As chlorine rises, ozone depletes. It is present as CFC's.
The concentration of chlorine rises in environment. This leads to more depletion of ozone.
When CFc's breakdown, they release Chlorine. It reacts with ozone and deplete it.
The highest concentration is located in the lower stratosphere.
When concentration of carbon dioxide increases, global warming increases. This causes ozone depletion.
The ozone concentration is maintained in atmosphere by UV. They create and deplete ozone.
The concentration of chlorine rises in environment. This leads to more depletion of ozone.
The concentration of ozone in the air goes up.
Certain chlorine compounds act as catalysts for the destruction of ozone. Chlorine by itself is not seen in any of the low ozone concentration areas of our atmosphere. Most of the compounds that contain chlorine that are found in these low concentration areas, are produced by Man, and seem to be derived from common refrigerants and spray can propellants used up until the 1990s.
When CFc's breakdown, they release Chlorine. It reacts with ozone and deplete it.
As chlorine increases, ozone is destroyed. Chlorine (from CFCs) is the cause of the ozone holes.
The highest concentration is located in the lower stratosphere.
The largest concentration of ozone is in the ozone layer. It is a pool of ozone molecules which are present in the atmosphere.
When concentration of carbon dioxide increases, global warming increases. This causes ozone depletion.
There is variable concentration of ozone on earth. The lowest concentration is at the poles.
Stratosphere has the highest ozone concentration. It is present as the ozone layer.
The ozone concentration is maintained in atmosphere by UV. They create and deplete ozone.
The stratosphere region of the atmosphere contain the highest concentration of ozone. It is present in the form of ozone layer.