T. E. Graedel scite author profile

Two sets of global inventories of anthropogenic emissions of both oxides of sulfur and oxides of nitrogen for circa 1985 have been produced under the umbrella of the Global Emissions Inventory Activity (GEIA) of the International Global Atmospheric Chemistry Program. The two sets of inventories have different temporal, sectoral, and vertical resolution. Both were compiled using the same data sets; default data sets of global emissions have been refined via the use of more detailed regional data sets. This article reports on the compilation of the annual, one‐vertical‐level inventories, called version 1A; the inventory files are available to the scientific community via anonymous file transform protocol (FTP). Existing global inventories and regional inventories have been updated and combined on a 1° × 1° longitude/latitude grid. The resulting global anthropogenic emissions are 65 Tg S yr−1 and 21 Tg N yr−1; qualitative uncertainty estimates have been assigned on a regional basis. Emissions of both SOx and NOx are strongly localized in the highly populated and industrialized areas of eastern North America and across Europe; other smaller regions of large emissions are associated with densely populated areas with developed industries or in connection with exploitation of fuels or mineral reserves. The molar ratio of nitrogen to sulfur emissions reflects the overall character of sources; its value is generally between 0.33 and 10 for industrialized and heavily populated areas but varies over a wide range for other areas. We suggest that those requiring sulfur or nitrogen emission inventories standardize on the GEIA inventories, which we believe are authoritative and which are freely available to all users by anonymous FTP.

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Carbon and oxygen isotope fractionation in dense interstellar clouds

Langer¹,

Graedel²,

Frerking³

et al. 1984

ApJ

285

278

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The kinetic chemistry of dense interstellar clouds

Graedel¹,

Langer²,

Frerking³

1982

ApJS

327

235

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Sunday and Workday Variations in Photochemical Air Pollutants in New Jersey and New York

Cleveland¹,

Graedel²,

Kleiner³

et al. 1974

Science

207

119

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Concentration distributions of air contaminants and meteorological variables in New Jersey and New York for workdays (Mondays through Fridays, omitting holidays) and Sundays are compared by means of quantile-quantile plots. The ozone distributions are slightly higher on Sundays, and the primary pollutant distributions are lower. These results raise serious questions about the validity of current concepts underlying ozone reduction in urban atmospheres.

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T. E. Graedel

A global model of natural volatile organic compound emissions

Global gridded inventories of anthropogenic emissions of sulfur and nitrogen

Carbon and oxygen isotope fractionation in dense interstellar clouds

The kinetic chemistry of dense interstellar clouds

Sunday and Workday Variations in Photochemical Air Pollutants in New Jersey and New York

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