Records |
Author |
Dana V., Genthon C., del Guasta M., Ricaud P., Grigion P., Bazile E., Gallée H. |
Title |
Characterizing the atmospheric boundary layer at Dome C |
Type |
Conference - International - Communication |
Year |
2019 |
Publication |
27th IUGG General Assembly, 8-18 July 2019, Montréal, Canada |
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Bachelor's thesis |
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yes |
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7842 |
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Author |
Ricaud, P., del Guasta M., Bazile E., Azouz N., Lupi A., Durand, P., Attié a J.-L., Veron D. |
Title |
Liquid-Water Clouds Observed and Analysed at the Top of the Planetary Boundary Layer above Dome C |
Type |
Communication |
Year |
2019 |
Publication |
27th IUGG General Assembly, 8-18 July 2019, Montréal, Canada |
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yes |
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7843 |
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Ricaud, P., Bazile, E., del Guasta, M., Lanconelli, C., Grigioni, P. |
Title |
Genesis of diamond dust, ice fog and thick cloud episodes observed and modelled above Dome C |
Type |
Conference - National - Communication |
Year |
2018 |
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GABLS4 Workshop, 12-14 September 2018, Toulouse, France |
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7844 |
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Author |
Ricaud, P., Bazile, E., del Guasta, M., Lanconelli, C., Grigioni, P. |
Title |
Genesis of diamond dust, ice fog and thick cloud episodes observed and modelled above Dome C |
Type |
Communication |
Year |
2018 |
Publication |
Geophysical Research Abstracts, EGU General Assembly, 8-13 April 2018, Vienna, Austria |
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20 |
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7845 |
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Philippe Ricaud, Massimo Del Guasta, Angelo Lupi, Romain Roehrig, Eric Bazile, Pierre Durand, Jean-Luc Attié, Alessia Nicosia, Paolo Grigioni |
Title |
Supercooled liquid water clouds observed over Dome C, Antarctica: temperature sensitivity and surface radiation impact |
Type |
Journal |
Year |
2022 |
Publication |
Atmospheric Chemistry and Physics Discussions |
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Pages |
1-38 |
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Abstract |
Clouds affect the Earth climate with an impact that depends on the cloud nature (solid/ liquid water). Although the Antarctic climate is changing rapidly, cloud observations are sparse over Antarctica due to few ground stations and satellite observations. The Concordia station is located on the East Antarctic Plateau (75° S, 123° E, 3233 m above mean sea level), one of the driest and coldest places on Earth. We used observations of clouds, temperature, liquid water and surface radiation performed at Concordia during 4 austral summers (December 2018–2021) to analyze the link between liquid water and temperature and its impact on surface radiation in the presence of supercooled liquid water (liquid water for temperature less than 0 °C) clouds (SLWCs). Our analysis shows that, within SLWCs, temperature logarithmically increases from -36.0 °C to -16.0 °C when liquid water path increases from 1.0 to 14.0 g m-2, and SLWCs positively impact the net surface radiation, which logarithmically increases by 0.0 to 50.0 W m-2 when liquid water path increases from 1.7 to 3.0 g m-2. We finally estimate that SLWCs have a great potential radiative impact over Antarctica whatever the season considered, up to 5.0 W m-2 over the Eastern Antarctic Plateau and up to 30 W m-2 over the Antarctic Peninsula in summer. |
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yes |
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8652 |
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Author |
Philippe Ricaud, Massimo Del Guasta, Angelo Lupi, Romain Roehrig, Eric Bazile, Pierre Durand, Jean-Luc Attié, Alessia Nicosia, Paolo Grigioni |
Title |
Supercooled liquid water clouds observed over Dome C, Antarctica: temperature sensitivity and cloud radiative forcing |
Type |
Journal |
Year |
2024 |
Publication |
Atmospheric Chemistry and Physics |
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Volume |
24 |
Issue |
1 |
Pages |
613-630 |
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Abstract |
Clouds affect the Earth climate with an impact that depends on the cloud nature (solid and/or liquid water). Although the Antarctic climate is changing rapidly, cloud observations are sparse over Antarctica due to few ground stations and satellite observations. The Concordia station is located on the eastern Antarctic Plateau (75∘ S, 123∘ E; 3233 m above mean sea level), one of the driest and coldest places on Earth. We used observations of clouds, temperature, liquid water, and surface irradiance performed at Concordia during four austral summers (December 2018–2021) to analyse the link between liquid water and temperature and its impact on surface irradiance in the presence of supercooled liquid water (liquid water for temperature less than 0 ∘C) clouds (SLWCs). Our analysis shows that, within SLWCs, temperature logarithmically increases from −36.0 to −16.0 ∘C when liquid water path increases from 1.0 to 14.0 g m−2. The SLWC radiative forcing is positive and logarithmically increases from 0.0 to 70.0 W m−2 when liquid water path increases from 1.2 to 3.5 g m−2. This is mainly due to the downward longwave component that logarithmically increases from 0 to 90 W m−2 when liquid water path increases from 1.0 to 3.5 g m−2. The attenuation of shortwave incoming irradiance (that can reach more than 100 W m−2) is almost compensated for by the upward shortwave irradiance because of high values of surface albedo. Based on our study, we can extrapolate that, over the Antarctic continent, SLWCs have a maximum radiative forcing that is rather weak over the eastern Antarctic Plateau (0 to 7 W m−2) but 3 to 5 times larger over West Antarctica (0 to 40 W m−2), maximizing in summer and over the Antarctic Peninsula. |
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1680-7316 |
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yes |
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Serial |
8780 |
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Author |
Philippe Ricaud, Patrice Medina, Pierre Durand, Jean-Luc Attié, Eric Bazile, Paolo Grigioni, Massimo Del Guasta, Benji Pauly |
Title |
In Situ VTOL Drone-Borne Observations of Temperature and Relative Humidity over Dome C, Antarctica |
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Journal |
Year |
2023 |
Publication |
Drones |
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Volume |
7 |
Issue |
8 |
Pages |
532 |
Keywords |
Antarctica Concordia station drone free troposphere planetary boundary layer relative humidity temperature VTOL |
Abstract |
The Antarctic atmosphere is rapidly changing, but there are few observations available in the interior of the continent to quantify this change due to few ground stations and satellite measurements. The Concordia station is located on the East Antarctic Plateau (75° S, 123° E, 3233 m above mean sea level), one of the driest and coldest places on Earth. Several remote sensing instruments are available at the station to probe the atmosphere, together with operational meteorological sensors. In order to observe in situ clouds, temperature, relative humidity and supercooled liquid water (SLW) at a high vertical resolution, a new project based on the use of an unmanned aerial vehicle (drone) vertical take-off and landing from the DeltaQuad Company has been set up at Concordia. A standard Vaisala pressure, temperature and relative humidity sensor was installed aboard the drone coupled to an Anasphere SLW sensor. A total of thirteen flights were conducted from 24 December 2022 to 17 January 2023: nine technology flights and four science flights (on 2, 10, 11 and 13 January 2023). Drone-based temperature and relative humidity profiles were compared to (1) the balloon-borne meteorological observations at 12:00 UTC, (2) the ground-based microwave radiometer HAMSTRAD and (3) the outputs from the numerical weather prediction models ARPEGE and AROME. No SLW clouds were present during the period of observations. Despite technical issues with drone operation due to the harsh environments encountered (altitude, temperature and geomagnetic field), the drone-based observations were consistent with the balloon-borne observations of temperature and relative humidity. The radiometer showed a systematic negative bias in temperature of 2 °C, and the two models were, in the lowermost troposphere, systematically warmer (by 2–4 °C) and moister (by 10–30%) than the drone-based observations. Our study shows the great potential of a drone to probe the Antarctic atmosphere in situ at very high vertical resolution (a few meters). |
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2504-446X |
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yes |
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8781 |
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Author |
Hoffmann G., Masson V. & Jouzel J. |
Title |
Stable water isotopes in atmospheric general circulation models. |
Type |
Journal Article |
Year |
2000 |
Publication |
Hydrological processes |
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14 |
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1384-1406 |
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0885-6087 |
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yes |
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2318 |
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Jouzel J., Hoffmann G., Koster R.D. & Masson V. |
Title |
Water isotopes in precipitation:data/model comparison for present-day and past climates. |
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Journal Article |
Year |
1999 |
Publication |
Quaternary science reviews |
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Quat Sci Rev |
Volume |
19 |
Issue |
1-5 |
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363-379 |
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909 |
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0277-3791 |
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2319 |
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Masson V., Vimeux F., Jouzel J. et al. |
Title |
Holocene climate variability in Antarctica based on 11 ice-core isotopic records. |
Type |
Journal Article |
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2000 |
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Quaternary research |
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54 |
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3 |
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348-358 |
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0033-5894 |
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2320 |
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