MASAGE NH3 inventory
Overview
MASAGE_NH3 is an inventory of agricultural NH3 emissions developed by Fabien Paulot. A full description is given in Paulot et al (2014).
From the abstract to Paulot et al (2014):
We use the adjoint of a global 3-D chemical transport model (GEOS-Chem) to optimize ammonia (NH3) emissions in the U.S., European Union, and China by inversion of 2005–2008 network data for NH4+ wet deposition fluxes. Optimized emissions are derived on a 2° x 2.5° grid for individual months and years. Error characterization in the optimization includes model errors in precipitation. Annual optimized emissions are 2.8 Tg NH3−N a−1 for the contiguous U.S., 3.1 Tg NH3−N a-1 for the European Union, and 8.4 Tg NH3−N a−1 for China. Comparisons to previous inventories for the U.S. and European Union show consistency (∼ +/-15%) in annual totals but some large spatial and seasonal differences. We develop a new global bottom-up inventory of NH3 emissions (Magnitude And Seasonality of Agricultural Emissions model for NH3 (MASAGE_NH3)) to interpret the results of the adjoint optimization. MASAGE_NH3 provides information on the magnitude and seasonality of NH3 emissions from individual crop and livestock sources on a 0.5° x 0.5° grid. We find that U.S. emissions peak in the spring in the Midwest due to corn fertilization and in the summer elsewhere due to manure. The seasonality of European emissions is more homogeneous with a well-defined maximum in spring associated with manure and mineral fertilizer application. There is some evidence for the effect of European regulations of NH3 emissions, notably a large fall decrease in northern Europe. Emissions in China peak in summer because of the summertime application of fertilizer for double cropping.
Data files
GEOS-Chem uses monthly mean e
Files:
masage_nh3_2006.2x25.nc
-- File containing MASAGE_NH3 emissions for various agricultural sectors, as described in the Paulot et al 2014 paper cited above.
This data file contains monthly mean NH3 emissions placed on the GEOS-Chem 2 x 2.5 horizontal grid. The base year of emissions is 2006. Units of NH3 emissions are given as kg NH3 m-2 s-1.
If we convert these emissions from kg NH3 m-2 s-1 to Gg N (i.e. multiply by the factor 14/17/1e6) and sum over all 12 months, we can directly compare to the global totals listed in Table A1 of Paulot et al 2014:
EMISSION TOTALS, compare to Fabien's table A1 COTTON [kg N] 731.352 FRUITS_VEGETABLES [kg N] 820.576 GROUNDNUT [kg N] 80.8127 MAIZE [kg N] 1743.05 OIL_PALM [kg N] 112.432 OTHER_CEREALS [kg N] 122.545 OTHER_CEREALS_WINTER [kg N] 336.14 OTHER_CROPS [kg N] 987.441 PULSES [kg N] 44.6072 RAPESEED [kg N] 155.898 EARLY_RICE [kg N] 554.186 LATE_RICE [kg N] 323.54 SOYBEANS [kg N] 85.5041 SUGAR_CANE [kg N] 428.529 TEMPERATE_ROOTS [kg N] 459.644 TROPICAL_CEREALS [kg N] 92.0221 TROPICAL_ROOTS [kg N] 160.903 WHEAT [kg N] 423.498 WHEAT_WINTER [kg N] 1606.97 BEEF_CROP [kg N] 1998.11 BEEF_HOUSING [kg N] 5900.38 BEEF_PASTURE [kg N] 1672.35 BEEF_STORAGE [kg N] 549.203 BUFFALOES_EMISSION [kg N] 1525.14 DAIRY_CROP [kg N] 685.603 DAIRY_HOUSING [kg N] 1112.69 DAIRY_PASTURE [kg N] 668.778 DAIRY_STORAGE [kg N] 811.267 GOATS_EMISSION [kg N] 690.562 PORK_CROP [kg N] 775.642 PORK_HOUSING [kg N] 2055.58 PORK_PASTURE [kg N] 608.831 PORK_STORAGE [kg N] 680.933 POULTRY_CROP [kg N] 928.715 POULTRY_HOUSING [kg N] 2186.11 POULTRY_PASTURE [kg N] 546.004 POULTRY_STORAGE [kg N] 323.869 SHEEP_EMISSION [kg N] 967.568
References
- Paulot F., Jacob, D.J., Pinder R.W., Bash J.O., Travis, K., Henze D.K., Ammonia emissions in the United States, Europe, and China derived by high-resolution inversion of ammonium wet deposition data: Interpretation with a new agricultural emissions inventory (MASAGE_NH3), J. Geophys. Res., 119, 4,343-4,364, 2014. PDF