F. Cayla scite author profile

We report observations of ozone column and clouds at typically stratospheric altitudes, obtained during the 1987 Airbone Antarctic Experiment from the TIROS Operational Vertical Sounder (TOVS)/High‐Resolution Infrared Sounder (HIRS 2) instrument on the National Oceanic and Atmospheric Administration NOAA 10 satellite. Cloud formation occurs mainly along the coast of Antarctica when strong tropospheric winds blow from the ocean to the continent. The period of September 2–9 provides a good example of the formation of localized high‐altitude clouds over the Palmer Peninsula and the Weddell Sea. The appearance of these clouds (a subset of the more prevalent polar stratospheric clouds (PSCs)) is consistent with the presence of a strong tropospheric jet over the elevated topography of the peninsula. Mountain waves and their associated high‐altitude adiabatic cooling are the driving mechanism for the cloud formation. On the basis of the cloud area coverage and wind analyses, we estimate that in the altitude range 14–18 km the air within the polar vortex has spent 5% of its time inside these clouds from early August to late September. The importance of this observation for springtime ozone depletion mechanisms is discussed. It is also concluded that the TOVS data set recorded during the past decade would be suitable to search for a possible trend in the cloud amount. Such a trend could be relevant to the rate of the Antarctic ozone depletion.

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In-flight performance of the infrared atmospheric sounding interferometer (IASI) on METOP-A

Blumstein¹,

Tournier

Cayla³

et al. 2007

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L'interféromètre IASI - Un nouveau sondeur satellitaire haute résolution.

Cayla

2001

Météorologie

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La communauté météorologique européenne a décidé de prendre à sa charge l'un des deux satellites météorologiques défilants jusqu'alors mis en oeuvre par les seuls États-Unis (Gillet, 1995). Cette tâche a été confiée à l'organisation européenne Eumetsat (Pastre, 1996) et fait l'objet du programme EPS (Eumetsat Polar System), qui se compose d'une série de trois satellites Metop et d'un secteur-sol. Les satellites Metop emporteront la charge utile des satellites défilants américains NOAA, complétée (figure 1 et encadré ci-après) par le sondeur infrarouge à haute résolution Iasi, le diffusiomètre Ascat, le radiomètre Gome destiné à mesurer le contenu intégré en ozone, enfin le sondeur Gras reposant sur l'analyse des signaux radio émis par un satellite de navigation planétaire (GNSS en anglais) et ayant traversé tangentiellement l'atmosphère.

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Total ozone measurements derived from T.O.V.S. radiances

Müller

Cayla

1983

Planetary and Space Science

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IASI Infrared Interferometer for Operations and Research

Cayla

1993

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F. Cayla

Mountain waves, polar stratospheric clouds, and the ozone depletion over Antarctica

In-flight performance of the infrared atmospheric sounding interferometer (IASI) on METOP-A

L'interféromètre IASI - Un nouveau sondeur satellitaire haute résolution.

Total ozone measurements derived from T.O.V.S. radiances

IASI Infrared Interferometer for Operations and Research

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