On this page we list information about the various anthropogenic emissions inventories available for use w/ GEOS-Chem v8-02-03 and higher versions.
- 1 Global inventories
- 2 Regional inventories
- 3 Annual scale factors for anthropogenic emissions inventories
- 4 Other resources
Emissions Database for Global Atmospheric Research (EDGAR) inventory.
The EDGAR emissions of NOx, CO, and SOx are the standard emissions. However, the EDGAR emissions are typically overwritten by data from the regional emissions inventories listed below.
The EDGAR inventory also includes emissions from ship exhaust.
- Olivier, J.G.J. and J.J.M. Berdowski, Global emissions sources and sinks. In: Berdowski, J., Guicherit, R. and B.J. Heij (eds.) The Climate System, pp. 33-78. A. A. Balkema Publishers/Swets & Zeitlinger Publishers, Lisse, The Netherlands., 2001
- A related document can be found here: EDGAR description (pdf)
- Aaron van Donkelaar has created a PDF document that shows some of the effects of using the EDGAR emissions.
--Bob Y. 13:37, 17 March 2010 (EDT)
Potential bug in EDGAR ship emissions code
Michael Long discovered this potential bug in the EDGAR emissions code.
The current GEOS-Chem default configuration uses the ICOADS ship emissions instead of the EDGAR ship emissions. In routine READ_EMISSIONS_MENU in input_mod.f, we have a safety check...we turn off the logical switch LEDGARSHIP if switch LICOADS is turned on:
!================================================================= ! Check global ship emissions options !================================================================= ! Add an ship emissions options (cklee, 6/30/09) ! Replace with ICOADS ship emissions ! User can still use regional EMEP, and ARCTAS-SO2 if he wants (phs) IF ( LICOADSSHIP ) THEN LEDGARSHIP = .FALSE. ! ICOADS precedes EDGAR LSHIPSO2 = .FALSE. ! SO2-ICOADS precedes SO2-Corbett ENDIF
In edgar_mod.F, the EDGAR ship emissions arrays are not allocated if the switch LEDGARSHIP == .FALSE.:
IF ( LEDGARSHIP ) THEN ALLOCATE( EDGAR_SO2_SHIP( IIPAR, JJPAR ), STAT=AS ) IF ( AS /= 0 ) CALL ALLOC_ERR( 'EDGAR_SO2_SHIP' ) EDGAR_SO2_SHIP = 0d0 ALLOCATE( EDGAR_NOx_SHIP( IIPAR, JJPAR ), STAT=AS ) IF ( AS /= 0 ) CALL ALLOC_ERR( 'EDGAR_NOx_SHIP' ) EDGAR_NOx_SHIP = 0d0 ALLOCATE( EDGAR_CO_SHIP( IIPAR, JJPAR ), STAT=AS ) IF ( AS /= 0 ) CALL ALLOC_ERR( 'EDGAR_CO_SHIP' ) EDGAR_CO_SHIP = 0d0 ENDIF
However, we still pass EDGAR_CO_SHIP to routine COMPUTE_EDGAR_CO even if it is not allocated:
IF ( LEDGARCO ) THEN CALL COMPUTE_EDGAR_CO( YEAR, EDGAR_CO, EDGAR_CO_SHIP ) ENDIF
Here, EDGAR_CO_SHIP is an output variable, which is supposed to return the EDGAR ship emissions at the current model resolution. This may produce undefined behavior. This may trigger an error when compiling with the check-array-bounds option (BOUNDS=yes).
Some of the more forgiving compilers may "fix" this on-the-fly and thus, you might not see any errors. However, for the sake of good programming practice, this should be fixed.
--Bob Y. 16:12, 8 August 2011 (EDT)
Previously, this was the baseline anthropogenic emissions inventory in GEOS-Chem.
Description from Wang et al :
A global NOx emission inventory (21 Tg N/yr) from fossil fuel combustion has been compiled by the Global Emission Inventory Activity [Benkovitz et al 1996] with a 1° x 1° resolution....
Our global CO emission inventory includes 390 TG CO/yr from fossil fuel combustion and industrial activities and 130 Tg CO/yr from wood fuel burning. This inventory has a resolution of 1° x 1° and is aseasonal....
We adopted the country-by-country inventory of Piccot et al  for emissions of paraffins (45 Tg C/yr) and olefins (18 Tg C/yr) from fossil fuel combustion and industrial activity. The emissions within each country were distributed on the basis of population density using a 1° x 1° population map [Benkovitz et al 1996]. The Piccot et al inventory gives no information on the speciation of paraffins and olefins; a speciation of emissions for the United states is, however, available from NAPAP [Middleton et al 1990]....On the basis of [additional data from Harvard Forest], we modify the NAPAP apportionment of paraffins....Assuming the NHMC speciation for the United States to be globally representative, we deduce global emission rates of 6.3 Tg C/yr of Ethane, 6.8 Tg C/yr of propane, 30 Tg C/yr of >=C4 alkanes, 1.0 Tg C/yr of acetone, 1.0 Tg C/yr of higher ketones, and 10.4 Tg C/yr of >=C3 alkenes.
- Benkovitz, C. M., M. T. Scholtz, J. Pacyna, L. Tarrason, J. Dignon, E. C. Voldner, P. A. Spiro, J. A. Logan, and T. E. Graedel, Global gridded inventories of anthropogenic emissions of sulfur and nitrogen, J. Geophys. Res., 101(D22), 29,239-29,253, 1996.
- Middleton, P., W.R. Stockwell, and W.P.L. Carter, Aggregation and analysis of volatile organic carbon emissions for regional modeling, Atmos. Env., 24A, 1107-1133, 1990.
- Piccot, S.D., J.J. Watson, and J.W. Jones. A global inventory of volatile organic compound emissions from anthropogenic sources, J. Geophys. Res., 97, 9897-9912, 1992.
- Wang, Y., D.J. Jacob, and J.A. Logan, Global simulation of tropospheric O3-NOx-hydrocarbon chemistry, 1. Model formulation, J. Geophys. Res., 103, D9,10,713-10,726, 1998. PDF
These inventories can be used to "overwrite" the global emissions inventories in specific regions of the world.
We recommend that you turn on the regional emissions (e.g. BRAVO, CAC, EPA/NEI05, EMEP, etc.), which will override the default underlying global emissions (e.g. EDGAR). To select these emissions inventories, you will have to modify the EMISSIONS MENU section of the input.geos input file. For detailed instructions, please see Section 220.127.116.11 of the GEOS-Chem Users' Guide.
Big Bend Regional Aerosol and Visibility Observational (BRAVO) Study Emissions Inventory for Mexico and some neighboring U.S. states.
- Big Bend Regional Aerosol and Visibility Observational (BRAVO) Study Emissions Inventory, H. Kuhns, M. Green, and V. Etyemezian, 2003. PDF
The Criteria Air Contaminants (CAC) inventory is a regional inventory of anthropogenic emissions over Canada. For more information about the data files, please see this README file.
There are 3 implementations of the David Streets inventory:
This was the original inventory. See this paper for more information.
- Streets, D.G., T.C. Bond, G.R. Carmichael, S.D. Fernandes, Q. Fu, Z. Klimont, S.M. Nelson, N.Y. Tsai, M.Q. Wang, J-H. Woo, and K.F. Yarber, An inventory of gaseous and primary aerosol emissions in Asia in the year 2000, J. Geophys. Res, 108, D21, doi:10.1029/2002JD003093, 2003.
NOTE about NH3 emissions: This is the latest inventory available for anthropogenic ammonia (NH3) emissions over Asia. It does not include any seasonal cycle, which for NH3 results in overestimates in winter and underestimates in spring, due to the annual cycle of agricultural activity. We correct this by using the annual total from Streets 2000 but with superimposed monthly scale factors from a global inventory compiled by Marcel Meinders and Lex Bouwman. Their inventory has not been published, but applies seasonal variation based on the length of the growing season for fertilizer use and on temperature and wind speed for everything else. This fix will be standard in v9-01-02. For more information, see:
- Fisher, J.A., Jacob, D.J., Wang, Q., et al. Sources, distribution, and acidity of sulfate-ammonium aerosol in the Arctic in winter-spring, Atmos. Environ., submitted, 2011.
This update to NH3 emissions was tested in the 1-month benchmark simulation v9-01-02j and approved on 16 Aug 2011.
This inventory was issued to update under-estimated China CO in the Streets 2000. Therefore, this data set only covers China. For the rest of SE Asia, the Streets 2000 is used. See this reference for more information:
- Streets, D.G, Q. Zhang, L. Wang, K. He, J. Hao, Y. Wu, Y. Tang, and G.C. Carmichael, Revisiting China's CO emissions after the Transport and Chemical Evolution over the Pacific (TRACE-P) mission: Synthesis of inventories, atmospheric modeling, and observations, J. Geophys. Res, 111, D14306, doi:10.1029/2006JD007118, 2006.
This is the most recent inventory. NOTE: Anthropogenic and biofuel emissions are lumped together, so when you use this in GEOS-Chem, you have to zero out the biofuel emissions. This is done in the streets_anthro_mod.f already.
The Streets 2006 inventory will be used by the code automatically for dates past Jan 1, 2006. You may also set the emissions base year to 2006 manually in the input.geos file.
See these references for more information:
- INTEX-B, http://mic.greenresource.cn/intex-b2006; or http://www.cgrer.uiowa.edu/EMISSION_DATA_new/index_16.html
- Zhang, Q., Streets, D. G., Carmichael, G. R., He, K. B., Huo, H., Kannari, A., Klimont, Z., Park, I. S., Reddy, S., Fu, J. S., Chen, D., Duan, L., Lei, Y., Wang, L. T., and Yao, Z. L.: Asian emissions in 2006 for the NASA INTEX-B mission, Atmos. Chem. Phys., 9, 5131-5153, 2009.
Please see this wiki post about a bug that was discovered in GEOS-Chem v9-01-01 that resulted in a double-counting of David Streets biofuel emissions over Asia. This issue will be corrected in GEOS-Chem v9-01-02.
--Bob Y. 10:48, 18 February 2011 (EST)
The Co-operative Programme for Monitoring and Evaluation of the Long-range Transmission of Air Pollutants in Europe (EMEP) inventory for Europe.
The EMEP inventory also includes emissions from ship exhaust.
NOTE: The EMEP emissions data have been extended to the year 2007 in GEOS-Chem v8-03-01 and higher versions.
- Auvray, M., and I. Bey, Long-Range Transport to Europe: Seasonal Variations and Implications for the European Ozone Budget, J. Geophys. Res., 110, D11303, doi: 10.1029/2004JD005503, 2005.
- Vestreng, V., and H. Klein (2002), Emission data reported to UNECE/EMEP: Quality assurance and trend analysis & Presentation of WebDab, MSC-W Status Report 2002, Norwegian Meteorological Institute, Oslo Norway, July 2002. PDF
- Vestreng et al., EMEP 2005 expert emissions, 2007. (need full citation!)
Please visit our page for the EPA/NEI05 North American emissions.
Please visit our page for the EPA/NEI99 North American emissions.
Annual scale factors for anthropogenic emissions inventories
Please see our new Scale factors for anthropogenic emissions wiki page for the latest information about scale factors for anthropogenic emissions inventories used in GEOS-Chem.
The " => Scale to (1985-2005)" option in input.geos will scale all anthropogenic emissions to the year that you select, unless data for that year exists. If you enter a negative number (recommended), emissions will be automatically scaled to the closest-to-simulation year and/or the best base year is selected when several are available in one inventory (like EMEP). It is recommended to set this field to -1 or 2006 for simulations after 2005, so that all inventories are scaled to 2005, and STREETS 2006 is used in SE ASIA.
Here is a brief explanation from van Donkelaar et al., ACPD, 8, 4017-4057, 2008:
We scale all regional and global inventories from their respective base year to 2003, the last year of available statistics, unless its base year is after 2003. Our approach follows Bey et al. (2001) and Park et al. (2004). Emissions are scaled according to estimates provided by individual countries, where available. These countries/regions include the United States, Canada, Japan and Europe. NOx emissions of remaining countries are scaled proportional to changes in total CO2 emissions. SOx emissions are similarly scaled to solid fuel CO2 emissions and CO emissions to liquid fuel CO2 emissions. CO2 emission data are obtained from the Carbon Dioxide Information Analysis Center (CDIAC).
Note that the scale factor have been updated since that paper to go up to 2005, and are based on REAS data now for South East Asia:
Relative changes in the REAS inventory (Ohara et al., ACP, , http://www.jamstec.go.jp/frsgc/research/d4/reas_h_a.html) over East Asia have been used. This should be a good improvement as REAS emissions are gridded, rather than national scale emissions, giving us much better spatial detail. Also, these scalars are now based on actual NOx, SOx and CO emission estimates, not strictly an assumed proportionality between total, solid and liquid CO2 emissions.
Please see the following references for more information about anthropogenic emissions in GEOS-Chem: