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portada Atmospheric Sulfur Cycle Simulated in the Global Model Gocart: Model Description and Global Properties
Type
Physical Book
Author
Publisher
Language
English
Pages
34
Format
Paperback
Dimensions
24.6 x 18.9 x 0.2 cm
Weight
0.08 kg.
ISBN13
9781289277185
Categories

Atmospheric Sulfur Cycle Simulated in the Global Model Gocart: Model Description and Global Properties

Patxi Zabaleta (Author) · Nasa Technical Reports Server (Ntrs) (Author) · Mian Chin (Author) · Bibliogov · Paperback

Atmospheric Sulfur Cycle Simulated in the Global Model Gocart: Model Description and Global Properties - Chin, Mian ; Nasa Technical Reports Server (Ntrs) ; Et Al

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Synopsis "Atmospheric Sulfur Cycle Simulated in the Global Model Gocart: Model Description and Global Properties"

The Georgia Tech/Goddard Global Ozone Chemistry Aerosol Radiation and Transport (GOCART) model is used to simulate the atmospheric sulfur cycle. The model uses the simulated meteorological data from the Goddard Earth Observing System Data Assimilation System (GEOS DAS). Global sulfur budgets from a 6-year simulation for SO2, sulfate, dimethylsulfide (DMS), and methanesulfonic acid (MSA) are presented in this paper. In a normal year without major volcanic perturbations, about 20% of the sulfate precursor emission is from natural sources (biogenic and volcanic) and 80% is anthropogenic: the same sources contribute 339% and 67% respectively to the total sulfate burden. A sulfate production efficiency of 0.41 - 0.42 is estimated in the model, an efficiency which is defined as a ratio of the amount oi sulfate produced to the total amount of SO2 emitted and produced in the atmosphere. This value indicates that less than half of the SO2 entering the atmosphere contributes to the sulfate production, the rest being removed by dry and wet depositions. In a simulation for 1990, we estimate a total sulfate production of 39 Tg S /yr with 36% and 64% respectively from in-air and in-cloud oxidation of SO2. We also demonstrate that major volcanic eruptions, such as the Mt. Pinatubo eruption in 1991, can significantly change the sulfate formation pathways, distributions, abundance, and lifetime. Comparison with other models shows that the parameterizations for wet removal or wet production of sulfate are the most critical factors in determining the burdens of SO2 and sulfate. Therefore, a priority for future research should be to reduce the large uncertainties associated with the wet physical and chemical processes.

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