Add to ORKGAn increase in the concentration of inorganic chlorine to levels comparable to that of oxidized reactive nitrogen could cause a significant change in the chemistry of the lower stratosphere leading to a reduction potentially larger than 15% in the column density of ozone. This could occur, for example by the middle of the next century, if emissions of man-made chlorocarbons were to grow at a rate of 3% per year. Ozone could be further depressed by release of industrial bromocarbon
Halogens released from long-lived anthropogenic substances, such as chlorofluorocarbons, are the pri...
Halogenated organic compounds such as Chlorofluorocarbons (CFCs), Hydro fluorocarbons(HCFCs) and Hal...
Chlorine and bromine atoms can lead to catalytic destruction of ozone in the stratosphere. Therefore...
An increase in the concentration of inorganic chlorine to levels comparable to that of oxidized reac...
The rise in atmospheric chlorine levels caused by the emission of chlorofluorocarbons and other halo...
Calculations indicate that chlorofluoromethanes produced by man can greatly affect the concentration...
Abstract: The chlorofluorocarbons (CFCs) are industrial chemicals used as solvents, refriger-ants, p...
It is well established that anthropogenic chlorine-containing chemicals contribute to ozone layer de...
The role of bromine compounds in the photochemistry of the natural and perturbed stratosphere has be...
Through the 21st century, global-mean stratospheric ozone abundances are projected to increase due t...
With a reasonably complete and up-to-date photochemical model of the stratosphere, we find that the ...
A layer of ozone in the atmosphere, called the ozone shield, protects the earth ultraviolet rays. Ov...
Stratospheric ozone has been depleted over the last 25 years following anthropogenic emissions of a ...
Thanks to the Montreal Protocol, the stratospheric concentrations of ozone-depleting chlorine and br...
The depletion of the ozone layer is caused mainly by the increase in emissions of chlorine- and brom...
Halogens released from long-lived anthropogenic substances, such as chlorofluorocarbons, are the pri...
Halogenated organic compounds such as Chlorofluorocarbons (CFCs), Hydro fluorocarbons(HCFCs) and Hal...
Chlorine and bromine atoms can lead to catalytic destruction of ozone in the stratosphere. Therefore...
An increase in the concentration of inorganic chlorine to levels comparable to that of oxidized reac...
The rise in atmospheric chlorine levels caused by the emission of chlorofluorocarbons and other halo...
Calculations indicate that chlorofluoromethanes produced by man can greatly affect the concentration...
Abstract: The chlorofluorocarbons (CFCs) are industrial chemicals used as solvents, refriger-ants, p...
It is well established that anthropogenic chlorine-containing chemicals contribute to ozone layer de...
The role of bromine compounds in the photochemistry of the natural and perturbed stratosphere has be...
Through the 21st century, global-mean stratospheric ozone abundances are projected to increase due t...
With a reasonably complete and up-to-date photochemical model of the stratosphere, we find that the ...
A layer of ozone in the atmosphere, called the ozone shield, protects the earth ultraviolet rays. Ov...
Stratospheric ozone has been depleted over the last 25 years following anthropogenic emissions of a ...
Thanks to the Montreal Protocol, the stratospheric concentrations of ozone-depleting chlorine and br...
The depletion of the ozone layer is caused mainly by the increase in emissions of chlorine- and brom...
Halogens released from long-lived anthropogenic substances, such as chlorofluorocarbons, are the pri...
Halogenated organic compounds such as Chlorofluorocarbons (CFCs), Hydro fluorocarbons(HCFCs) and Hal...
Chlorine and bromine atoms can lead to catalytic destruction of ozone in the stratosphere. Therefore...