Evaluation of a new middle-lower tropospheric CO 2 product using data assimilation
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In this paper, CO 2 data from the Atmospheric Infrared Sounder (AIRS) were assimilated into the GEOS-5 (Goddard Earth Observing System Model, Version 5) constituent assimilation system for the period 1 January 2005 to 31 December 2006.Abstract:
. Atmospheric CO 2 retrievals with peak sensitivity in the mid- to lower troposphere from the Atmospheric Infrared Sounder (AIRS) have been assimilated into the GEOS-5 (Goddard Earth Observing System Model, Version 5) constituent assimilation system for the period 1 January 2005 to 31 December 2006. A corresponding model simulation, using identical initial conditions, circulation, and CO 2 boundary fluxes was also completed. The analyzed and simulated CO 2 fields are compared with surface measurements globally and aircraft measurements over North America. Surface level monthly mean CO 2 values show a marked improvement due to the assimilation in the Southern Hemisphere, while less consistent improvements are seen in the Northern Hemisphere. Mean differences with aircraft observations are reduced at all levels, with the largest decrease occurring in the mid-troposphere. The difference standard deviations are reduced slightly at all levels over the ocean, and all levels except the surface layer over land. These initial experiments indicate that the used channels contain useful information on CO 2 in the middle to lower troposphere. However, the benefits of assimilating these data are reduced over the land surface, where concentrations are dominated by uncertain local fluxes and where the observation density is quite low. Away from these regions, the study demonstrates the power of the data assimilation technique for evaluating data that are not co-located, in that the improvements in mid-tropospheric CO 2 by the sparsely distributed partial-column retrievals are transported by the model to the fixed in situ surface observation locations in more remote areas.read more
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Global patterns of land-atmosphere fluxes of carbon dioxide, latent heat, and sensible heat derived from eddy covariance, satellite, and meteorological observations
Abstract: We upscaled FLUXNET observations of carbon dioxide, water, and energy fluxes to the global scale using the machine learning technique, model tree ensembles (MTE). We trained MTE to predict site-level gross primary productivity (GPP), terrestrial ecosystem respiration (TER), net ecosystem exchange (NEE), latent energy (LE), and sensible heat (H) based on remote sensing indices, climate and meteorological data, and information on land use. We applied the trained MTEs to generate global flux fields at a 0.5 degrees x 0.5 degrees spatial resolution and a monthly temporal resolution from 1982 to 2008. Cross-validation analyses revealed good performance of MTE in predicting among-site flux variability with modeling efficiencies (MEf) between 0.64 and 0.84, except for NEE (MEf = 0.32). Performance was also good for predicting seasonal patterns (MEf between 0.84 and 0.89, except for NEE (0.64)). By comparison, predictions of monthly anomalies were not as strong (MEf between 0.29 and 0.52). Improved accounting of disturbance and lagged environmental effects, along with improved characterization of errors in the training data set, would contribute most to further reducing uncertainties. Our global estimates of LE (158 +/- 7 J x 10(18) yr(-1)), H (164 +/- 15 J x 10(18) yr(-1)), and GPP (119 +/- 6 Pg C yr(-1)) were similar to independent estimates. Our global TER estimate (96 +/- 6 Pg C yr(-1)) was likely underestimated by 5-10%. Hot spot regions of interannual variability in carbon fluxes occurred in semiarid to semihumid regions and were controlled by moisture supply. Overall, GPP was more important to interannual variability in NEE than TER. Our empirically derived fluxes may be used for calibration and evaluation of land surface process models and for exploratory and diagnostic assessments of the biosphere.
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The Anomalous 2019 Antarctic Ozone Hole in the GEOS Constituent Data Assimilation System With MLS Observations
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Bias-correcting carbon fluxes derived from land-surface satellite data for retrospective and near-real-time assimilation systems
Brad Weir,Brad Weir,Lesley Ott,G. J. Collatz,Stephan R. Kawa,Benjamin Poulter,Abhishek Chatterjee,Abhishek Chatterjee,Tomohiro Oda,Tomohiro Oda,Steven Pawson +10 more
TL;DR: In this article, the authors describe techniques for bias-correcting surface fluxes derived from satellite observations of the Earth's surface to be consistent with constraints from inventories and in situ CO2 datasets.
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A regional carbon data assimilation system and its preliminary evaluation in East Asia
TL;DR: In this paper, a regional surface CO2 flux inversion system (Carbon Flux Inversion system and Community Multi-scale Air Quality, CFI-CMAQ) has been developed by applying the ensemble Kalman filter (EnKF) to constrain the CO2 concentrations and applying the EnKS to optimize the surface CO 2 fluxes.
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TL;DR: In this paper, a new geomagnetic data assimilation approach was developed which uses the minimum variance estimate for the analysis state, and which models both the forecast (or model output) and observation errors using an empirical approach and parameter tuning.
References
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TransCom model simulations of hourly atmospheric CO2: Experimental overview and diurnal cycle results for 2002
Rachel M. Law,Wouter Peters,Wouter Peters,Christian Rödenbeck,C. Aulagnier,Ian Baker,Dan Bergmann,Philippe Bousquet,Jørgen Brandt,Lori Bruhwiler,Philip Cameron-Smith,Jesper H. Christensen,François Delage,A. S. Denning,Song-Miao Fan,Camilla Geels,Sander Houweling,Ryoichi Imasu,Ute Karstens,Stephan R. Kawa,J. Kleist,Maarten Krol,Maarten Krol,Shian-Jiann Lin,R. S. Lokupitiya,Takashi Maki,Shamil Maksyutov,Shamil Maksyutov,Yosuke Niwa,Ryo Onishi,Nicholas C. Parazoo,Prabir K. Patra,G. Pieterse,L. Rivier,Masaki Satoh,Masaki Satoh,S. Serrar,S. Taguchi,Masayuki Takigawa,Robert Vautard,Alex Vermeulen,Z. Zhu +41 more
TL;DR: A forward atmospheric transport modeling experiment has been coordinated by the TransCom group to investigate synoptic and diurnal variations in CO2 in 2000-2003 as discussed by the authors, and the results have been analyzed for diurnal changes and are compared with observed CO2.
Journal ArticleDOI
Carbon source/sink information provided by column CO 2 measurements from the Orbiting Carbon Observatory
TL;DR: In this paper, column-integrated CO2 measurements from the Orbiting Carbon Observatory (OCO) should be able to constrain surface CO2 fluxes, given the presence of various error sources.
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Four-dimensional data assimilation of atmospheric CO2 using AIRS observations
TL;DR: In this article, an atmospheric data assimilation system that uses radiance observations from the Atmospheric Infrared Sounder (AIRS) to constrain the CO2 mixing ratios of the model is presented.
Journal ArticleDOI
Inverse modeling of CO2 sources and sinks using satellite observations of CO2 from TES and surface flask measurements
Ray Nassar,Ray Nassar,Dylan B. A. Jones,Susan S. Kulawik,John Worden,Kevin W. Bowman,Robert J. Andres,Parvadha Suntharalingam,Jing M. Chen,Carl A. M. Brenninkmeijer,Tanja Schuck,Thomas J. Conway,Douglas E. J. Worthy +12 more
TL;DR: In this paper, a joint inversion analysis based on the GEOS-Chem model is proposed to estimate CO2 surface fluxes using satellite observations of mid-tropospheric CO2 from the Tropospheric Emission Spectrometer (TES) and measurements of surface flasks.
Journal ArticleDOI
Assimilated ozone from EOS‐Aura: Evaluation of the tropopause region and tropospheric columns
Ivanka Stajner,Ivanka Stajner,Ivanka Stajner,Krzysztof Wargan,Krzysztof Wargan,Steven Pawson,Hiroo Hayashi,Hiroo Hayashi,Lang Ping Chang,Lang Ping Chang,R. C. Hudman,Lucien Froidevaux,Nathaniel J. Livesey,Pieternel F. Levelt,Anne M. Thompson,David W. Tarasick,René Stübi,Signe B. Andersen,Margarita Yela,Gert König-Langlo,F. J. Schmidlin,Jacquelyn C. Witte +21 more
TL;DR: In this paper, the authors investigated the distribution and daily to seasonal evolution of ozone in the stratosphere and troposphere during 2005 and found that ozone profile shape results from the parameterized ozone chemistry and the resolved and parameterized transport.
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