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JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 108, NO. D14, 4428, doi:10.1029/2002JD002871, 2003

Evolution of the NOy-N2O correlation in the Antarctic stratosphere during 1993 and 1995

Giovanni Muscari

Institute for Terrestrial and Planetary Atmospheres, State University of New York, Stony Brook, New York, USA


Robert L. de Zafra

Institute for Terrestrial and Planetary Atmospheres, State University of New York, Stony Brook, New York, USA


Sergei Smyshlyaev

Russian State Hydrometeorological University, St. Petersburg, Russia


Abstract

The sources and sinks of stratospheric reactive nitrogen (NOy) in the Antarctic are known only qualitatively, because of the very few measurements of NOy available in this region. As a result, the effects of stratospheric NOy short- and long-term changes on the stratospheric concentration of ozone, water vapor, and other climate-forcing agents are still uncertain. To better understand the annual cycle of polar stratospheric NOy, we estimate its concentration in the Antarctic stratosphere during part of 1993 and throughout 1995. These estimates are obtained at seven potential temperature levels, extending from ∼18 to 30 km of altitude, and are associated with ground-based measurements of another tracer, N2O, in order to produce NOy-N2O correlation curves that can provide insights on nitrogen sources and sinks. To estimate NOy mixing ratios, we use ground-based and satellite measurements of major NOy constituents, connected by using air parcel trajectories and supplemented by model calculations of minor contributing species for which no suitable measurements exist. All the available NOy-N2O correlation points are averaged over three representative seasonal time periods in 1993 and six periods in 1995. Results show very similar correlation curves during the late summer and the fall of 1995, and again during the early spring 1993 compared with the early and late winter of 1995, although there are large seasonal changes due to transport and to condensation of NOy onto polar stratospheric clouds. We calculate a loss from the latter process of ΔN = (6.3 ± 2.6) × 107 kg of stratospheric nitrogen in the southern polar vortex during 1995. We also compare our correlation curves with those obtained in the Antarctic stratosphere during the Atmospheric Trace Molecule Spectroscopy mission ATMOS/ATLAS-3 in November 1994, finding important similarities but also critical differences that suggest that extra-vortex air is generally not an adequate representation of prewinter inner vortex conditions. Calculations of NOy winter removal in the Antarctic stratosphere which have used extra-vortex measurements as a surrogate for prewinter conditions may thus have underestimated true NOy removal. Our prewinter NOy estimates in the vortex core match values obtained by atmospheric models that incorporate upper atmospheric sources of NOy, supporting the belief that such sources have a significant effect on polar stratospheric NOy.

Received 22 August 2002; accepted 12 March 2003; published 29 July 2003.

Index Terms: 0340 Atmospheric Composition and Structure: Middle atmosphere—composition and chemistry; 0341 Atmospheric Composition and Structure: Middle atmosphere—constituent transport and chemistry (3334); 3360 Meteorology and Atmospheric Dynamics: Remote sensing.

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Citation: Muscari, G., R. L. de Zafra, and S. Smyshlyaev (2003), Evolution of the NOy-N2O correlation in the Antarctic stratosphere during 1993 and 1995, J. Geophys. Res., 108(D14), 4428, doi:10.1029/2002JD002871.