Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery

We examine the impact of atmospheric correction, specifically aerosol model selection, on retrieval of bio-optical properties from satellite ocean color imagery. Uncertainties in retrievals of bio-optical properties (such as chlorophyll, absorption, and backscattering coefficients) from satellite oc...

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Bibliographic Details
Main Authors: McCarthy, Sean C, Gould, Jr, Richard W, Richman, James, Kearney, Courtney, Lawson, Adam
Other Authors: NAVAL RESEARCH LAB STENNIS DETACHMENT STENNIS SPACE CENTER MS
Format: Text
Language:English
Published: 2012
Subjects:
Atmospheric Physics
Physical and Dynamic Oceanography
Optical Detection and Detectors
*AEROSOLS
CORRECTIONS
MODELS
OCEANS
REPRINTS
SATELLITE IMAGERY
AERONET-OC
AEROSOL MODELS
ATMOSPHERIC CORRECTION
BIO-OPTICAL PROPERTIES
MODIS
NORMALIZED WATER-LEAVING RADIANCE
OCEAN COLOR
PE0602435N
Aerosol Robotic Network
Online Access:http://www.dtic.mil/docs/citations/ADA570978
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA570978
id ftdtic:ADA570978
record_format openpolar
spelling ftdtic:ADA570978 2023-05-15T13:06:43+02:00 Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery McCarthy, Sean C Gould, Jr, Richard W Richman, James Kearney, Courtney Lawson, Adam NAVAL RESEARCH LAB STENNIS DETACHMENT STENNIS SPACE CENTER MS 2012-11-22 text/html http://www.dtic.mil/docs/citations/ADA570978 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA570978 en eng http://www.dtic.mil/docs/citations/ADA570978 Approved for public release; distribution is unlimited. DTIC Atmospheric Physics Physical and Dynamic Oceanography Optical Detection and Detectors *AEROSOLS CORRECTIONS MODELS OCEANS REPRINTS SATELLITE IMAGERY AERONET-OC AEROSOL MODELS ATMOSPHERIC CORRECTION BIO-OPTICAL PROPERTIES MODIS NORMALIZED WATER-LEAVING RADIANCE OCEAN COLOR PE0602435N Text 2012 ftdtic 2016-02-24T09:57:09Z We examine the impact of atmospheric correction, specifically aerosol model selection, on retrieval of bio-optical properties from satellite ocean color imagery. Uncertainties in retrievals of bio-optical properties (such as chlorophyll, absorption, and backscattering coefficients) from satellite ocean color imagery are related to a variety of factors, including errors associated with sensor calibration, atmospheric correction, and the bio-optical inversion algorithms. In many cases, selection of an inappropriate or erroneous aerosol model during atmospheric correction can dominate the errors in the satellite estimation of the normalized water-leaving radiances (nLw), especially over turbid, coastal waters. These errors affect the downstream bio-optical properties. Here, we focus on the impact of aerosol model selection on the nLw radiance estimates by comparing Aerosol Robotic Network-Ocean Color (AERONET-OC) measurements of nLw and aerosol optical depth (AOD) to satellite-derived values from Moderate Resolution Imaging Spectroradiometer (MODIS) and Sea-viewing Wide Field-of-view Sensor (SeaWiFS). We also apply noise to the satellite top-of-atmosphere (TOA) radiance values in the two near-infrared (NIR) wavelengths used for atmospheric correction, to assess the effect on aerosol model selection and nLw retrievals. In general, for the data sets examined, we found that as little as 1% uncertainty (noise) in the NIR TOA radiances can lead to the selection of a different pair of bounding aerosol models, thus changing nLw retrievals. We also compare aerosol size fraction retrieved from AERONET and size fraction represented by aerosol models selected during atmospheric correction. Published in Remote Sensing, v4 p3638-3665, 2012. Text Aerosol Robotic Network Defense Technical Information Center: DTIC Technical Reports database
institution Open Polar
collection Defense Technical Information Center: DTIC Technical Reports database
op_collection_id ftdtic
language English
topic Atmospheric Physics
Physical and Dynamic Oceanography
Optical Detection and Detectors
*AEROSOLS
CORRECTIONS
MODELS
OCEANS
REPRINTS
SATELLITE IMAGERY
AERONET-OC
AEROSOL MODELS
ATMOSPHERIC CORRECTION
BIO-OPTICAL PROPERTIES
MODIS
NORMALIZED WATER-LEAVING RADIANCE
OCEAN COLOR
PE0602435N
spellingShingle Atmospheric Physics
Physical and Dynamic Oceanography
Optical Detection and Detectors
*AEROSOLS
CORRECTIONS
MODELS
OCEANS
REPRINTS
SATELLITE IMAGERY
AERONET-OC
AEROSOL MODELS
ATMOSPHERIC CORRECTION
BIO-OPTICAL PROPERTIES
MODIS
NORMALIZED WATER-LEAVING RADIANCE
OCEAN COLOR
PE0602435N
McCarthy, Sean C
Gould, Jr, Richard W
Richman, James
Kearney, Courtney
Lawson, Adam
Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery
topic_facet Atmospheric Physics
Physical and Dynamic Oceanography
Optical Detection and Detectors
*AEROSOLS
CORRECTIONS
MODELS
OCEANS
REPRINTS
SATELLITE IMAGERY
AERONET-OC
AEROSOL MODELS
ATMOSPHERIC CORRECTION
BIO-OPTICAL PROPERTIES
MODIS
NORMALIZED WATER-LEAVING RADIANCE
OCEAN COLOR
PE0602435N
description We examine the impact of atmospheric correction, specifically aerosol model selection, on retrieval of bio-optical properties from satellite ocean color imagery. Uncertainties in retrievals of bio-optical properties (such as chlorophyll, absorption, and backscattering coefficients) from satellite ocean color imagery are related to a variety of factors, including errors associated with sensor calibration, atmospheric correction, and the bio-optical inversion algorithms. In many cases, selection of an inappropriate or erroneous aerosol model during atmospheric correction can dominate the errors in the satellite estimation of the normalized water-leaving radiances (nLw), especially over turbid, coastal waters. These errors affect the downstream bio-optical properties. Here, we focus on the impact of aerosol model selection on the nLw radiance estimates by comparing Aerosol Robotic Network-Ocean Color (AERONET-OC) measurements of nLw and aerosol optical depth (AOD) to satellite-derived values from Moderate Resolution Imaging Spectroradiometer (MODIS) and Sea-viewing Wide Field-of-view Sensor (SeaWiFS). We also apply noise to the satellite top-of-atmosphere (TOA) radiance values in the two near-infrared (NIR) wavelengths used for atmospheric correction, to assess the effect on aerosol model selection and nLw retrievals. In general, for the data sets examined, we found that as little as 1% uncertainty (noise) in the NIR TOA radiances can lead to the selection of a different pair of bounding aerosol models, thus changing nLw retrievals. We also compare aerosol size fraction retrieved from AERONET and size fraction represented by aerosol models selected during atmospheric correction. Published in Remote Sensing, v4 p3638-3665, 2012.
author2 NAVAL RESEARCH LAB STENNIS DETACHMENT STENNIS SPACE CENTER MS
format Text
author McCarthy, Sean C
Gould, Jr, Richard W
Richman, James
Kearney, Courtney
Lawson, Adam
author_facet McCarthy, Sean C
Gould, Jr, Richard W
Richman, James
Kearney, Courtney
Lawson, Adam
author_sort McCarthy, Sean C
title Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery
title_short Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery
title_full Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery
title_fullStr Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery
title_full_unstemmed Impact of Aerosol Model Selection on Water-Leaving Radiance Retrievals from Satellite Ocean Color Imagery
title_sort impact of aerosol model selection on water-leaving radiance retrievals from satellite ocean color imagery
publishDate 2012
url http://www.dtic.mil/docs/citations/ADA570978
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA570978
genre Aerosol Robotic Network
genre_facet Aerosol Robotic Network
op_source DTIC
op_relation http://www.dtic.mil/docs/citations/ADA570978
op_rights Approved for public release; distribution is unlimited.
_version_ 1766017834624745472

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