Precision requirements for space‐based  data

Miller, Charles E.; Crisp, David; DeCola, Philip L.; Olsen, S. C.; Randerson, James T.; Michalak, A. M.; Alkhaled, A. A.; Rayner, P. J.; Jacob, Daniel J.; Suntharalingam, Parvadha; Jones, Dylan B. A.; Denning, Scott; Nicholls, Melville E.; Doney, Scott C.; Pawson, Steven; Boesch, Hartmut; Connor, B. J.; Fung, Inez; O’Brien, D. M.; Salawitch, R. J.; Sander, S.; Sen, B.; Tans, Pieter P.; Toon, G. C.; Wennberg, P. O.; Wofsy, Steven C.; Yung, Y. L.; Law, R. M.

doi:10.1029/2006jd007659

Cited by 353 publications

(339 citation statements)

References 64 publications

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“…NDACC). In fact, the precision requirement on the TCCON X CO 2 is likely to be stricter than for satellite instruments such as the Orbiting Carbon Observatory, which is calculated to be approximately 0.25 per cent (less than 1 ppm) for global monthly means [15]. This is because of the reduced spatial density of the TCCON observations, and because the TCCON measurements must be more precise and accurate than the satellite measurements if they are to provide a useful validation dataset.…”

Section: Technical Approach and Methodologymentioning

confidence: 96%

The Total Carbon Column Observing Network

Wunch

Toon

Blavier

et al. 2011

Phil. Trans. R. Soc. A.

1,047

1,231

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A global network of ground-based Fourier transform spectrometers has been founded to remotely measure column abundances of CO 2 , CO, CH 4 , N 2 O and other molecules that absorb in the near-infrared. These measurements are directly comparable with the near-infrared total column measurements from space-based instruments. With stringent requirements on the instrumentation, acquisition procedures, data processing and calibration, the Total Carbon Column Observing Network (TCCON) achieves an accuracy and precision in total column measurements that is unprecedented for remotesensing observations (better than 0.25% for CO 2 ). This has enabled carbon-cycle science investigations using the TCCON dataset, and allows the TCCON to provide a link between satellite measurements and the extensive ground-based in situ network.

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Section: Technical Approach and Methodologymentioning

confidence: 96%

The Total Carbon Column Observing Network

Wunch

Toon

Blavier

et al. 2011

Phil. Trans. R. Soc. A.

1,047

1,231

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“…3 Of particular importance are higher order effects such as collisional narrowing, speeddependent effects and line mixing which are yet to be incorporated into the vast majority of atmospheric retrievals which often employ the Voigt line profile. These effects will play an even greater role in next generation, active sensing missions [4][5][6][7][8][9][10][11] (including NASA's Active Sensing of CO 2 Emissions over Nights Days and Seasons, ASCENDS) where individual transitions in the near-infrared spectral region will be interrogated rather than entire bands, and where precise measurements of CO 2 concentrations will require exquisite knowledge of the spectral line shape.…”

Section: Introductionmentioning

confidence: 99%

“…1,2 These applications will require a detailed and thorough understanding of the near-infrared spectral line shapes of CO 2 and O 2 over the range of atmospherically relevant temperatures and pressures. 3 Of particular importance are higher order effects such as collisional narrowing, speeddependent effects and line mixing which are yet to be incorporated into the vast majority of atmospheric retrievals which often employ the Voigt line profile.…”

Section: Introductionmentioning

confidence: 99%

The air-broadened, near-infrared CO2 line shape in the spectrally isolated regime: Evidence of simultaneous Dicke narrowing and speed dependence

Long

Bielska²,

Lisak³

et al. 2011

The Journal of Chemical Physics

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Frequency-stabilized cavity ring-down spectroscopy (FS-CRDS) was employed to measure airbroadened CO 2 line shape parameters for transitions near 1.6 μm over a pressure range of 6.7-33 kPa. The high sensitivity of FS-CRDS allowed for the first measurements in this wavelength range of air-broadened line shape parameters on samples with CO 2 mixing ratios near those of the atmosphere. The measured air-broadening parameters show several percent deviations (0.9%-2.7%) from values found in the HITRAN 2008 database. Spectra were fit with a variety of models including the Voigt, Galatry, Nelkin-Ghatak, and speed-dependent Nelkin-Ghatak line profiles. Clear evidence of line narrowing was observed, which if unaccounted for can lead to several percent biases. Furthermore, it was observed that only the speed-dependent Nelkin-Ghatak line profile was able to model the spectra to within the instrumental noise level because of the concurrent effects of collisional narrowing and speed dependence of collisional broadening and shifting.

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“…Satellite observations of the column-averaged dry air mole fractions of CO 2 (denoted XCO 2 ) can close these gaps (Rayner and O'Brien, 2001;Houweling et al, 2004;Miller et al, 2007;Chevallier et al, 2007). This, however, requires a high accuracy and precision of the XCO 2 data product to constrain the surface fluxes of CO 2 significantly (Chevallier et al, 2007;Miller et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

SCIAMACHY WFM-DOAS <i>X</i>CO<sub>2</sub>: reduction of scattering related errors

et al. 2012

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Abstract. Global observations of column-averaged dry air mole fractions of carbon dioxide (CO 2 ), denoted by XCO 2 , retrieved from SCIAMACHY on-board ENVISAT can provide important and missing global information on the distribution and magnitude of regional CO 2 surface fluxes. This application has challenging precision and accuracy requirements.In a previous publication , it has been shown by analysing seven years of SCIAMACHY WFM-DOAS XCO 2 (WFMDv2.1) that unaccounted thin cirrus clouds can result in significant errors.In order to enhance the quality of the SCIAMACHY XCO 2 data product, we have developed a new version of the retrieval algorithm (WFMDv2.2), which is described in this manuscript. It is based on an improved cloud filtering and correction method using the 1.4 µm strong water vapour absorption and 0.76 µm O 2 -A bands. The new algorithm has been used to generate a SCIAMACHY XCO 2 data set covering the years 2003-2009. The new XCO 2 data set has been validated using groundbased observations from the Total Carbon Column Observing Network (TCCON). The validation shows a significant improvement of the new product (v2.2) in comparison to the previous product (v2.1). For example, the standard deviation of the difference to TCCON at Darwin, Australia, has been reduced from 4 ppm to 2 ppm. The monthly regionalscale scatter of the data (defined as the mean intra-monthly standard deviation of all quality filtered XCO 2 retrievals within a radius of 350 km around various locations) has also been reduced, typically by a factor of about 1.5. Overall, the validation of the new WFMDv2.2 XCO 2 data product can be summarised by a single measurement precision of 3.8 ppm, an estimated regional-scale (radius of 500 km) precision of monthly averages of 1.6 ppm and an estimated regional-scale relative accuracy of 0.8 ppm.In addition to the comparison with the limited number of TCCON sites, we also present a comparison with NOAA's global CO 2 modelling and assimilation system CarbonTracker. This comparison also shows significant improvements especially over the Southern Hemisphere.

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Precision requirements for space‐based data

Cited by 353 publications

References 64 publications

The Total Carbon Column Observing Network

The Total Carbon Column Observing Network

The air-broadened, near-infrared CO2 line shape in the spectrally isolated regime: Evidence of simultaneous Dicke narrowing and speed dependence

SCIAMACHY WFM-DOAS <i>X</i>CO<sub>2</sub>: reduction of scattering related errors

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Precision requirements for space‐based data

Cited by 353 publications

References 64 publications

The Total Carbon Column Observing Network

The Total Carbon Column Observing Network

The air-broadened, near-infrared CO2 line shape in the spectrally isolated regime: Evidence of simultaneous Dicke narrowing and speed dependence

SCIAMACHY WFM-DOAS &lt;i&gt;X&lt;/i&gt;CO&lt;sub&gt;2&lt;/sub&gt;: reduction of scattering related errors

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SCIAMACHY WFM-DOAS <i>X</i>CO<sub>2</sub>: reduction of scattering related errors