Princess Elisabeth station, Antarctica, 72°S, 23°E
Belgium has a long history of Antarctic exploration and scientific activities, dating back to the first expeditions to Antarctica under the lead of Adrien de Gerlache in 1897. At the occasion of the International Polar Year 2007, the Belgian government decided to build a new scientific summer station in Antarctica. The new Antarctic base Princess Elisabeth was built during the Antarctic summers 2007/2008 and 2008/2009 and the first scientific activities started in January 2009. The station is situated north of the Sor Rondane Mountains in Dronning Maud Land, East Antarctica, on the small, granite Utsteinen ridge (71°57’ S, 23°20’ E, 1390 above sea level).
The Princess Elisabeth station in Antarctica
BIRA-IASB operates a CIMEL sunphotometer at the Princess Elisabeth station since February 2009. A MAXDOAS instrument will be installed in December 2015.
The AEROCLOUD project
It is of critical importance to better understand key atmospheric processes in the climate system, in order to improve climate models for reliable projections on the decadal scale. The role of clouds in the climate system, their interaction with radiation, the coupling between aerosols and clouds and the atmospheric branch of the hydrological cycle are recognized as key elements in the climate system. Although these research topics are high on the international research agenda, hardly anything is known about the interaction between clouds, precipitation and aerosols in the Antarctic. This is unfortunate, as the Antarctic and Greenland ice sheet are expected to become the dominant contributor to sea level rise in the 21st century. Since precipitation is the only source of mass to the ice sheets, and precipitation and clouds are closely connected, an improved insight in these processes is essential. Only models that can represent clouds and precipitation correctly, can be trusted to give reliable future climate projections.
It is essential that the measured boundary-layer aerosol can be linked to higher atmospheric levels. To this aim, BIRA-IASB participates in the AEROCLOUD project (funded by BELSPO, started in January 2015 for a period of four years) with the installation of a MAX-DOAS instrument at the station at the end of 2015, for operation during at least two successive seasons. MAX-DOAS is a recently developed remote sensing technique for the automated monitoring of tropospheric gases and aerosols. By scanning the scattered sun light in successive elevations close to the horizon and analysing the atmospheric absorption signal using the DOAS method, the aerosol extinction and the concentration of atmospheric gases can be derived in a few successive layers above the surface up to approximately 2-3 km altitude. The BIRA-IASB MAX-DOAS and the sunphotometer are highly complementary, since their synergistic use provides information on integrated and vertically resolved aerosol properties.
AEROCLOUD’s main objective is to improve the understanding and modelling of clouds, precipitation and their interaction with aerosols in Dronning Maud Land (East Antarctica). The project aims at improving insight in the so called « indirect aerosol effect », which refers to the role of aerosols to act as cloud condensation nuclei and ice nuclei, thereby affecting the characteristics of clouds.
The objectives of AEROCLOUD can only be reached by a multidisciplinary research team, where expertise on observational studies of meteorological conditions (Royal Meteorological Institute of Belgium; RMI) is combined with expertise in regional climate modelling (Katholieke Universiteit Leuven, Belgium; KUL). Expert knowledge on radiative transfer processes in clouds (Institute for Geophysics and Meteorology Cologne, Germany; IGMK) and aerosols (Royal Belgian Institute for Space Aeronomy; BIRA-IASB) are necessary for developing algorithms to retrieve meteorological and atmospheric composition data from the suite of ground-based remote sensing instrumentation that will be exploited.
Instruments and operation
Two instruments are operated by BIRA-IASB at the Princess Elisabeth station :
AEROCLOUD is coordinated by the Catholic University of Leuven (Department of Earth and Environmental Sciences, Prof. Dr. Nicole Van Lipzig), in collaboration with partners Royal Meteorological Institute of Belgium and the Royal Belgian Institute for Space Aeronomy. AEROCLOUD is financed by the Belgian Science Policy Office (Belspo). AEROCLOUD started on 1 January 2015 for a duration of 4 years.
Project PI at BIRA-IASB : Dr. Michel Van Roozendael (michel.vanroozendael AT aeronomie.be)
Project scientific team at BIRA-IASB :
Royal Belgian Institute for Space Aeronomy (BIRA-IASB)
Note that for the Royal Meteorological Institute of Belgium, you have to contact Dr. Hugo De Baker or Dr Alexander Mangold (+32 2 373.05.93, email: alexander.mangold at meteo.be)
Further information on the AEROCLOUD project can be found on the Royal Meteorological Institute of Belgium :http://ozone.meteo.be/meteo/view/en/1550481-AEROCLOUD.html