SEQUESTRATION OF HNO3 IN POLAR STRATOSPHERIC CLOUDS AND CHLORINE ACTIVATION AS MONITORED BY GROUND-BASED FOURIER-TRANSFORM INFRARED SOLAR ABSORPTION-MEASUREMENTS
A. Wegner et al., SEQUESTRATION OF HNO3 IN POLAR STRATOSPHERIC CLOUDS AND CHLORINE ACTIVATION AS MONITORED BY GROUND-BASED FOURIER-TRANSFORM INFRARED SOLAR ABSORPTION-MEASUREMENTS, J GEO RES-A, 103(D17), 1998, pp. 22181-22200
Solar absorption infrared spectra measured with the ground-based Miche
lson Interferometer for Passive Atmospheric Sounding-Laboratory Model
(MIPAS-LM) at the Esrange research station near Kiruna, North Sweden,
were analyzed for zenith column amounts of stratospheric trace gases.
Time series of HF, HCl, ClONO2, HNO3, and O-3 measured in the winter o
f 1991-1992, the summer of 1992, and the winter of 1992-1993 were stud
ied for anomalies indicating a perturbed stratospheric chemistry in th
e Arctic winter. Indications of chlorine activation were found in both
winters, inside the stratospheric polar vortex as well as at the vort
ex edge, as was indicated by the ratio of stratospheric HCl to the HF
zenith column amount. This ratio decreased from values higher than 3 f
or chemically undisturbed stratospheric conditions to 1.1 - 1.3 in Jan
uary 1992 and 0.8 in February 1993, inside the polar vortex when maxim
um chlorine activation took place. Sequestration of. HNO3 in polar str
atospheric clouds (PSCs) was found on several days of observation insi
de the polar vortex; it leads to a decrease of the HNO3 zenith column
amounts by up to 50% on February 10, 1993. From comparison to model ca
lculations we conclude that the HNO3 loss;can only be explained by for
mation of nitric acid trihydrate (NAT) PSCs on January 18, 1992, and F
ebruary 10, 1993, whereas on January 19, 1992, January 28, 1993, and F
ebruary 11, 1993, the formation of ternary solutions can also explain
the HNO3 loss.