TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network

The major factors causing differences between satellite-derived and ground-based ultraviolet (UV) erythemal irradiances and doses are discussed. Measurements totaling more than 4700 days during 1997-1999 were obtained at 8 stations (22°S-64°S) of the Argentine UV Monitoring Network. The satellite re...

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Detalles Bibliográficos
Publicado: 2004
Materias:
Erythemal irradiance
Ground-based measurements
Satellite-derived data
albedo
atmospheric correction
ground-based measurement
irradiance
ozone
radiative transfer
remote sensing
ultraviolet radiation
Argentina
Pampas
Patagonia
South America
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01480227_v109_n8_pD081091_Cede
http://hdl.handle.net/20.500.12110/paper_01480227_v109_n8_pD081091_Cede
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_01480227_v109_n8_pD081091_Cede
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spelling paper:paper_01480227_v109_n8_pD081091_Cede2023-06-08T15:13:05Z TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network Erythemal irradiance Ground-based measurements Satellite-derived data albedo atmospheric correction ground-based measurement irradiance ozone radiative transfer remote sensing ultraviolet radiation Argentina Pampas Patagonia South America The major factors causing differences between satellite-derived and ground-based ultraviolet (UV) erythemal irradiances and doses are discussed. Measurements totaling more than 4700 days during 1997-1999 were obtained at 8 stations (22°S-64°S) of the Argentine UV Monitoring Network. The satellite retrieval uses radiative transfer calculations for cloud- and aerosol-free conditions multiplied by correction factors for clouds and aerosols. Key parameters are total ozone, cloud optical depth, and surface albedo derived from Total Ozone Mapping Spectrometer (TOMS). When no aerosol correction is applied, systematic differences of satellite-derived erythemal irradiance relative to ground-based measurements amount to +1% at a tropical high-altitude Andean location, +10% at stations in the central Pampas, +5% at southern Patagonian sites, and -7% at the southernmost continental and Antarctic stations with varying snow cover. When an aerosol correction is applied by estimating "minimum" and "maximum" aerosol loading, the systematic differences are within ±10% for all "snow-free" stations. To reduce the differences at places with varying snow conditions, an "average surface-albedo climatology" must be used instead the TOMS climatology of minimum albedo. Although the statistical uncertainty of the differences increases with TOMS reflectivity, the systematic difference is independent of TOMS reflectivity for most of the stations, so on average the comparison for cloudy situations is as good as for clear-sky conditions. The comparison for daily erythemal doses gives similar results with smaller statistical uncertainty. Measured uncertainties are in agreement with a theoretical analysis. For most locations, well-characterized ground-based instruments should agree with TOMS satellite estimations within 10% if aerosol corrections are known. Copyright 2004 by the American Geophysical Union. 2004 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01480227_v109_n8_pD081091_Cede http://hdl.handle.net/20.500.12110/paper_01480227_v109_n8_pD081091_Cede
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Erythemal irradiance
Ground-based measurements
Satellite-derived data
albedo
atmospheric correction
ground-based measurement
irradiance
ozone
radiative transfer
remote sensing
ultraviolet radiation
Argentina
Pampas
Patagonia
South America
spellingShingle Erythemal irradiance
Ground-based measurements
Satellite-derived data
albedo
atmospheric correction
ground-based measurement
irradiance
ozone
radiative transfer
remote sensing
ultraviolet radiation
Argentina
Pampas
Patagonia
South America
TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network
topic_facet Erythemal irradiance
Ground-based measurements
Satellite-derived data
albedo
atmospheric correction
ground-based measurement
irradiance
ozone
radiative transfer
remote sensing
ultraviolet radiation
Argentina
Pampas
Patagonia
South America
description The major factors causing differences between satellite-derived and ground-based ultraviolet (UV) erythemal irradiances and doses are discussed. Measurements totaling more than 4700 days during 1997-1999 were obtained at 8 stations (22°S-64°S) of the Argentine UV Monitoring Network. The satellite retrieval uses radiative transfer calculations for cloud- and aerosol-free conditions multiplied by correction factors for clouds and aerosols. Key parameters are total ozone, cloud optical depth, and surface albedo derived from Total Ozone Mapping Spectrometer (TOMS). When no aerosol correction is applied, systematic differences of satellite-derived erythemal irradiance relative to ground-based measurements amount to +1% at a tropical high-altitude Andean location, +10% at stations in the central Pampas, +5% at southern Patagonian sites, and -7% at the southernmost continental and Antarctic stations with varying snow cover. When an aerosol correction is applied by estimating "minimum" and "maximum" aerosol loading, the systematic differences are within ±10% for all "snow-free" stations. To reduce the differences at places with varying snow conditions, an "average surface-albedo climatology" must be used instead the TOMS climatology of minimum albedo. Although the statistical uncertainty of the differences increases with TOMS reflectivity, the systematic difference is independent of TOMS reflectivity for most of the stations, so on average the comparison for cloudy situations is as good as for clear-sky conditions. The comparison for daily erythemal doses gives similar results with smaller statistical uncertainty. Measured uncertainties are in agreement with a theoretical analysis. For most locations, well-characterized ground-based instruments should agree with TOMS satellite estimations within 10% if aerosol corrections are known. Copyright 2004 by the American Geophysical Union.
title TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network
title_short TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network
title_full TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network
title_fullStr TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network
title_full_unstemmed TOMS-derived erythemal irradiance versus measurements at the stations of the Argentine UV Monitoring Network
title_sort toms-derived erythemal irradiance versus measurements at the stations of the argentine uv monitoring network
publishDate 2004
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01480227_v109_n8_pD081091_Cede
http://hdl.handle.net/20.500.12110/paper_01480227_v109_n8_pD081091_Cede
_version_ 1768543794498633728

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