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NIGHTTIME AEROSOL RETRIEVALS PROVIDING LARGE SPATIAL AND TEMPORAL COVERAGE ALTHOUGH CRITICAL TO VARIOUS STUDIES INCLUDING AEROSOL MODELING AIR QUALITY AND CLIMATE STUDIES CURRENTLY DO NOT EXIST. WITH THE RECENT AVAILABILITY OF CALIBRATED NIGHTTIME OBSERVATIONS OF VISIBLE/NEAR-INFRARED LIGHT FROM THE VISIBLE/INFRARED IMAGING RADIOMETER SUITE (VIIRS) DAY/NIGHT BAND (DNB) NIGHTTIME SURFACE AND ARTIFICIAL LIGHT SOURCE CHARACTERISTICS FROM THE NASA BLACK MARBLE (LEVERAGING VIIRS/DNB) A DNB-SPECIFIC LUNAR ILLUMINATION DATABASE AND NEWLY RELEASED GROUND-BASED LUNAR PHOTOMETER OBSERVATIONS IT IS NOW FEASIBLE TO INVESTIGATE AND EVALUATE METHODS FOR NIGHTTIME AEROSOL RETRIEVALS OVER LARGE SPATIAL DOMAINS. IN THIS LIGHT WE PROPOSE TO: (1) DEVELOP NOVEL METHODS FOR NIGHTTIME AEROSOL OPTICAL DEPTH RETRIEVALS USING QUALITY CONTROLLED NASA BLACK MARBLE PRODUCTS OVER REGIONS WITH ARTIFICIAL LIGHT SOURCES FOR BOTH MOONLESS AND MOON-ILLUMINATED NIGHTTIME OBSERVATIONS. (2) CONSTRUCT AN ADVANCED VLIDORT-BASED LINEARIZED RADIATIVE TRANSFER MODEL FOR SIMULATING TOA NIGHTTIME RADIANCES AND AEROSOL PROPERTY JACOBIANS (DESCRIBING THE SENSITIVITY OF OBSERVATIONS TO CHANGES IN AEROSOL PARAMETERS) FOR VIIRS DNB CONFIGURATIONS. THE NEW SYSTEM WILL BE APPLIED FOR NIGHTTIME AEROSOL RETRIEVALS OVER REGIONS WITH ARTIFICIAL LIGHT SOURCES USING SIMILAR APPROACHES AS THOSE LEARNED FROM (1) AS WELL AS OVER AREAS WITHOUT ARTIFICIAL LIGHT SOURCES SUCH AS OVER OCEANS USING A SINGLE CHANNEL ALBEDO-BASED APPROACH UTILIZING SURFACE BRDF AS REPORTED IN THE NASA BLACK MARBLE PRODUCTS. (3) AS A FEEDBACK STUDY CONDUCT RESEARCH INTO THE IMPACTS OF AEROSOL CONTAMINATION IN THE NASA S BLACK MARBLE PRODUCT SUITE. WE WILL USE THE NEWLY DEVELOPED NIGHTTIME AOD DATA TO QUANTIFY AND REDUCE AEROSOL-INDUCED UNCERTAINTIES IN NASA S BLACK MARBLE PRODUCTS (VNP46) LEADING TO AN IMPROVED SUITE OF PRODUCTS FOR A VARIETY OF DOWNSTREAM SURFACE AND ATMOSPHERIC APPLICATIONS. THE PROPOSED STUDY WILL BE EVALUATED RIGOROUSLY BY LUNAR PHOTOMETER MEASUREMENTS WHICH HAVE RECENTLY BECOME AVAILABLE (JANUARY 2019) FROM THE NASA AERONET TEAM AS WELL AS THROUGH INTER-COMPARISONS WITH NIGHTTIME AEROSOL RETRIEVALS FROM CALIOP (SPACEBORNE LIDAR).

$481,970FY2020National Aeronautics and Space AdministrationNASA

University Of North Dakota, Grand Forks ND

Investigators

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