Multi‐Season Evaluation of CO₂ Weather in OCO‐2 MIP Models

Abstract: The ability of current global models to simulate the transport of CO 2 by mid-latitude, synopticscale weather systems (i.e., CO 2 weather) is important for inverse estimates of regional and global carbon budgets but remains unclear without comparisons to targeted measurements. Here, we evaluate ten models that participated in the Orbiting Carbon Observatory-2 model intercomparison project (OCO-2 MIP version 9) with intensive aircraft measurements collected from the Atmospheric Carbon Transport (ACT)-America mi… Show more

“…Our results show that the overall OCO-2 v9 MIP models underestimate the seasonal amplitude of NEE across central and eastern US ecosystems, regardless of data source. These results are consistent with the results of other studies using ACT-America observations (Cui et al, 2021;Feng et al, 2021;Zhang et al, 2022) but independent 2021) and this study for summer, fall, and spring, while an opposite sign of the mean bias estimates for winter likely due to the underestimates of ABL in WRF simulations of Cui et al (2021). Zhang et al (2022) co-sampled the ACT-America data in the posterior CO 2 fields of the OCO-2 v9 MIP.…”

“…These results are consistent with the results of other studies using ACT-America observations (Cui et al, 2021;Feng et al, 2021;Zhang et al, 2022) but independent 2021) and this study for summer, fall, and spring, while an opposite sign of the mean bias estimates for winter likely due to the underestimates of ABL in WRF simulations of Cui et al (2021). Zhang et al (2022) co-sampled the ACT-America data in the posterior CO 2 fields of the OCO-2 v9 MIP. They found seasonal model-data mismatch patterns in boundary layer CO 2 from the OCO-2 v9 MIP which are largely consistent with an underestimate in seasonal NEE magnitudes.…”

“…This does not rule out the possibility that all atmospheric transport systems available to us at this time might be biased. Zhang et al (2022) also found that the magnitudes of posterior, seasonally-and sectorally-averaged ABL-Free troposhere (FT) vertical CO 2 differences over the ACT-America flight domain were underestimated in the OCO-2 v9 MIP inversion systems, a result that could be consistent with either underestimated seasonal amplitudes of NEE, overestimated vertical mixing, or some combination of those factors. Zhang et al (2022) evaluated mean wind speed and ABL depths in the inversion systems and did not find persistent biases.…”

“…The OCO-2 v9 MIP released a suite of gridded CO 2 flux inversions from 10 global inversion models encompassing the years 2015-2018. Details of the OCO-2 v9 MIP are described by Peiro et al (2022) and Zhang et al (2022) and in Table S1 of Supporting Information S1. The different inversion systems are standardized in the sense that they are required to assimilate the same four sets of atmospheric observations.…”

Evaluating Global Atmospheric Inversions of Terrestrial Net Ecosystem Exchange CO₂ Over North America on Seasonal and Sub‐Continental Scales

“…Our results show that the overall OCO-2 v9 MIP models underestimate the seasonal amplitude of NEE across central and eastern US ecosystems, regardless of data source. These results are consistent with the results of other studies using ACT-America observations (Cui et al, 2021;Feng et al, 2021;Zhang et al, 2022) but independent 2021) and this study for summer, fall, and spring, while an opposite sign of the mean bias estimates for winter likely due to the underestimates of ABL in WRF simulations of Cui et al (2021). Zhang et al (2022) co-sampled the ACT-America data in the posterior CO 2 fields of the OCO-2 v9 MIP.…”

“…These results are consistent with the results of other studies using ACT-America observations (Cui et al, 2021;Feng et al, 2021;Zhang et al, 2022) but independent 2021) and this study for summer, fall, and spring, while an opposite sign of the mean bias estimates for winter likely due to the underestimates of ABL in WRF simulations of Cui et al (2021). Zhang et al (2022) co-sampled the ACT-America data in the posterior CO 2 fields of the OCO-2 v9 MIP. They found seasonal model-data mismatch patterns in boundary layer CO 2 from the OCO-2 v9 MIP which are largely consistent with an underestimate in seasonal NEE magnitudes.…”

“…This does not rule out the possibility that all atmospheric transport systems available to us at this time might be biased. Zhang et al (2022) also found that the magnitudes of posterior, seasonally-and sectorally-averaged ABL-Free troposhere (FT) vertical CO 2 differences over the ACT-America flight domain were underestimated in the OCO-2 v9 MIP inversion systems, a result that could be consistent with either underestimated seasonal amplitudes of NEE, overestimated vertical mixing, or some combination of those factors. Zhang et al (2022) evaluated mean wind speed and ABL depths in the inversion systems and did not find persistent biases.…”

“…The OCO-2 v9 MIP released a suite of gridded CO 2 flux inversions from 10 global inversion models encompassing the years 2015-2018. Details of the OCO-2 v9 MIP are described by Peiro et al (2022) and Zhang et al (2022) and in Table S1 of Supporting Information S1. The different inversion systems are standardized in the sense that they are required to assimilate the same four sets of atmospheric observations.…”

Evaluating Global Atmospheric Inversions of Terrestrial Net Ecosystem Exchange CO₂ Over North America on Seasonal and Sub‐Continental Scales

“…Using airborne in situ measurements of CO 2 fields obtained during the ACT-America RFs, Gerken et al (2021) exploited the performance of both mesoscale (WRF-Chem) and global scale (CT) models using identical surface fluxes and found reasonable agreement with observations in all four seasons. Additionally, for frontal RFs, Zhang et al (2022) also found that OCO-2 MIP models were capable of simulating observed CO 2 frontal contrasts with varying degrees of success in summer and spring, and frequent underestimation of frontal contrasts in winter and autumn.…”

Airborne Lidar Measurements of XCO₂ in Synoptically Active Environment and Associated Comparisons With Numerical Simulations

Atmospheric Variations in Summertime Column Integrated CO₂ on Synoptic Scales Over the U.S.