Abstract:
Ground-based UV-Visible measurements targeting BrO were made at Lauder, New Zealand (45.0°S, 169.7°E) and Arrival Heights, Antarctica (77.8°S, 166.7°E). Differential Optical Absorption Spectroscopy (DOAS) was used to determine differential slant column densities (DSCDs) from the radiance measurements. UV-Visible measurements have been made in the two complementary viewing geometries of direct-sun and zenith-sky.
A spherical curved earth single scattering radiative transfer model was developed. The effects of refraction, molecular absorption, Rayleigh and Mie scattering were included.
Singularity at the tangent point was avoided and a complete intensity calculation performed.
The DSCDs for both the direct-sun and zenith-sky viewing measurements were
calculated with this forward model.
A general optimal estimation retrieval algorithm was developed to retrieve altitude
information by combining DSCDs from the direct-sun and zenith-sky viewing geometries.
A complete retrieval characterisation and error analysis was performed. The characterisation
illustrated that tropospheric sensitivity was obtained from the direct-sun viewing
measurements, while the zenith-sky measurements were essential for stratospheric sensitivity.
Stratospheric and tropospheric BrO columns were retrieved for the diurnal stages of
80°, 84° and 87° SZA for Lauder. The diurnal and seasonal variation of the stratospheric
column was successfully retrieved from the measurements. The stratospheric columns
were consistent with a stratospheric Bry loading of 20 ppt. The tropospheric BrO column
retrieved over Lauder was less than 0.9 ppt if a uniform distribution throughout the troposphere
is assumed. This is consistent with, though lower than, previous estimates of
BrO in the free troposphere of 0.5-2.0 ppt (Richter et al., 2002).
The results of a ten week measurement campaign at Arrival Heights for the spring
2002 are presented. Stratospheric and tropospheric BrO columns were retrieved at 80°,
84° and 88° SZA. A high variability was observed for the retrieved stratospheric columns,
due in part to the unusual stratospheric warming in the Antarctic spring 2002 (Allen
et al., 2003). A mean ubiquitous tropospheric background of 0.3 ppt was retrieved. Also
a ‘bromine explosion’ event was observed, corresponding to a BrO mixing ratio of 7 ppt
for a uniformly mixed boundary layer.