Add to ORKGCurrent stratospheric models have difficulties in fully explaining the observed midlatitude ozone depletion in the lowermost stratosphere, particularly near the tropopause. Such models assume that only long-lived source gases provide significant contributions to the stratospheric halogen budget, while all the short-lived compounds are removed in the troposphere, the products being rained out. Here we show this assumption to be flawed. Using bromine species as an example, we show that in the lowermost stratosphere, where the observed midlatitude ozone trend maximizes, bromoform (CHBr3) alone likely contributes more inorganic bromine than all the conventional long-lived sources (halons and methyl bromide) combined. Copyright 1999 by the Ameri...
We have used a global three-dimensional chemical transport model to quantify the impact of the very ...
Halogens released from long-lived anthropogenic substances, such as chlorofluorocarbons, are the pri...
A three-dimensional (3-D) chemical transport model (CTM) has been used to study the tropospheric che...
Current stratospheric models have difficulties in fully explaining the observed midlatitude ozone de...
Many chlorinated and brominated compounds that are inert in the troposphere are destroyed in the str...
We present novel measurements of five short-lived brominated source gases (CH2Br2, CHBr3, CH2ClBr, C...
[1] Measurements of BrO suggest that inorganic bromine (Bry) at and above the tropopause is 4 to 8 ...
Recent in situ and satellite measurements suggest a contribution of ~5 pptv to stratospheric inorgan...
Recent in situ and satellite measurements suggest a contribution of similar to 5 pptv to stratospher...
Measurements of BrO suggest that inorganic bromine (Br_y) at and above the tropopause is 4 to 8 ppt ...
Very short-lived brominated substances (VSLBr) are an important source of stratospheric bromine, an ...
Halogens in the atmosphere chemically destroy ozone. In the troposphere, bromine has higher ozone de...
We present novel measurements of five short-lived brominated source gases (CH2Br2, CHBr3, CH2ClBr, C...
The stratospheric inorganic bromine (Br) burden arising from the degradation of brominated very shor...
We use the NASA Goddard Earth Observing System (GEOS) Chemistry Climate Model (GEOSCCM) to quantify ...
We have used a global three-dimensional chemical transport model to quantify the impact of the very ...
Halogens released from long-lived anthropogenic substances, such as chlorofluorocarbons, are the pri...
A three-dimensional (3-D) chemical transport model (CTM) has been used to study the tropospheric che...
Current stratospheric models have difficulties in fully explaining the observed midlatitude ozone de...
Many chlorinated and brominated compounds that are inert in the troposphere are destroyed in the str...
We present novel measurements of five short-lived brominated source gases (CH2Br2, CHBr3, CH2ClBr, C...
[1] Measurements of BrO suggest that inorganic bromine (Bry) at and above the tropopause is 4 to 8 ...
Recent in situ and satellite measurements suggest a contribution of ~5 pptv to stratospheric inorgan...
Recent in situ and satellite measurements suggest a contribution of similar to 5 pptv to stratospher...
Measurements of BrO suggest that inorganic bromine (Br_y) at and above the tropopause is 4 to 8 ppt ...
Very short-lived brominated substances (VSLBr) are an important source of stratospheric bromine, an ...
Halogens in the atmosphere chemically destroy ozone. In the troposphere, bromine has higher ozone de...
We present novel measurements of five short-lived brominated source gases (CH2Br2, CHBr3, CH2ClBr, C...
The stratospheric inorganic bromine (Br) burden arising from the degradation of brominated very shor...
We use the NASA Goddard Earth Observing System (GEOS) Chemistry Climate Model (GEOSCCM) to quantify ...
We have used a global three-dimensional chemical transport model to quantify the impact of the very ...
Halogens released from long-lived anthropogenic substances, such as chlorofluorocarbons, are the pri...
A three-dimensional (3-D) chemical transport model (CTM) has been used to study the tropospheric che...
