Add to ORKGAtmospheric methane, CO and the gaseous OH radical are interdependent: If CH4, CO or OH is perturbed, background concentrations of the other two constituents are affected. Perturbations to OH alter photo-oxidation rates of numerous natural and anthropogenic trace gases and affect lifetimes of those species that pass from the Earth's surface to the free troposphere and stratosphere. It is now known that global atmospheric methane concentrations are increasing1-6; less definite data suggest that carbon monoxide is also increasing1,7-9. Even before the measurements of refs 1-9 were made, modelling studies of CH4-CO-OH coupling had led to predictions10-12 of future temporal increases of CH4 and CO. Here we look backwards in time, using a photoc...
Includes bibliographical references.Abstract in HTML and technical report in HTML and PDF available ...
Includes bibliographical references (p. 11).Abstract in HTML and technical report in HTML and PDF av...
Methane is the second most important greenhouse gas after CO2 and affects atmospheric temperatures ...
Understanding changes in the burden and growth rate of atmospheric methane (CH4) has been the focus ...
We have analysed time-slice simulations from 17 global models, participating in the Atmospheric Chem...
Two studies of the effect of changing CH4 fluxes on global tropospheric oxidant levels, O3, OH, H2O2...
A global three-dimensional model of tropospheric chemistry is used to investigate the changes in tro...
The growth in global methane (CH4) concentration, which had been ongoing since the industrial revolu...
A 2-dimensional transport-photochemistry model of the global troposphere was applied to carry out lo...
A two-dimensional (altitude vs. latitude) photochemical/transport model of the global troposphere is...
Carbon monoxide exerts strong control over the chemistry of the troposphere and lower stratosphere t...
Nitrous oxide (N(2)O) and methane (CH(4)) are chemically reactive greenhouse gases with well-documen...
Current understanding of the factors controlling biogenic isoprene emissions and of the fate of isop...
Abstract: The concentration of methane (CH4), the most abundant organic trace gas in the atmosphere,...
The interannual variability and trend in the CH4 lifetime, as a measure for global mean OH concentra...
Includes bibliographical references.Abstract in HTML and technical report in HTML and PDF available ...
Includes bibliographical references (p. 11).Abstract in HTML and technical report in HTML and PDF av...
Methane is the second most important greenhouse gas after CO2 and affects atmospheric temperatures ...
Understanding changes in the burden and growth rate of atmospheric methane (CH4) has been the focus ...
We have analysed time-slice simulations from 17 global models, participating in the Atmospheric Chem...
Two studies of the effect of changing CH4 fluxes on global tropospheric oxidant levels, O3, OH, H2O2...
A global three-dimensional model of tropospheric chemistry is used to investigate the changes in tro...
The growth in global methane (CH4) concentration, which had been ongoing since the industrial revolu...
A 2-dimensional transport-photochemistry model of the global troposphere was applied to carry out lo...
A two-dimensional (altitude vs. latitude) photochemical/transport model of the global troposphere is...
Carbon monoxide exerts strong control over the chemistry of the troposphere and lower stratosphere t...
Nitrous oxide (N(2)O) and methane (CH(4)) are chemically reactive greenhouse gases with well-documen...
Current understanding of the factors controlling biogenic isoprene emissions and of the fate of isop...
Abstract: The concentration of methane (CH4), the most abundant organic trace gas in the atmosphere,...
The interannual variability and trend in the CH4 lifetime, as a measure for global mean OH concentra...
Includes bibliographical references.Abstract in HTML and technical report in HTML and PDF available ...
Includes bibliographical references (p. 11).Abstract in HTML and technical report in HTML and PDF av...
Methane is the second most important greenhouse gas after CO2 and affects atmospheric temperatures ...