Your search keyword '"Posny, F."' showing total 4 results

1. Tropospheric Ozone Increases over the Southern Africa Region: Bellwether for Rapid Growth in Southern Hemisphere Pollution?

Author

Thompson, Anne M, Balashov, Nikolay V, Witte, J. C, Coetzee, J. G. R, Thouret, V, and Posny, F

Subjects

Meteorology And Climatology, Environment Pollution

Abstract

Increases in free-tropospheric (FT) ozone based on ozonesonde records from the early 1990s through 2008 over two subtropical stations, Irene (near Pretoria, South Africa) and Réunion (21 deg. S, 55 deg. E; approx. 2800 km NE of Irene in the Indian Ocean), have been reported. Over Irene a large increase in the urban-influenced boundary layer (BL, 1.5-4 km) was also observed during the 18-year period, equivalent to 30%decade−1. Here we show that the Irene BL trend is at least partly due to a gradual change in the sonde launch times from early morning to the midday period. The FT ozone profiles over Irene in 1990-2007 are re-examined, filling in a 1995-1999 gap with ozone profiles taken during the Measurements of Ozone by Airbus In-service Aircraft (MOZAIC) project over nearby Johannesburg. A multivariate regression model that accounts for the annual ozone cycle, El Niño-Southern Oscillation (ENSO) and possible tropopause changes was applied to monthly averaged Irene data from 4 to 11 km and to 1992-2011 Réunion sonde data from 4 to 15 km. Statistically significant trends appear predominantly in the middle and upper troposphere (UT; 4-11 km over Irene, 4-15 km over Réunion) in winter (June-August), with increases 1 ppbv yr(exp. −1) over Irene and approx. 2 ppbv yr(exp. −1) over Réunion. These changes are equivalent to approx. 25 and 35-45%decade( exp. −1), respectively. Both stations also display smaller positive trends in summer, with a 45%decade(exp. −1) ozone increase near the tropopause over Réunion in December. To explain the ozone increases, we investigated a time series of dynamical markers, e.g., potential vorticity (PV) at 330-350 K. PV affects UT ozone over Irene in November-December but displays little relationship with ozone over Réunion. A more likely reason for wintertime FT ozone increases over Irene and Réunion appears to be long-range transport of growing pollution in the Southern Hemisphere. The ozone increases are consistent with trajectory origins of air parcels sampled by the sondes and with recent NOx emissions trends estimated for Africa, South America and Madagascar. For Réunion trajectories also point to sources from the eastern Indian Ocean and Asia.

Published

2014

2. Validation of Aura Microwave Limb Sounder Ozone by ozonesonde and lidar measurements

Author

Jiang, Y. B, Froidevaux, L, Lambert, A, Livesey, N. J, Read, W. G, Waters, J. W, Bojkov, B, Leblanc, T, McDermid, I. S, Godin-Beekmann, S, Filipiak, M. J, Harwood, R. S, Fuller, R. A, Daffer, W. H, Drouin, B. J, Cofield, R. E, Cuddy, D. T, Jarnot, R. F, Knosp, B. W, Perun, V. S, Schwartz, W. V, Snyder, P. C, Stek, R. P, Thurstans, P. A, Wagner, M. J, Allaart, M, Andersen, S. B, Bodeker, G, Calpini, B, Claude, H, Coetzee, G, Davies, J, De Backer, H, Dier, H, Fujiwara, M, Johnson, B, Kelder, H, Leme, N. P, Konig-Langlo, G, Kyro, E, Laneve, G, Fook, L. S, Merrill, J, Morris, G, Newchurch, M, Oltmans, S, Parrondos, M. C, Posny, F, Schmidlin, F, Skrivankova, P, Stubi, R, Tarasick, D, Thompson, A, Thouret, V, Viatte, P, Vomel, H, von Der Gathen, P, Yela, M, and Zablocki, G

Published

2007

3. SHADOZ in the Aura Era

Author

Witte, J. C, Thompson, A. M, Oltmans, S. J, Schoeberl, M. R, Bhartia, P. K, Froidevaux, L, Schmidlin, F, Calpini, B, Shiotani, M, Fujiwara, M, Posny, F, Vomel, H, Chow, K. K, Coetzee, G. R, and Kelder, H

Subjects

Meteorology And Climatology

Abstract

We present comparisons of observed tropical and sub-tropical ozone from the Southern Hemisphere Additional Ozonesondes (SHADOZ) project with satellite measurements using Aura's Ozone Monitoring Instrument (OMI) and Microwave Limb Sounder (MLS) instruments. Satellite products of total and derived tropospheric column ozone from OMI and profiles of ozone in the UT/LS region from MLS are used.

Published

2007

4. Variability in Ozone in the Tropical Upper Troposphere-Lower Stratosphere from the 1998-2000 SHADOZ (Southern Hemisphere Additional Ozonesondes) Data

Author

Thompson, A. M, Witte, J. C, McPeters, R. D, Schmidlin, F. J, Oltmans, S. J, Kirchhoff, V. W. J. H, Coetzee, G. J. R, Posny, F, Kawakami, S, Ogawa, T, and Bhartia, P. K

Subjects

Environment Pollution

Abstract

The first view of lower stratospheric and upper tropospheric structure from sondes is provided by a 3-year, 10-site record from the Southern Hemisphere ADditional OZonesondes (SHADOZ) network: . Observations covering 1998-2000 were made over Ascension Island; Nairobi, Kenya; Irene, South Africa; Reunion Island; Watukosek, Java; Fiji; Tahiti; American Samoa; San Cristobal, Galapagos; Natal, Brazil. Taking the UT/LS (upper troposphere- lower stratosphere) as the region between 12 and 17 km, we examine ozone variability in this region on a week-to-week and seasonal basis. The tropopause is lower in September-October-November than in March-April-May, when ozone is a minimum at most SHADOZ stations. A zonal wave-one pattern (referring to ozone mixing ratios greater over the Atlantic and adjacent continents than over the Pacific and eastern Indian Ocean), persists all year. The wave, predominantly in the troposphere and with variable magnitude, appears to be due to general circulation - with subsidence over the Atlantic and frequent deep convection over the Pacific and Indian Ocean. The variability of deep convection most prominent at Java, Fiji, Samoa and Natal - is explored in time-vs-altitude ozone curtains. Stratospheric incursions into the troposphere are most prominent in soundings at Irene and Reunion Island.

Published

2002