Description of data files accompanying: Global nitrogen deposition (2°×2.5° grid resolution) simulated with GEOS-Chem for 1984-1986, 1994-1996, 2004-2006, and 2014-2016 Author: Daniel E Ackerman 8 October, 2018 The .csv file 'inorganic_N_deposition.csv' contains spatially-explicit information about dry, wet, and total (dry + wet) inorganic nitrogen deposition in each grid cell for each year simulated. Chemical species included in the wet deposition calculations were NH3, NH4, NO3, and HNO3. Dry deposition calculations included these species plus N2O5 and NO2. Rows represent individual grid cells from the simulation. Metadata about specific columns is as follows: 1. 'latitude': latitude value (decimal degrees) of center of simulated grid cell 2. 'longitude': longitude value (decimal degrees) of center of simulated grid cell 3. 'pixel_area_km2': Area of the simulated grid cell in units of square kilometers 4-39. These columns provide the amount of inorganic nitrogen (kilograms of nitrogen per square kilometer per year) deposited from atmosphere to land in a specified year. In the column title, the type of deposition ('wet', 'dry', or 'total') is separated from the year with an underscore. For example, each case within the column 'wet_1984' shows the amount of inorganic nitrogen deposited through wet deposition in the year 1984 for each grid cell. The .csv file 'organic_N_deposition.csv' contains spatially-explicit information about dry, wet, and total (dry + wet) organic nitrogen deposition in each grid cell for each year simulated. Chemical species included in the simulations are propanone nitrate, isoprene hydroxynitrate, methyl vinyl ketone + methacrolein nitrates, ?C4 alkylnitrates, methyl peroxy nitrate, peroxyacetylnitrate, peroxypropionylnitrate, and peroxymethacryloyl nitrate. GEOS-Chem does not simulate certain biogenic nitrogen-bearing compounds, such as amino acids and urea, which can constitute a significant component of organic nitrogen deposition. Therefore, our estimates of organic nitrogen deposition should be considered lower-bound estimates. Rows represent individual grid cells from the simulation. Metadata about specific columns is as follows: 1. 'latitude': latitude value (decimal degrees) of center of simulated grid cell 2. 'longitude': longitude value (decimal degrees) of center of simulated grid cell 3. 'pixel_area_km2': Area of the simulated grid cell in units of square kilometers 4-39. These columns provide the amount of organic nitrogen (kilograms of nitrogen per square kilometer per year) deposited from atmosphere to land in a specified year. In the column title, the type of deposition ('wet', 'dry', or 'total') is separated from the year with an underscore. For example, each case within the column 'wet_1984' shows the amount of organic nitrogen deposited through wet deposition in the year 1984 for each grid cell. The .csv file 'oxidized_reduced_N_deposition.csv' contains spatially-explicit information about dry, wet, and total (dry + wet) inorganic nitrogen deposition in chemically reduced and chemically oxidized species for each grid cell in each year simulated. Rows represent individual grid cells from the simulation. Metadata about specific columns is as follows: 1. 'latitude': latitude value (decimal degrees) of center of simulated grid cell 2. 'longitude': longitude value (decimal degrees) of center of simulated grid cell 3. 'pixel_area_km2': Area of the simulated grid cell in units of square kilometers 4-75. These columns provide the amount of inorganic nitrogen (kilograms of nitrogen per square kilometer per year) deposited from atmosphere to land in either oxidized or reduced chemical forms. Each column title has three descriptive parts, separated by under scores. The first part of the column title indicates the type of deposition: 'dry', 'wet', or 'total' (wet + dry). The second part of the column title indicates the chemical form: 'oxidized' or 'reduced'. The third part of the column title indicates the year. For example, each case within the column 'dry_reduced_1984' shows the amount of inorganic nitrogen deposited through dry deposition in reduced chemical forms in the year 1984 for the corresponding grid cell.