The Oxidizing Capacity of the Earth's Atmosphere: Probable Past and Future Changes
- 22 May 1992
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 256 (5060) , 1157-1165
- https://doi.org/10.1126/science.256.5060.1157
Abstract
The principal oxidants in the lower atmosphere are ozone (O3) and two by-products of O3 photodissociation, the hydroxyl radical (OH) and hydrogen peroxide (H2O2). A number of critical atmospheric chemical problems depend on the earth's "oxidizing capacity," which is essentially the global burden of these oxidants. There is limited direct when, because of industrial and population growth, increasing amounts of O3 precursor trace gases (carbon monoxide, nitrogen oxides, and hydrocarbons) have been released into the atmosphere. The concentrations of O3 and possibly H2O2 have increased over large regions. Models predict that tropospheric O3 will increase ∼0.3 to 1% per year over the next 50 years with both positive and negative trends possible for OH and H2O2. Models and the observational network for oxidants are improving, but validation of global models is still at an early stage.Keywords
This publication has 97 references indexed in Scilit:
- Impact of recent total ozone changes on tropospheric ozone photodissociation, hydroxyl radicals, and methane trendsGeophysical Research Letters, 1992
- The effect of aircraft emissions on tropospheric ozone in the northern hemisphereAtmospheric Environment. Part A. General Topics, 1992
- Total Ozone trends deduced from Nimbus 7 Toms dataGeophysical Research Letters, 1991
- Atmospheric chemistry of peroxides: a reviewAtmospheric Environment. Part A. General Topics, 1990
- The CH4 ‐ CO ‐ OH conundrum: A simple analytic approachGlobal Biogeochemical Cycles, 1989
- Scenarios of possible changes in atmospheric temperatures and ozone concentrations due to man's activities, estimated with a one-dimensional coupled photochemical climate modelClimate Dynamics, 1988
- A homogeneous gas phase mechanism for use in a regional acid deposition modelAtmospheric Environment (1967), 1986
- Increase of Atmospheric Methane Recorded in Antarctic Ice CoreScience, 1985
- Two-dimensional model studies of the impact of aircraft exhaust emissions on tropospheric ozoneAtmospheric Environment (1967), 1982
- Chemistry within aqueous atmospheric aerosols and raindropsReviews of Geophysics, 1981