Scenarios of possible changes in atmospheric temperatures and ozone concentrations due to man's activities, estimated with a one-dimensional coupled photochemical climate model
Author:
Publisher
Springer Science and Business Media LLC
Subject
Atmospheric Science
Link
http://link.springer.com/content/pdf/10.1007/BF01053474.pdf
Reference141 articles.
1. Ackerman M (1971) Ultraviolet solar radiation related to mesospheric processes. In: Fiocco G (ed) Mesospheric models and related experiments. Reidel, Dordrecht, pp 149–159.
2. Allen M, Frederick JE (1982) Effective photodissociation cross sections for molecular oxygen and nitric oxide in the Schumann Runge bands. J Atmos Sci 39:2066–2075
3. Andreae MO, Browell EV, Garstang MA, Gregory GL, Harriss RC, Hill GF, Jacob DJ, Pereira MC, Sachse GW, Setzer AW, Silva Dias PL, Talbot RW, Torres AL, Wofsy SC (1987) Biomass burning emissions and sssociated haze layers over Amazonia, J. Geophys Res (in press)
4. Bates DR, Nicolet M (1950) The photochemistry of atmospheric water vapor. J Geophys Res 55:301–327
5. Bingemer H, Crutzen PJ (1987) The production of methane from solid wastes. J Geophys Res 92:2181–2187
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