Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science

Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science

We present carbon dioxide (CO<sub>2</sub>) estimates from the Tropospheric Emission Spectrometer (TES) on the EOS-Aura satellite launched in 2004. For observations between 40° S and 45° N, we find about 1 degree of freedom with peak sensitivity at 511 hPa. The estimated error is ~10 ppm...

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Main Authors: S. C. Biraud, M. L. Fischer, H. Matsueda, Y. Sawa, T. Machida, K. W. Bowman, J. R. Worden, F. W. Irion, R. Nassar, D. B. A. Jones, S. S. Kulawik, A. R. Jacobson
Format: Article
Language:English
Published: Copernicus Publications 2010-06-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/10/5601/2010/acp-10-5601-2010.pdf
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spelling doaj-7c521792888247fa9e4cdfbd86aa297c2020-11-24T23:40:40ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242010-06-0110125601562310.5194/acp-10-5601-2010Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle scienceS. C. BiraudM. L. FischerH. MatsuedaY. SawaT. MachidaK. W. BowmanJ. R. WordenF. W. IrionR. NassarD. B. A. JonesS. S. KulawikA. R. JacobsonWe present carbon dioxide (CO<sub>2</sub>) estimates from the Tropospheric Emission Spectrometer (TES) on the EOS-Aura satellite launched in 2004. For observations between 40° S and 45° N, we find about 1 degree of freedom with peak sensitivity at 511 hPa. The estimated error is ~10 ppm for a single target and 1.3–2.3 ppm for monthly averages on spatial scales of 20&deg;&times;30°. Monthly spatially-averaged TES data from 2005–2008 processed with a uniform initial guess and prior are compared to CONTRAIL aircraft data over the Pacific ocean, aircraft data at the Southern Great Plains (SGP) ARM site in the southern US, and the Mauna Loa and Samoa surface stations. Comparisons to Mauna Loa data show a correlation of 0.92, a standard deviation of 1.3 ppm, a predicted error of 1.2 ppm, and a ~2% low bias, which is subsequently corrected. Comparisons to SGP aircraft data over land show a correlation of 0.67 and a standard deviation of 2.3 ppm. TES data between 40° S and 45° N for 2006–2007 are compared to surface flask data, GLOBALVIEW, the Atmospheric Infrared Sounder (AIRS), and CarbonTracker. Comparison to GLOBALVIEW-CO<sub>2</sub> ocean surface sites shows a correlation of 0.60 which drops when TES is offset in latitude, longitude, or time. At these same locations, TES shows a 0.62 and 0.67 correlation to CarbonTracker at the surface and 5 km, respectively. We also conducted an observing system simulation experiment to assess the potential utility of the TES data for inverse modeling of CO<sub>2</sub> fluxes. We find that if biases in the data and model are well characterized, the averaged data have the potential to provide sufficient information to significantly reduce uncertainty on annual estimates of regional CO<sub>2</sub> sources and sinks. Averaged pseudo-data at 10&deg;&times;10° reduced uncertainty in flux estimates by as much as 70% for some tropical regions. http://www.atmos-chem-phys.net/10/5601/2010/acp-10-5601-2010.pdf
collection DOAJ
language English
format Article
sources DOAJ
author S. C. Biraud
M. L. Fischer
H. Matsueda
Y. Sawa
T. Machida
K. W. Bowman
J. R. Worden
F. W. Irion
R. Nassar
D. B. A. Jones
S. S. Kulawik
A. R. Jacobson
spellingShingle S. C. Biraud
M. L. Fischer
H. Matsueda
Y. Sawa
T. Machida
K. W. Bowman
J. R. Worden
F. W. Irion
R. Nassar
D. B. A. Jones
S. S. Kulawik
A. R. Jacobson
Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science
Atmospheric Chemistry and Physics
author_facet S. C. Biraud
M. L. Fischer
H. Matsueda
Y. Sawa
T. Machida
K. W. Bowman
J. R. Worden
F. W. Irion
R. Nassar
D. B. A. Jones
S. S. Kulawik
A. R. Jacobson
author_sort S. C. Biraud
title Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science
title_short Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science
title_full Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science
title_fullStr Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science
title_full_unstemmed Characterization of Tropospheric Emission Spectrometer (TES) CO<sub>2</sub> for carbon cycle science
title_sort characterization of tropospheric emission spectrometer (tes) co<sub>2</sub> for carbon cycle science
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2010-06-01
description We present carbon dioxide (CO<sub>2</sub>) estimates from the Tropospheric Emission Spectrometer (TES) on the EOS-Aura satellite launched in 2004. For observations between 40° S and 45° N, we find about 1 degree of freedom with peak sensitivity at 511 hPa. The estimated error is ~10 ppm for a single target and 1.3–2.3 ppm for monthly averages on spatial scales of 20&deg;&times;30°. Monthly spatially-averaged TES data from 2005–2008 processed with a uniform initial guess and prior are compared to CONTRAIL aircraft data over the Pacific ocean, aircraft data at the Southern Great Plains (SGP) ARM site in the southern US, and the Mauna Loa and Samoa surface stations. Comparisons to Mauna Loa data show a correlation of 0.92, a standard deviation of 1.3 ppm, a predicted error of 1.2 ppm, and a ~2% low bias, which is subsequently corrected. Comparisons to SGP aircraft data over land show a correlation of 0.67 and a standard deviation of 2.3 ppm. TES data between 40° S and 45° N for 2006–2007 are compared to surface flask data, GLOBALVIEW, the Atmospheric Infrared Sounder (AIRS), and CarbonTracker. Comparison to GLOBALVIEW-CO<sub>2</sub> ocean surface sites shows a correlation of 0.60 which drops when TES is offset in latitude, longitude, or time. At these same locations, TES shows a 0.62 and 0.67 correlation to CarbonTracker at the surface and 5 km, respectively. We also conducted an observing system simulation experiment to assess the potential utility of the TES data for inverse modeling of CO<sub>2</sub> fluxes. We find that if biases in the data and model are well characterized, the averaged data have the potential to provide sufficient information to significantly reduce uncertainty on annual estimates of regional CO<sub>2</sub> sources and sinks. Averaged pseudo-data at 10&deg;&times;10° reduced uncertainty in flux estimates by as much as 70% for some tropical regions.
url http://www.atmos-chem-phys.net/10/5601/2010/acp-10-5601-2010.pdf
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