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Comparison of measured and modeled surface ozone concentrations at two different sites in Europe during the Solar Eclipse on August 11, 1999
Zanis, P.a , Zerefos, C.S.a , Gilge, S.b , Melas, D.a , Balis, D.a , Ziomas, I.a , Gerasopoulos, E.c , Tzoumaka, P.a , Kaminski, U.b , Fricke, W.b
[περίληψη]
The effects of the solar eclipse on 11 August 1999 on surface ozone at two sites, Thessaliniki, Greece (urban site) and Hohenpeissenberg, Germany (elevated rural site) are investigated in this study and compared with model results. The eclipse offered a unique opportunity to test our understanding of tropospheric ozone chemistry and to investigate with a simple photochemical box model the response of surface ozone to changes of solar radiation during a photolytical perturbation such as the solar eclipse. The surface ozone measurements following the eclipse display a decrease of around 10-15 ppbv at the urban station of Eptapyrgio at Thessaloniki while at Hohenpeissenberg, the actual ozone data do not show any clear effect of eclipse on surface ozone. For Thessaloniki, the model results suggest that solely photochemistry can account for a significant amount of the observed surface ozone decrease during the eclipse but transport effects mask part of the photochemical effect of eclipse on surface ozone. For Hohenpeissenberg, the box model predicted an ozone decrease, due to the eclipse, of about 2 ppbv in relative agreement with the magnitude of the observed ozone decrease from the 2-hours moving average while at the same time it inhibits the foreseen diurnal ozone increase. However, this modeled ozone decrease during the eclipse is small compared to the diurnal ozone variability due to transport effects, and hence, transport really masks such relative small changes. The different magnitude of the surface ozone decrease between the two sites indicates mainly the role of the NOx levels. Measured and modeled NO and NO2 concentrations at Hohenpeissenberg during the eclipse are also compared and indicate that the partitioning of NO and NO2 in NOx is influenced clearly from the eclipse. This is not observed at Thessaloniki due to local NOx sources.
[keywords]
Box modeling; NOx; Photochemistry; Solar eclipse; Surface ozone; Troposphere
Atmospheric Environment, 35 (27), pp. 4663-4673, 2001
 http://www.scopus.com/scopus/inward/record.url?eid=2-s2.0-0034740620&partnerID=40
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