AND PUBLICATIONS FROM THESE DATA CONTINUES TO GROW. OUR TEAM S COMBINED EXPERTISE AND DEMONSTRATED ABILITY TO DELIVER TIMELY AND QUALITY PRODUCTS TO THE COMMUNITY (E.G. OPERATIONAL LEVEL 1 CALIBRATION LEVEL 2 NO2 AND CLOUD RETRIEVAL ALGORITHMS AND ATMOSPHERIC MODELING) PROVIDE CONFIDENCE THAT THE PRIMARY OBJECTIVES OF THIS PROPOSAL WILL BE MET IN A TIMELY MANNER: OBJECTIVE #1: ADAPT OMI OPERATIONAL ALGORITHMS TO OTHER SATELLITE INSTRUMENTS AND CREATE AND ARCHIVE CONSISTENT MULTI-SATELLITE LEVEL-2 AND LEVEL 3 NO2 PRODUCTS. WE WILL ADAPT OUR WELL-VALIDATED OMI NO2 CLOUD AND GEOMETRY-DEPENDENT SURFACE REFLECTIVITY RETRIEVAL ALGORITHMS TO PRIOR AND CONTEMPORANEOUS SATELLITE INSTRUMENTS THAT INCLUDE GLOBAL OZONE MONITORING EXPERIMENT (GOME 1996-2003) SCANNING IMAGING ABSORPTION SPECTROMETER FOR ATMOSPHERIC CHARTOGRAPHY (SCIAMACHY 2002-2012) GOME-2 (2007-PRESENT) AND TROPOSPHERIC MONITORING INSTRUMENT (TROPOMI EXPECTED LAUNCH IN AUGUST 2017). THE PROPOSED ADAPTATION OF THE OMI L2 ALGORITHMS TO THESE INSTRUMENTS WILL PROVIDE A SELF-CONSISTENT LONG-TERM RECORDS IDEALLY SUITED FOR ANALYSIS OF GLOBAL TRENDS DIURNAL CHANGES IN NO2 COLUMNS AND NOX EMISSIONS. OBJECTIVE #2: EVALUATE DATA SETS DEVELOPED IN OBJECTIVE #1 FOR CONSISTENCY. WE WILL ASSESS MULTI-SATELLITE DATA FROM OBJECTIVE #1 USING INDEPENDENT OBSERVATIONS FROM GROUND-BASED AND IN-SITU SENSORS AND CHARACTERIZE MULTI-SATELLITE CONSISTENCY ACCOUNTING FOR CHANGES IN SATELLITE FOOTPRINT SIZES AND NO2 DIURNAL CYCLES. WE WILL CONDUCT MULTI-SENSOR CROSS-CALIBRATION ANALYSES BY 1) DETERMINING VICARIOUS CALIBRATION ADJUSTMENT FACTORS 2) SYSTEMATICALLY EVALUATING THE TEMPORAL STABILITY OF THE SATELLITE SPECTROMETERS AND 3) ASSESSING THE ACCURACY OF DERIVED PRODUCTS AND THEIR CONSISTENCY. OBJECTIVE #3: GENERATE AND ARCHIVE HIGHER LEVEL (L4) PRODUCTS. USING THE OUTCOMES FROM OBJECTIVES #1 AND #2 AND RECENT ADVANCES IN NASA S MODELING CAPABILITIES WE WILL GENERATE HIGHER LEVEL 4 PRODUCTS TO ENABLE NEW SCIENCE AND APPLIED PROJECTS: SURFACE NO2 CONCENTRATIONS AND NOX EMISSIONS.
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Universities Space Research Association, Washington DC