Inverse modeling of GOSAT-retrieved rations of total column CHsub(4) and COsub(2) for 2009 and 2010

dc.contributor.authorPANDEY, SUDHANSHU
dc.contributor.authorHOUWELING, SANDER
dc.contributor.authorKROL, MAARTEN
dc.contributor.authorAHEN, ILSE
dc.contributor.authorCHEVALLIER, FREDERIC
dc.contributor.authorDLUGOKENCKY, EDWARD J.
dc.contributor.authorGATTI, LUCIANA V.
dc.contributor.authorGLOOR, EMANUEL
dc.contributor.authorMILLER, JOHN B.
dc.contributor.authorDETMERS, ROB
dc.contributor.authorMACHIDA, TOSHINOBU
dc.contributor.authorROCKMANN, THOMAS
dc.coverageInternacionalpt_BR
dc.date.accessioned2016-08-02T11:07:14Z
dc.date.available2016-08-02T11:07:14Z
dc.date.issued2016pt_BR
dc.description.abstractThis study investigates the constraint provided by greenhouse gas measurements from space on surface fluxes. Imperfect knowledge of the light path through the atmosphere, arising from scattering by clouds and aerosols, can create biases in column measurements retrieved from space. To minimize the impact of such biases, ratios of total column retrieved CH4 and CO2 (Xratio) have been used. We apply the ratio inversion method described in Pandey et al. (2015) to retrievals from the Greenhouse Gases Observing SATellite (GOSAT). The ratio inversion method uses the measured Xratio as a weak constraint on CO2 fluxes. In contrast, the more common approach of inverting proxy CH4 retrievals (Frankenberg et al., 2005) prescribes atmospheric CO2 fields and optimizes only CH4 fluxes. The TM5–4DVAR (Tracer Transport Model version 5–variational data assimilation system) inverse modeling system is used to simultaneously optimize the fluxes of CH4 and CO2 for 2009 and 2010. The results are compared to proxy inversions using model-derived CO2 mixing ratios (XCO2model) from CarbonTracker and the Monitoring Atmospheric Composition and Climate (MACC) Reanalysis CO2 product. The performance of the inverse models is evaluated using measurements from three aircraft measurement projects. Xratio and XCO2model are compared with TCCON retrievals to quantify the relative importance of errors in these components of the proxy XCH4 retrieval (XCH4proxy). We find that the retrieval errors in Xratio (mean  =  0.61 %) are generally larger than the errors in XCO2model (mean  =  0.24 and 0.01 % for CarbonTracker and MACC, respectively). On the annual timescale, the CH4 fluxes from the different satellite inversions are generally in agreement with each other, suggesting that errors in XCO2model do not limit the overall accuracy of the CH4 flux estimates. On the seasonal timescale, however, larger differences are found due to uncertainties in XCO2model, particularly over Australia and in the tropics. The ratio method stays closer to the a priori CH4 flux in these regions, because it is capable of simultaneously adjusting the CO2 fluxes. Over tropical South America, comparison to independent measurements shows that CO2 fields derived from the ratio method are less realistic than those used in the proxy method. However, the CH4 fluxes are more realistic, because the impact of unaccounted systematic uncertainties is more evenly distributed between CO2 and CH4. The ratio inversion estimates an enhanced CO2 release from tropical South America during the dry season of 2010, which is in accordance with the findings of Gatti et al. (2014) and Van der Laan et al. (2015). The performance of the ratio method is encouraging, because despite the added nonlinearity due to the assimilation of Xratio and the significant increase in the degree of freedom by optimizing CO2 fluxes, still consistent results are obtained with respect to other CH4 inversions.
dc.format.extent5043-5062pt_BR
dc.identifier.citationPANDEY, SUDHANSHU; HOUWELING, SANDER; KROL, MAARTEN; AHEN, ILSE; CHEVALLIER, FREDERIC; DLUGOKENCKY, EDWARD J.; GATTI, LUCIANA V.; GLOOR, EMANUEL; MILLER, JOHN B.; DETMERS, ROB; MACHIDA, TOSHINOBU; ROCKMANN, THOMAS. Inverse modeling of GOSAT-retrieved rations of total column CHsub(4) and COsub(2) for 2009 and 2010. <b>Atmospheric Chemistry and Physics</b>, v. 16, n. 8, p. 5043-5062, 2016. Disponível em: http://repositorio.ipen.br/handle/123456789/26504.
dc.identifier.fasciculo8pt_BR
dc.identifier.issn1680-7316pt_BR
dc.identifier.orcidhttps://orcid.org/0000-0003-4908-8974
dc.identifier.percentilfi95.88
dc.identifier.urihttp://repositorio.ipen.br/handle/123456789/26504
dc.identifier.vol16pt_BR
dc.relation.ispartofAtmospheric Chemistry and Physicspt_BR
dc.rightsopenAccesspt_BR
dc.subjectsimulation
dc.subjectmethane
dc.subjectcarbon dioxide
dc.subjectcomparative evaluations
dc.subjectinvestigations
dc.subjectgreenhouse gases
dc.subjectsatellites
dc.subjectlimiting values
dc.titleInverse modeling of GOSAT-retrieved rations of total column CHsub(4) and COsub(2) for 2009 and 2010pt_BR
dc.typeArtigo de periódicopt_BR
dspace.entity.typePublication
ipen.autorLUCIANA VANNI GATTI
ipen.codigoautor670
ipen.contributor.ipenauthorLUCIANA VANNI GATTI
ipen.date.recebimento16-08pt_BR
ipen.identifier.fi5.318pt_BR
ipen.identifier.ipendoc22411pt_BR
ipen.identifier.iwosWoSpt_BR
ipen.range.fi4.500 - 5.999
ipen.range.percentilfi75.00 - 100.00
ipen.type.genreArtigo
relation.isAuthorOfPublication12ece531-6992-4dbf-b85f-3026471e1a3b
relation.isAuthorOfPublication.latestForDiscovery12ece531-6992-4dbf-b85f-3026471e1a3b
sigepi.autor.atividadeGATTI, LUCIANA V.:670:510:N

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