Add to ORKGInternational audienceEpisodes of ozone depletion in the lowermost Arctic atmosphere (0--2 km) at polar sunrise have been intensively studied at Alert, Canada, and are thought to result from catalytic reactions involving bromine. Recent observations of high concentrations of tropospheric BrO over large areas of the Arctic and Antarctic suggest that such depletion events should also be seen by ozonesondes at other polar stations. An examination of historical ozonesonde records shows that such events occur frequently at Alert, Eureka and Resolute, but much less frequently at Churchill and at other stations. The differences appear to be attributable to differences in surface meteorology. The long record at Resolute shows depletions since 1966,...
In situ measurements of ozone, photochemically active bromine compounds, and other trace gases over ...
To probe the spatial extent of tropospheric ozone depletion events during Antarctic spring, a networ...
Arctic ozone depletion events (ODEs) are caused by halogen catalyzed ozone loss. In situ chemistry, ...
International audienceEpisodes of ozone depletion in the lowermost Arctic atmosphere (0--2 km) at po...
International audienceThe Royal Society expedition to Antarctica established a base at Halley Bay, i...
In both polar regions tropospheric ozone regularly decreases during springtime to negligible concent...
International audienceDuring the Arctic Tropospheric Ozone Chemistry (ARCTOC) campaigns at Ny-Ålesun...
Ozone Depletion Events (ODE) during polar springtime are a well known phenomenon in the Arctic and A...
Ozone depletion events in the polar troposphere have been linked to extremely high concentrations of...
The majority of tropospheric ozone depletion event (ODE) studies have focussed on time-series measur...
The majority of tropospheric ozone depletion event (ODE) studies have focussed on time-series measur...
Ozone depletion events (ODEs) in the polar boundary layer have been observed frequently during sprin...
International audienceThe Royal Society expedition to Antarctica established a base at Halley Bay, i...
Elevated concentrations of atmospheric bromine are known to cause ozone depletion in the Arctic, whi...
The photochemically-induced destruction of ground-level Arctic ozone in the Arctic occurs at the ons...
In situ measurements of ozone, photochemically active bromine compounds, and other trace gases over ...
To probe the spatial extent of tropospheric ozone depletion events during Antarctic spring, a networ...
Arctic ozone depletion events (ODEs) are caused by halogen catalyzed ozone loss. In situ chemistry, ...
International audienceEpisodes of ozone depletion in the lowermost Arctic atmosphere (0--2 km) at po...
International audienceThe Royal Society expedition to Antarctica established a base at Halley Bay, i...
In both polar regions tropospheric ozone regularly decreases during springtime to negligible concent...
International audienceDuring the Arctic Tropospheric Ozone Chemistry (ARCTOC) campaigns at Ny-Ålesun...
Ozone Depletion Events (ODE) during polar springtime are a well known phenomenon in the Arctic and A...
Ozone depletion events in the polar troposphere have been linked to extremely high concentrations of...
The majority of tropospheric ozone depletion event (ODE) studies have focussed on time-series measur...
The majority of tropospheric ozone depletion event (ODE) studies have focussed on time-series measur...
Ozone depletion events (ODEs) in the polar boundary layer have been observed frequently during sprin...
International audienceThe Royal Society expedition to Antarctica established a base at Halley Bay, i...
Elevated concentrations of atmospheric bromine are known to cause ozone depletion in the Arctic, whi...
The photochemically-induced destruction of ground-level Arctic ozone in the Arctic occurs at the ons...
In situ measurements of ozone, photochemically active bromine compounds, and other trace gases over ...
To probe the spatial extent of tropospheric ozone depletion events during Antarctic spring, a networ...
Arctic ozone depletion events (ODEs) are caused by halogen catalyzed ozone loss. In situ chemistry, ...