2017
DOI: 10.1002/2016jd026111
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Observational evidence of 3‐D cloud effects in OCO‐2 CO2 retrievals

Abstract: The standard deviations of the distributions of Orbiting Carbon Observatory (OCO‐2) measurements of CO2 (i.e., XCO2) increase in size in the presence of clouds. XCO2 and Moderate Resolution Imaging Spectroradiometer (MODIS) radiance and cloud fields, and OCO‐2 A‐band radiances, are analyzed in order to determine if this behavior is best described as a radiance‐level retrieval artifact or by 3‐D radiative transfer effects. Observations in clear‐sky and fair weather cumulus scenes are analyzed. Scatter diagrams … Show more

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Cited by 34 publications
(38 citation statements)
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“…For instance, the topography-related biases noted by Wunch et al (2017) still exist in B8, but have recently been tracked to a misspecification of the satellite-to-ground pointing vector, and will be corrected in a forthcoming version 9. Also, there are still cloud-related errors in the OCO-2 data, for instance as noted by Massie et al (2016). It is believed that these are often related to three-dimensional cloud effects, for instance as discussed in Merrelli et al (2015).…”
Section: Brief Evaluation Of Oco-2 X Comentioning
confidence: 96%
“…For instance, the topography-related biases noted by Wunch et al (2017) still exist in B8, but have recently been tracked to a misspecification of the satellite-to-ground pointing vector, and will be corrected in a forthcoming version 9. Also, there are still cloud-related errors in the OCO-2 data, for instance as noted by Massie et al (2016). It is believed that these are often related to three-dimensional cloud effects, for instance as discussed in Merrelli et al (2015).…”
Section: Brief Evaluation Of Oco-2 X Comentioning
confidence: 96%
“…OCO-2 observations have the potential to significantly improve our understanding of the tropical carbon cycle, given their relatively frequent coverage in a region that is poorly observed by the existing in situ network. However, persistent cloudiness during the wet season and biomass burning aerosol in the dry season in the tropics can lead to both fewer observations and residual bias in those that occur in the vicinity of clouds and aerosols (Merrelli et al, 2015;Massie et al, 2017). Examining Fig.…”
Section: Zonal Flux Estimatesmentioning
confidence: 99%
“…The TM5 4DVAR system is a Bayesian inverse modeling framework that infers surface fluxes of a tracer given mea-sured tracer mole fractions in the atmosphere (Meirink et al, 2008). It uses the TM5 atmospheric chemistry transport model to connect atmospheric measurements with surface fluxes (Krol et al, 2005).…”
Section: A6 Tm54dvar-noaamentioning
confidence: 99%
“…For instance, the topography-related biases noted by Wunch et al (2017) still exist in B8, but have recently been tracked to a misspecification of the satellite-to-ground pointing vector, and will be corrected in a forthcoming version 9. Also, there are still cloud-related errors in the OCO-2 data, for instance as noted by Massie et al (2016).…”
Section: Brief Evaluation Of Oco-2 X Co2mentioning
confidence: 99%