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Titel |
Summer to winter diurnal variabilities of temperature and water vapour in the surface atmosphere as observed by HAMSTRAD over Dome C, Antarctica |
VerfasserIn |
Philippe Ricaud, Christophe Genthon, Jean-Luc Attié, Andrea Pellegrini, Thomas Rose, Yann Courcoux, Jean-François Vanacker, Lorenzio Moggio |
Konferenz |
EGU General Assembly 2011
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Medientyp |
Artikel
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Sprache |
Englisch
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Digitales Dokument |
PDF |
Erschienen |
In: GRA - Volume 13 (2011) |
Datensatznummer |
250051809
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Zusammenfassung |
The HAMSTRAD (H2O Antarctica Microwave Stratospheric and Tropospheric Radiometers)
microwave radiometer operating at 60 GHz (oxygen line, thus temperature) and 183 GHz
(water vapour line) has been definitively deployed at the Dome C station, Concordia,
Antarctica (DC, 75Ë 06’S, 123Ë 21’E, 3233 m asml) in January 2010 to study long-term
trends in tropospheric absolute humidity and temperature. The great sensitivity of the
instrument in the lowermost troposphere helped to characterizing the diurnal cycle of
temperature and H2O from the austral summer (January 2010) to the winter (June 2010)
seasons in the Planetary Boundary Layer (PBL) from the surface to 200 m. A strong diurnal
cycle in temperature and H2O (although noisier) has been measured in the summertime
close to the surface, decreasing in intensity with height, and phase-shifted by ~4
hours above 50 m with a strong correlation H2O-temperature in the entire PBL (>
0.6). In the fall season, whilst the diurnal cycle in temperature and H2O is less
intense, a 12-hour phase-shift is observed above 30 m. In wintertime, the intensity
of the diurnal cycle is very weak (but not null) and propagates from the surface
to 200 m. In situ sondes scanning the entire 24 hours Local Solar Time (LST),
radiosondes (RS) launched at 20:00 LST and European Centre for Medium-Range
Weather Forecasts (ECMWF) analyses at 02:00, 08:00, 14:00 and 20:00 LST agree
very well with the HAMSTRAD diurnal cycles for temperature and relatively well
considering absolute humidity. For temperature, ECMWF tends to show a smoother
vertical gradient and a much colder atmosphere from 0 to 100 m compare to RS and
HAMSTRAD, particularly obvious when moving from the summer to the winter season.
For H2O, HAMSTRAD measures a much wetter atmosphere and a diurnal cycle
close to the surface much weaker than the RS, the in situ sondes and the ECMWF. |
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