Current and future environmental role of atmospheric methane: Model studies and uncertainties. Book chapter
Technical Report
·
OSTI ID:7067682
Concern over increasing levels of methane in the atmosphere centers on its radiative and chemical properties. Methane absorbs terrestrial infrared radiation and contributes to the greenhouse effect. Effects on other greenhouse absorbers (e.g., O3, H2O, and CO2) as the result of its oxidation must also be considered. These indirect effects have made the quantification of the total climatic effects of chemically active gases, such as CH4, much more difficult than if direct radiative effects are considered alone. The oxidation of methane also exerts a controlling influence on atmospheric OH levels and is a major source of carbon monoxide. The variations in OH induced by changing CH4 levels feed back onto the lifetime of methane and the abundance of CO. There is a shortage of intercompared model results documenting the effects of CH4 and nonmethane hydrocarbon (NMHC) additions on tropospheric OH levels. Most analyses to date have relied on analyses of gas phase reaction sequences for methane oxidation without considering the numerous feedbacks on atmospheric chemistry. More complete modeling studies are needed because OH levels also depend on the emissions of CO, NMHCs, and NOy (NOx + NO3 + 2N2O5 + CH3CO3NO2(PAN) + HNO3 + HNO4 + CINO3 + NO3), where NOx is NO + NO2 and NOy and NX are interchangeable terms. Furthermore, analyses which simulate the role of climate in controlling CH4 emissions from various natural sources (e.g. wetlands) are critical for attempting to predict the response of atmospheric methane levels to future climate change.
- Research Organization:
- Environmental Protection Agency, Research Triangle Park, NC (United States). Atmospheric Research and Exposure Assessment Lab.
- OSTI ID:
- 7067682
- Report Number(s):
- PB-92-188820/XAB; EPA--600/A-92/116
- Country of Publication:
- United States
- Language:
- English
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