Pawson (CMS 2011) Project Profile   (updated 27-May-2015)
Project Title:GEOS-CARB: A Framework for Monitoring Carbon Concentrations and Fluxes

Science Team
Members:

Steven Pawson, NASA GSFC GMAO (Project Lead)
David Baker, CIRA/Colorado State University
Stephan (Randy) Kawa, NASA GSFC
Tomohiro (Tom) Oda, USRA

Project Duration: 2012 - 2014
Solicitation:NASA: Carbon Monitoring System (2011)
Precursor Projects: Gunson-Pawson-Potter (2009)  
Abstract: This proposal is for a continuation of NASA GSFC s activities related to the Carbon Monitoring System, Flux Pilot Study (CMS FPP). The work will enhance and develop the capabilities of NASA s Goddard Earth Observing System (GEOS) set of models and assimilation components to further develop a core capability for CMS-related carbon cycle science and monitoring. The work consists of three components: (i) continuation of past work to compute atmosphere-ocean and atmosphere-land biosphere fluxes, as well as their evaluation using forward modeling in GEOS-5; (ii) enhancements of GEOS-5 for carbon monitoring, including a model study of the intermingling of uncertainties in anthropogenic and land-biospheric carbon emissions, and development of an enhanced assimilation capability to include multiple space-borne CO2 estimates (from AIRS and ACOS-GOSAT); (iii) a focused activity that examines aspects related to top-down (inverse) estimates of carbon fluxes. The latter effort will include a controlled comparison of three inverse estimates, including the one from CMS FPP, that use the same input data but use different methods. It also includes the implementation and application of a Lagrangian particle dispersion model to compute global footprints of GOSAT observations. Further, substantial new developments will be implemented into an existing variation inversion system. The work proposed in GEOS-CARB will implement and adapt various modeling and analysis tools, linking them closely with GEOS-5 systems available in the Global Modeling and Assimilation Office, in order to better exploit NASA s carbon-relevant observations for monitoring and understanding the global carbon cycle. The development work will leave NASA with enhanced modeling and analysis tools for carbon-cycle monitoring using space-based observations. These tools will be used to address some of the research questions that have arisen in the course of CMS FPP, with a strong emphasis on characterizing uncertainty in CO2 flux computations.
Project Associations:
  • CMS
CMS Primary Theme:
  • Global Surface-Atmosphere Flux
CMS Science Theme(s):
  • Land-Atmosphere Flux
  • Ocean-Atmosphere Flux
  • Global Surface-Atmosphere Flux

Participants:

David Baker, CIRA/Colorado State University
Watson Gregg, NASA GSFC
Stephan (Randy) Kawa, NASA GSFC
Christopher (Chris) O'Dell, Colorado State University
Tomohiro (Tom) Oda, USRA
Steven Pawson, NASA GSFC GMAO
Cecile Rousseaux, NASA GSFC
Andrew Schuh, Colorado State University
Brad Weir, NASA GSFC GMAO / GESTAR USRA

Contact Support to request an email list of project participants.

Project URL(s): None provided.
 
Data
Products:
Product Title:  GEOS-Carb Atmospheric CO Reanalysis - Column concentrations
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  - Provide CO and CO2 reanalysis
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5° x 0.5°
Temporal Frequency:  Daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft obs
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  - GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  - Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO2 Uncertainty due to Transport
Time Period:  2003-2016
Description:  - Provide simulated atmospheric CO and CO2 concentrations and associated uncertainties

This work builds on earlier work and Previous products available at GMAO ftp site ftp://gmaoftp.gsfc.nasa.gov/pub/data/lott/CMS_monthly_average/
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5° x 0.5°
Temporal Frequency:  Daily
Input Data Products:  MERRA-2, NOBM, ODIAC, CASA-GFED fluxes
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against surface, aircraft, TCCON, GOSAT, OCO-2, MOPITT
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Incorporate flux uncertainty estimates; ensembles with altered model physics to evaluate transport error
Uncertainty Categories:  deterministic and ensemble
Application Areas:  - GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  5
Start Application Readiness Level:  5
Target Application Readiness Level:  6,7
Future Developments:  - Continue improving estimates using Evaluation and validation efforts.
Limitations:  Transport uncertainty remains difficult to quantify, validation datasets do not provide global coverage or sufficient information on vertical gradients
Date When Product Available:  CO and CO2 simulations using best available fluxes by 9/15, simulations using updated fluxes and with uncertainty estimates by 9/16, updated 9/17
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb NOBM Monthly Ocean Fluxes
Time Period:  2003-2016
Description:  Provide ocean-atmosphere flux estimates.; - Quantify uncertainties.

This work builds on earlier efforts and we have made the results from those efforts available:
Gregg, W. and C. Rousseaux. 2013. CMS- Flux Pilot Project Ocean-Atmosphere Fluxes 2003- 2012 NOBM Model. Data set. Available online from the GMAO ftp site: ftp://gmaoftp.gsfc.nasa.gov/pub/data/NOBM/FCO2/
Status:  Preliminary
CMS Science Theme(s):  Global Surface-Atmosphere Flux; Ocean-Atmosphere Flux
Keywords:  Flux/Movement (; oceanic; ; atmospheric); ; Uncertainties & Standard Errors
Spatial Extent:  Global
Spatial Resolution:  0.5° x 0.5°
Temporal Frequency:  Monthly
Input Data Products:  NASA's Modern Era Retrospective-analysis for Research and Applications 2 (MERRA-2), MODIS/VIIRS Chlorophyll, VIIRS Particulate Inorganic Carbon, OCO-2/GOSAT
Algorithm/Models Used:  NASA Ocean Biogeochemical Model (NOBM), Modular Ocean Model (MOM), GEOS-5
Evaluation:  Comparison with in situ database (LDEO), comparison with SOCAT derived flux estimates, atmospheric CO2 measurements (in situ, aircraft, OCO-2, GOSAT)
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Quantify uncertainty due to atmospheric CO2 forcing, comparison with LDEO, SOCAT estimates. Impact of meteorological reanalyses already quantified.
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  ; - Global carbon budget calculations; - Ocean changes
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  5
Start Application Readiness Level:  5
Target Application Readiness Level:  6,7
Future Developments:  - Continue improving the model using Evaluation and validation efforts.
Limitations:  Difficult to assess in Southern Ocean due to sparse data coverage
Date When Product Available:  2003-2012 Fluxes already available, Improved 2003-2015 fluxes with uncertainty estimates provided 9/16, Updated through 2016 9/17
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb ODIAC Monthly Fossil Fuel Emissions and Uncertainty
Time Period:  2003-2016
Description:  - Quantify uncertainties of fossil fuel emissions estimates

cite as Oda, T. 2014. Odiac emissions dataset. Data available from the ODIAC website: http://www.odiac.org/
Status:  Preliminary
CMS Science Theme(s):  Global Surface-Atmosphere Flux; Land-Atmosphere Flux; MRV
Keywords:  Source (; anthropogenic;); ; Uncertainties & Standard Errors
Spatial Extent:  Global
Spatial Resolution:  0.5° x 0.5°
Temporal Frequency:  Yearly
Input Data Products:  CDIAC and EDGAR emissions inventories, DMSP/VIIRS night lights,
Algorithm/Models Used:  ODIAC
Evaluation:  Comparison against other emissions inventories, surface and column atmospheric CO2 observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against other emissions inventories; application of differing literature estimates of national FF uncertainty, seasonality, disaggregation method
Uncertainty Categories:  deterministic and model-model comparison
Application Areas:  - GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  5
Start Application Readiness Level:  5
Target Application Readiness Level:  6,7
Future Developments:  - Continue improving estimates using Evaluation and validation efforts.
Limitations:  Emissions estimates difficult to validate at fine spatial scales, particularly in developing regions
Date When Product Available:  Emissions data available online; Uncertainty estimates to be delivered 9/16, updated 9/17
Metadata URL(s):
Included with data products
Data Server URL(s):

http://odiac.org/dataset.html
Archived Data Citation:  

Product Title:  GEOS-Carb CASA-GFED 3-hourly Ecosystem Exchange Fluxes 0.5 degree x 0.625 degree V2 (GEOS_CASAGFED_3H_NEE) at GES DISC
Start Date:  01/2003      End Date:  12/2016     (2003-2016)
Description:  This product provides 3 hourly average net ecosystem exchange (NEE) and gross ecosystem exchange (GEE)
of Carbon derived from the Carnegie-Ames-Stanford-Approach – Global Fire Emissions Database version 3 (CASA-
GFED3) model.

The NASA Carbon Monitoring System (CMS) is designed to make significant contributions in characterizing, quantifying, understanding, and predicting the evolution of global carbon sources and sinks through improved monitoring of carbon stocks and fluxes. The System will use the full range of NASA satellite observations and modeling/analysis capabilities to establish the accuracy, quantitative uncertainties, and utility of products for supporting national and international policy, regulatory, and management activities. CMS will maintain a global emphasis while providing finer scale regional information, utilizing space-based and surface-based data and will rapidly initiate generation and distribution of products both for user evaluation and to inform near-term policy development and planning.
Status:  Archived
CMS Science Theme(s):  Land-Atmosphere Flux
Keywords:  NEE; NEP; GEE; Fire emissions; Heterotrophic respiration
Spatial Extent:  Global
Spatial Resolution:  0.5 degree x 0.625 degre
Temporal Frequency:  monthly, containing values every 3 hours
Input Data Products:  
Algorithm/Models Used:  
Evaluation:  
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  
Uncertainty Categories:  
Application Areas:  
Relevant Policies/Programs:  
Potential Users:  
Stakeholders:  
Current Application Readiness Level:  
Start Application Readiness Level:  
Target Application Readiness Level:  
Future Developments:  
Limitations:  
Date When Product Available:  
Assigned Data Center:  GES DISC
Metadata URL(s):
10.5067/5MQJ64JTBQ40
Data Server URL(s):
10.5067/5MQJ64JTBQ40
Archived Data Citation:  Lesley Ott (2020), GEOS-Carb CASA-GFED 3-hourly Ecosystem Exchange Fluxes 0.5 degree x 0.625 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/5MQJ64JTBQ40

Bounding Coordinates:
West Longitude:-180.00000 East Longitude:180.00000
North Latitude:90.00000 South Latitude:-90.00000

Product Title:  GEOS-Carb CASA-GFED Daily Fire and Fuel Emissions 0.5 degree x 0.5 degree V2 (GEOS_CASAGFED_D_FIRE) at GES DISC
Start Date:  01/2003      End Date:  12/2016     (2003-2016)
Description:  This product provides Daily average wildfire emissions (FIRE) and
fuel wood burning emissions (FUEL) derived from the Carnegie-Ames-Stanford-Approach – Global Fire Emissions Database version 3 (CASA-
GFED3) model.

The NASA Carbon Monitoring System (CMS) is designed to make significant contributions in characterizing, quantifying, understanding, and predicting the evolution of global carbon sources and sinks through improved monitoring of carbon stocks and fluxes. The System will use the full range of NASA satellite observations and modeling/analysis capabilities to establish the accuracy, quantitative uncertainties, and utility of products for supporting national and international policy, regulatory, and management activities. CMS will maintain a global emphasis while providing finer scale regional information, utilizing space-based and surface-based data and will rapidly initiate generation and distribution of products both for user evaluation and to inform near-term policy development and planning.
Status:  Archived
CMS Science Theme(s):  Land-Atmosphere Flux
Keywords:  Fire emissions
Spatial Extent:  Global
Spatial Resolution:  0.5 degree by 0.5 degree
Temporal Frequency:  daily
Input Data Products:  
Algorithm/Models Used:  
Evaluation:  
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  
Uncertainty Categories:  
Application Areas:  
Relevant Policies/Programs:  
Potential Users:  
Stakeholders:  
Current Application Readiness Level:  
Start Application Readiness Level:  
Target Application Readiness Level:  
Future Developments:  
Limitations:  
Date When Product Available:  
Assigned Data Center:  GES DISC
Metadata URL(s):
10.5067/IYZIZJ8ZFZHU
Data Server URL(s):
10.5067/IYZIZJ8ZFZHU
Archived Data Citation:  Lesley Ott (2020), GEOS-Carb CASA-GFED Daily Fire and Fuel Emissions 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/IYZIZJ8ZFZHU

Bounding Coordinates:
West Longitude:-180.00000 East Longitude:180.00000
North Latitude:90.00000 South Latitude:-90.00000

Product Title:  GEOS-Carb CASA-GFED Monthly Fire Fuel NPP Rh NEE Fluxes 0.5 degree x 0.5 degree V2 (GEOS_CASAGFED_M_FLUX) at GES DISC
Start Date:  01/2003      End Date:  12/2016     (2003-2016)
Description:  This product provides Monthly average Net Primary Production (NPP), heterotrophic respiration (Rh), wildfire emissions (FIRE), and
fuel wood burning emissions (FUEL) derived from the Carnegie-Ames-Stanford-Approach – Global Fire Emissions Database version 3 (CASA-
GFED3) model.

The NASA Carbon Monitoring System (CMS) is designed to make significant contributions in characterizing, quantifying, understanding, and predicting the evolution of global carbon sources and sinks through improved monitoring of carbon stocks and fluxes. The System will use the full range of NASA satellite observations and modeling/analysis capabilities to establish the accuracy, quantitative uncertainties, and utility of products for supporting national and international policy, regulatory, and management activities. CMS will maintain a global emphasis while providing finer scale regional information, utilizing space-based and surface-based data and will rapidly initiate generation and distribution of products both for user evaluation and to inform near-term policy development and planning.
Status:  Archived
CMS Science Theme(s):  Land-Atmosphere Flux
Keywords:  NPP; NEE; Fire
Spatial Extent:  Global
Spatial Resolution:  0.5 degrees by 0.625 degrees
Temporal Frequency:  3 hourly
Input Data Products:  
Algorithm/Models Used:  
Evaluation:  
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  
Uncertainty Categories:  
Application Areas:  
Relevant Policies/Programs:  
Potential Users:  
Stakeholders:  
Current Application Readiness Level:  
Start Application Readiness Level:  
Target Application Readiness Level:  
Future Developments:  
Limitations:  
Date When Product Available:  
Assigned Data Center:  GES DISC
Metadata URL(s):
10.5067/FZU47Y00Q79U
Data Server URL(s):
10.5067/FZU47Y00Q79U
Archived Data Citation:  Lesley Ott (2020), GEOS-Carb CASA-GFED Monthly Fire Fuel NPP Rh NEE Fluxes 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/FZU47Y00Q79U

Bounding Coordinates:
West Longitude:-180.00000 East Longitude:180.00000
North Latitude:90.00000 South Latitude:-90.00000

Product Title:  GEOS-Carb CASA-GFED Monthly Fire Fuel NPP Rh NEE Fluxes 0.5 degree x 0.5 degree V3 (GEOS_CASAGFED_M_FLUX) at GES DISC
Start Date:  01/2003      End Date:  12/2017     (2003-2017)
Description:  This product provides Monthly average Net Primary Production (NPP), heterotrophic respiration (Rh), wildfire emissions (FIRE), and
fuel wood burning emissions (FUEL) derived from the Carnegie-Ames-Stanford-Approach – Global Fire Emissions Database version 3 (CASA-
GFED3) model.

The NASA Carbon Monitoring System (CMS) is designed to make significant contributions in characterizing, quantifying, understanding, and predicting the evolution of global carbon sources and sinks through improved monitoring of carbon stocks and fluxes. The System will use the full range of NASA satellite observations and modeling/analysis capabilities to establish the accuracy, quantitative uncertainties, and utility of products for supporting national and international policy, regulatory, and management activities. CMS will maintain a global emphasis while providing finer scale regional information, utilizing space-based and surface-based data and will rapidly initiate generation and distribution of products both for user evaluation and to inform near-term policy development and planning.
Status:  Archived
CMS Science Theme(s):  Land-Atmosphere Flux
Keywords:  GPP;Fire
Spatial Extent:  Global
Spatial Resolution:  0.5 degree by 0.5 degree
Temporal Frequency:  monthly
Input Data Products:  
Algorithm/Models Used:  
Evaluation:  
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  
Uncertainty Categories:  
Application Areas:  
Relevant Policies/Programs:  
Potential Users:  
Stakeholders:  
Current Application Readiness Level:  
Start Application Readiness Level:  
Target Application Readiness Level:  
Future Developments:  
Limitations:  
Date When Product Available:  
Assigned Data Center:  GES DISC
Metadata URL(s):
10.5067/03147VMJE8J9
Data Server URL(s):
10.5067/03147VMJE8J9
Archived Data Citation:  Lesley Ott (2020), GEOS-Carb CASA-GFED Monthly Fire Fuel NPP Rh NEE Fluxes 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/03147VMJE8J9

Bounding Coordinates:
West Longitude:-180.00000 East Longitude:180.00000
North Latitude:90.00000 South Latitude:-90.00000

Product Title:  GEOS-Carb CASA-GFED 3-hourly Ecosystem Exchange Fluxes 0.5 degree x 0.625 degree V3 (GEOS_CASAGFED_3H_NEE) at GES DISC
Start Date:  01/2003      End Date:  12/2017     (2003-2017)
Description:  This product provides 3 hourly average net ecosystem exchange (NEE) and gross ecosystem exchange (GEE)
of Carbon derived from the Carnegie-Ames-Stanford-Approach – Global Fire Emissions Database version 3 (CASA-
GFED3) model.

The NASA Carbon Monitoring System (CMS) is designed to make significant contributions in characterizing, quantifying, understanding, and predicting the evolution of global carbon sources and sinks through improved monitoring of carbon stocks and fluxes. The System will use the full range of NASA satellite observations and modeling/analysis capabilities to establish the accuracy, quantitative uncertainties, and utility of products for supporting national and international policy, regulatory, and management activities. CMS will maintain a global emphasis while providing finer scale regional information, utilizing space-based and surface-based data and will rapidly initiate generation and distribution of products both for user evaluation and to inform near-term policy development and planning.
Status:  Archived
CMS Science Theme(s):  Land-Atmosphere Flux
Keywords:  NPP;NEE;GEE
Spatial Extent:  Global
Spatial Resolution:  0.5 degrees x 0.625 degrees
Temporal Frequency:  3-hourly
Input Data Products:  
Algorithm/Models Used:  
Evaluation:  
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  
Uncertainty Categories:  
Application Areas:  
Relevant Policies/Programs:  
Potential Users:  
Stakeholders:  
Current Application Readiness Level:  
Start Application Readiness Level:  
Target Application Readiness Level:  
Future Developments:  
Limitations:  
Date When Product Available:  
Assigned Data Center:  GES DISC
Metadata URL(s):
10.5067/VQPRALE26L20
Data Server URL(s):
10.5067/VQPRALE26L20
Archived Data Citation:  Lesley Ott (2020), GEOS-Carb CASA-GFED 3-hourly Ecosystem Exchange Fluxes 0.5 degree x 0.625 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/VQPRALE26L20

Bounding Coordinates:
West Longitude:-180.00000 East Longitude:180.00000
North Latitude:90.00000 South Latitude:-90.00000

Product Title:  GEOS-Carb CASA-GFED Daily Fire and Fuel Emissions 0.5 degree x 0.5 degree V3 (GEOS_CASAGFED_D_FIRE) at GES DISC
Start Date:  01/2003      End Date:  12/2017     (2003-2016)
Description:  This product provides Daily average wildfire emissions (FIRE) and
fuel wood burning emissions (FUEL) derived from the Carnegie-Ames-Stanford-Approach – Global Fire Emissions Database version 3 (CASA-
GFED3) model.

The NASA Carbon Monitoring System (CMS) is designed to make significant contributions in characterizing, quantifying, understanding, and predicting the evolution of global carbon sources and sinks through improved monitoring of carbon stocks and fluxes. The System will use the full range of NASA satellite observations and modeling/analysis capabilities to establish the accuracy, quantitative uncertainties, and utility of products for supporting national and international policy, regulatory, and management activities. CMS will maintain a global emphasis while providing finer scale regional information, utilizing space-based and surface-based data and will rapidly initiate generation and distribution of products both for user evaluation and to inform near-term policy development and planning.
Status:  Archived
CMS Science Theme(s):  Land-Atmosphere Flux
Keywords:  Fire
Spatial Extent:  Global
Spatial Resolution:  0.5 degree x 0.5 degree
Temporal Frequency:  daily
Input Data Products:  
Algorithm/Models Used:  
Evaluation:  
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  
Uncertainty Categories:  
Application Areas:  
Relevant Policies/Programs:  
Potential Users:  
Stakeholders:  
Current Application Readiness Level:  
Start Application Readiness Level:  
Target Application Readiness Level:  
Future Developments:  
Limitations:  
Date When Product Available:  
Assigned Data Center:  GES DISC
Metadata URL(s):
10.5067/7TQL49XLIMBD
Data Server URL(s):
10.5067/7TQL49XLIMBD
Archived Data Citation:  Lesley Ott (2020), GEOS-Carb CASA-GFED Daily Fire and Fuel Emissions 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/7TQL49XLIMBD

Bounding Coordinates:
West Longitude:-180.00000 East Longitude:180.00000
North Latitude:90.00000 South Latitude:-90.00000

Product Title:  GEOS-Carb Atmospheric CO Reanalysis - 3D concentrations
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5 x 0.5 degrees
Temporal Frequency:  daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO Reanalysis - Emissions
Start Date:  01/2009      End Date:  12/2016     (2009-2018)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  global
Spatial Resolution:  0.5 x 0.5 degrees
Temporal Frequency:  daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO Reanalysis - Surface concentrations
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5 x 0.5 degrees
Temporal Frequency:  daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO2 Reanalysis - 3D concentrations
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5 degree by 0.5 degree
Temporal Frequency:  Daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO2 Reanalysis - Emissions
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5 degree by 0.5 degree
Temporal Frequency:  Daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO2 Reanalysis - Surface concentrations
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5 x 0.5 degrees
Temporal Frequency:  daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

Product Title:  GEOS-Carb Atmospheric CO2 Reanalysis - Column concentrations
Start Date:  01/2009      End Date:  12/2016     (2009-2016)
Description:  
Status:  Preliminary
CMS Science Theme(s):  Atmospheric Transport; Global Surface-Atmosphere Flux
Keywords:  Carbon Stocks (; atmospheric)
Spatial Extent:  Global
Spatial Resolution:  0.5 x 0.5 degrees
Temporal Frequency:  daily
Input Data Products:  MERRA-2, CO from MOPITT/IASI/AIRS, CO2 from TCCON, GOSAT, OCO-2, surface flask network
Algorithm/Models Used:  GEOS-5
Evaluation:  Comparison against independent aircraft observations
Intercomparison Efforts/Gaps:  
Uncertainty Estimates:  Comparison against independent data, analysis of innovation statistics
Uncertainty Categories:  deterministic and model-data comparison
Application Areas:  GHG emissions inventory; - Global carbon budget calculations
Relevant Policies/Programs:  CMS FPP, USCCSP, IPCC
Potential Users:  CMS flux teams, USGS, EPA, NOAA, GCP, and others who want to run carbon cycle models.
Stakeholders:  
Current Application Readiness Level:  3,4
Start Application Readiness Level:  3,4
Target Application Readiness Level:  5
Future Developments:  Continue refining assimilation techniques using Evaluation and validation efforts.
Limitations:  Data sparsity, unknown error characteristics, measurement error
Date When Product Available:  
Metadata URL(s):
Data Server URL(s):
Archived Data Citation:  

 
Publications: Ott, L. E., Pawson, S., Collatz, G. J., Gregg, W. W., Menemenlis, D., Brix, H., Rousseaux, C. S., Bowman, K. W., Liu, J., Eldering, A., Gunson, M. R., Kawa, S. R. 2015. Assessing the magnitude of CO2flux uncertainty in atmospheric CO2records using products from NASA's Carbon Monitoring Flux Pilot Project. Journal of Geophysical Research: Atmospheres. 120(2), 734-765. DOI: 10.1002/2014JD022411

Gregg, W. W., Casey, N. W., Rousseaux, C. S. 2014. Sensitivity of simulated global ocean carbon flux estimates to forcing by reanalysis products. Ocean Modelling. 80, 24-35. DOI: 10.1016/j.ocemod.2014.05.002

Gregg, W. W., N. W. Casey, and C. S. Rousseaux, 2013, Global surface ocean carbon estimates in a model forced by MERRA, NASA Technical Report Series on Global Modeling and Data Assimilation, NASA TM-2013-104606, Vol. 31, 39 pp.

Oda, T., Maksyutov, S. 2011. A very high-resolution (1 kmx1 km) global fossil fuel CO<sub>2</sub> emission inventory derived using a point source database and satellite observations of nighttime lights. Atmospheric Chemistry and Physics. 11(2), 543-556. DOI: 10.5194/acp-11-543-2011

Archived Data Citations: Lesley Ott (2020), GEOS-Carb CASA-GFED 3-hourly Ecosystem Exchange Fluxes 0.5 degree x 0.625 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/5MQJ64JTBQ40

Lesley Ott (2020), GEOS-Carb CASA-GFED Monthly Fire Fuel NPP Rh NEE Fluxes 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/03147VMJE8J9

Lesley Ott (2020), GEOS-Carb CASA-GFED Daily Fire and Fuel Emissions 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/IYZIZJ8ZFZHU

Lesley Ott (2020), GEOS-Carb CASA-GFED Daily Fire and Fuel Emissions 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/7TQL49XLIMBD

Lesley Ott (2020), GEOS-Carb CASA-GFED Monthly Fire Fuel NPP Rh NEE Fluxes 0.5 degree x 0.5 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/FZU47Y00Q79U

Lesley Ott (2020), GEOS-Carb CASA-GFED 3-hourly Ecosystem Exchange Fluxes 0.5 degree x 0.625 degree, Greenbelt, MD, USA, Goddard Earth Sciences Data and Information Services Center (GES DISC), Accessed: [Data Access Date], 10.5067/VQPRALE26L20

5th NACP All-Investigators Meeting Posters (2015):
  • The Effects of Chlorophyll Assimilation on Carbon Fluxes in a Global Biogeochemical Model -- (Cecile S. Rousseaux, Watson W. Gregg) [abstract]