Advances in Geostationary-Derived Longwave Fluxes for the CERES Synoptic (SYN1deg) Product

The Clouds and the Earth’s Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes critical for climate and cloud feedback studies. To accurately monitor the earth’s radiation budget, the CERES instrument footprint fluxes mu...

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Vydáno v:Journal of atmospheric and oceanic technology Ročník 33; číslo 3; s. 503 - 521
Hlavní autoři: Doelling, David R., Sun, Moguo, Nguyen, Le Trang, Nordeen, Michele L., Haney, Conor O., Keyes, Dennis F., Mlynczak, Pamela E.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Boston American Meteorological Society 01.03.2016
Témata:
Algorithms
Atmospherics
Calibration
Channels
Climate
Climatic data
Cloud properties
Clouds
Data processing
Direct conversion
Fluxes
Geostationary satellites
Marine
Meteorological satellites
Narrowband
Radiance
Radiation
Radiation budget
Relative humidity
Reprocessing
Synchronous satellites
Trends
Water vapor
Water vapour
ISSN:0739-0572, 1520-0426
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Abstract The Clouds and the Earth’s Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes critical for climate and cloud feedback studies. To accurately monitor the earth’s radiation budget, the CERES instrument footprint fluxes must be spatially and temporally averaged properly. The CERES synoptic 1° (SYN1deg) product incorporates derived fluxes from the geostationary satellites (GEOs) to account for the regional diurnal flux variations in between Terra and Aqua CERES measurements. The Edition 4 CERES reprocessing effort has provided the opportunity to reevaluate the derivation of longwave (LW) fluxes from GEO narrowband radiances by examining the improvements from incorporating 1-hourly versus 3-hourly GEO data, additional GEO infrared (IR) channels, and multichannel GEO cloud properties. The resultant GEO LW fluxes need to be consistent across the 16-satellite climate data record. To that end, the addition of the water vapor channel, available on all GEOs, was more effective than using a reanalysis dataset’s column-weighted relative humidity combined with the window channel radiance. The benefit of the CERES LW angular directional model to derive fluxes was limited by the inconsistency of the GEO cloud retrievals. Greater success was found in the direct conversion of window and water vapor channel radiances into fluxes. Incorporating 1-hourly GEO fluxes had the greatest impact on improving the accuracy of high-temporal-resolution fluxes, and normalizing the GEO LW fluxes with CERES greatly reduced the monthly regional LW flux bias.
AbstractList The Clouds and the Earth's Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes critical for climate and cloud feedback studies. To accurately monitor the earth's radiation budget, the CERES instrument footprint fluxes must be spatially and temporally averaged properly. The CERES synoptic 18 (SYN1deg) product incorporates derived fluxes from the geostationary satellites (GEOs) to account for the regional diurnal flux variations in between Terra and Aqua CERES measurements. The Edition 4 CERES reprocessing effort has provided the opportunity to reevaluate the derivation of longwave (LW) fluxes from GEO narrowband radiances by examining the improvements from incorporating 1-hourly versus 3-hourly GEO data, additional GEO infrared (IR) channels, and multichannel GEO cloud properties. The resultant GEO LW fluxes need to be consistent across the 16-satellite climate data record. To that end, the addition of the water vapor channel, available on all GEOs, was more effective than using a reanalysis dataset's column-weighted relative humidity combined with the window channel radiance. The benefit of the CERES LW angular directional model to derive fluxes was limited by the inconsistency of the GEO cloud retrievals. Greater success was found in the direct conversion of window and water vapor channel radiances into fluxes. Incorporating 1-hourly GEO fluxes had the greatest impact on improving the accuracy of high-temporal-resolution fluxes, and normalizing the GEO LW fluxes with CERES greatly reduced the monthly regional LW flux bias.
The Clouds and the Earth's Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes critical for climate and cloud feedback studies. To accurately monitor the earth's radiation budget, the CERES instrument footprint fluxes must be spatially and temporally averaged properly. The CERES synoptic 1 degree (SYN1deg) product incorporates derived fluxes from the geostationary satellites (GEOs) to account for the regional diurnal flux variations in between Terra and Aqua CERES measurements. The Edition 4 CERES reprocessing effort has provided the opportunity to reevaluate the derivation of longwave (LW) fluxes from GEO narrowband radiances by examining the improvements from incorporating 1-hourly versus 3-hourly GEO data, additional GEO infrared (IR) channels, and multichannel GEO cloud properties. The resultant GEO LW fluxes need to be consistent across the 16-satellite climate data record. To that end, the addition of the water vapor channel, available on all GEOs, was more effective than using a reanalysis dataset's column-weighted relative humidity combined with the window channel radiance. The benefit of the CERES LW angular directional model to derive fluxes was limited by the inconsistency of the GEO cloud retrievals. Greater success was found in the direct conversion of window and water vapor channel radiances into fluxes. Incorporating 1-hourly GEO fluxes had the greatest impact on improving the accuracy of high-temporal-resolution fluxes, and normalizing the GEO LW fluxes with CERES greatly reduced the monthly regional LW flux bias.
The Clouds and the Earth’s Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes critical for climate and cloud feedback studies. To accurately monitor the earth’s radiation budget, the CERES instrument footprint fluxes must be spatially and temporally averaged properly. The CERES synoptic 1° (SYN1deg) product incorporates derived fluxes from the geostationary satellites (GEOs) to account for the regional diurnal flux variations in between Terra and Aqua CERES measurements. The Edition 4 CERES reprocessing effort has provided the opportunity to reevaluate the derivation of longwave (LW) fluxes from GEO narrowband radiances by examining the improvements from incorporating 1-hourly versus 3-hourly GEO data, additional GEO infrared (IR) channels, and multichannel GEO cloud properties. The resultant GEO LW fluxes need to be consistent across the 16-satellite climate data record. To that end, the addition of the water vapor channel, available on all GEOs, was more effective than using a reanalysis dataset’s column-weighted relative humidity combined with the window channel radiance. The benefit of the CERES LW angular directional model to derive fluxes was limited by the inconsistency of the GEO cloud retrievals. Greater success was found in the direct conversion of window and water vapor channel radiances into fluxes. Incorporating 1-hourly GEO fluxes had the greatest impact on improving the accuracy of high-temporal-resolution fluxes, and normalizing the GEO LW fluxes with CERES greatly reduced the monthly regional LW flux bias.
The Clouds and the Earth’s Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes critical for climate and cloud feedback studies. To accurately monitor the earth’s radiation budget, the CERES instrument footprint fluxes must be spatially and temporally averaged properly. The CERES synoptic 1° (SYN1deg) product incorporates derived fluxes from the geostationary satellites (GEOs) to account for the regional diurnal flux variations in between Terra and Aqua CERES measurements. The Edition 4 CERES reprocessing effort has provided the opportunity to reevaluate the derivation of longwave (LW) fluxes from GEO narrowband radiances by examining the improvements from incorporating 1-hourly versus 3-hourly GEO data, additional GEO infrared (IR) channels, and multichannel GEO cloud properties. The resultant GEO LW fluxes need to be consistent across the 16-satellite climate data record. To that end, the addition of the water vapor channel, available on all GEOs, was more effective than using a reanalysis dataset’s column-weighted relative humidity combined with the window channel radiance. The benefit of the CERES LW angular directional model to derive fluxes was limited by the inconsistency of the GEO cloud retrievals. Greater success was found in the direct conversion of window and water vapor channel radiances into fluxes. Incorporating 1-hourly GEO fluxes had the greatest impact on improving the accuracy of high-temporal-resolution fluxes, and normalizing the GEO LW fluxes with CERES greatly reduced the monthly regional LW flux bias.
Author Nordeen, Michele L.
Doelling, David R.
Nguyen, Le Trang
Mlynczak, Pamela E.
Haney, Conor O.
Sun, Moguo
Keyes, Dennis F.
Author_xml – sequence: 1
  givenname: David R.
  surname: Doelling
  fullname: Doelling, David R.
  organization: NASA Langley Research Center, Hampton, Virginia
– sequence: 2
  givenname: Moguo
  surname: Sun
  fullname: Sun, Moguo
  organization: Science Systems and Applications, Inc., Hampton, Virginia
– sequence: 3
  givenname: Le Trang
  surname: Nguyen
  fullname: Nguyen, Le Trang
  organization: Science Systems and Applications, Inc., Hampton, Virginia
– sequence: 4
  givenname: Michele L.
  surname: Nordeen
  fullname: Nordeen, Michele L.
  organization: Science Systems and Applications, Inc., Hampton, Virginia
– sequence: 5
  givenname: Conor O.
  surname: Haney
  fullname: Haney, Conor O.
  organization: Science Systems and Applications, Inc., Hampton, Virginia
– sequence: 6
  givenname: Dennis F.
  surname: Keyes
  fullname: Keyes, Dennis F.
  organization: Science Systems and Applications, Inc., Hampton, Virginia
– sequence: 7
  givenname: Pamela E.
  surname: Mlynczak
  fullname: Mlynczak, Pamela E.
  organization: Science Systems and Applications, Inc., Hampton, Virginia
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ContentType Journal Article
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PublicationCentury 2000
PublicationDate 2016-03-00
20160301
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PublicationTitle Journal of atmospheric and oceanic technology
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Publisher American Meteorological Society
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Gube (bib9) 1982; 21
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Dewitte (bib4) 2008; 41
Clerbaux (bib2) 2009; 113
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Snippet The Clouds and the Earth’s Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes...
The Clouds and the Earth's Radiant Energy System (CERES) project has provided the climate community 15 years of globally observed top-of-the-atmosphere fluxes...
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SubjectTerms Algorithms
Atmospherics
Calibration
Channels
Climate
Climatic data
Cloud properties
Clouds
Data processing
Direct conversion
Fluxes
Geostationary satellites
Marine
Meteorological satellites
Narrowband
Radiance
Radiation
Radiation budget
Relative humidity
Reprocessing
Synchronous satellites
Trends
Water vapor
Water vapour
Title Advances in Geostationary-Derived Longwave Fluxes for the CERES Synoptic (SYN1deg) Product
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