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Development of a Mesoscale Inversion System for Estimating Continental-Scale CO2 Fluxes

Abstract : Computational requirements often impose limitations on the spatial and temporal resolutions of atmospheric CO2 inversions, increasing aggregation and representation errors. This study enables higher spatial and temporal resolution inversions with spatial and temporal error structures similar to those used in other published inversions by representing the prior flux error covariances as a Kronecker product of spatial and temporal covariances and by using spectral methods for the spatial correlations. Compared to existing inversion systems that are forced to degrade the resolution of the problem in order to bring the dimensionality down to computationally tractable levels, this inversion framework is able to take advantage of mesoscale transport simulations and more of the complexity of spatial and temporal covariances in the surface CO2 fluxes. This approach was successfully implemented over one month with an identical-twin observing system simulation experiment (OSSE) using a set of assumptions about the prior flux uncertainties compatible both with continental-scale uncertainty estimates and with comparisons of vegetation models to flux towers. The demonstration illustrates the potential of the newly developed inversion system to use high-temporal-resolution information from the North American tower network, to extract high-resolution information about CO2 fluxes that is inaccessible to coarser resolution inversion systems, and to simultaneously optimize an ensemble of prior estimates. This demonstration sets the stage for regional flux inversions that can take full advantage of the high-resolution data available in tower CO2 records and mesoscale atmospheric transport reanalyses, include more realistic prior error structures, and explore specifying prior fluxes with ensembles.
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Submitted on : Wednesday, July 13, 2022 - 3:10:10 PM
Last modification on : Friday, July 15, 2022 - 3:23:30 AM


J Adv Model Earth Syst - 2020 ...
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Daniel Wesloh, Thomas Lauvaux, Kenneth J. Davis. Development of a Mesoscale Inversion System for Estimating Continental-Scale CO2 Fluxes. Journal of Advances in Modeling Earth Systems, 2020, 12, ⟨10.1029/2019MS001818⟩. ⟨insu-03721895⟩



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