Concordia Station


Concordia Research Station, which opened in 2005, is a French–Italian research facility that was built above sea level at a location called Dome C on the Antarctic Plateau, Antarctica. It is located inland from the French research station at Dumont D'Urville, inland from Australia's Casey Station and inland from the Italian Zucchelli Station at Terra Nova Bay. Russia's Vostok Station is away. The Geographic South Pole is away. The facility is also located within Australia's claim on Antarctica, the Australian Antarctic Territory.
Concordia Station is the third permanent, all-year research station on the Antarctic Plateau besides Vostok Station and the Amundsen–Scott South Pole Station at the Geographic South Pole. It is jointly operated by scientists from France and Italy and regularly hosts ESA scientists.

History

In 1992, France built a new station on the Antarctic Plateau. The program was later joined by Italy in 1993.
In 1995, Pr. Jean Vernin from University of Nice Sophia-Antipolis and Pr. Giorgio Dall'Oglio from University of Rome performed the first scientific experience towards a site qualification at Dome C.
In 1996, a French-Italian team established a summer camp at Dome C. The two main objectives of the camp were the provision of logistical support for the European Project for Ice Coring in Antarctica and the construction of a permanent research station.
The new all-year facility, Concordia Station, became operational in 2005. The first winterover began with a staff of 13 in February 2005.

Access

Most of the cargo is moved to Dome C by traverse from Dumont d'Urville Station, covering 1,200 km in 7 to 12 days depending on weather conditions. Station personnel and light cargo arrive by air, using Twin Otter aircraft from DDU or Mario Zucchelli Station at 1200 km.

Environment

Dome C is situated on top of the Antarctic Plateau. No animals or plants live at a distance of more than a few tens of kilometers from the Southern Ocean. However, south polar skuas have been spotted overflying the station, 1,200 km away from their nearest food sources. It is believed that these birds have learned to cross the continent instead of circumnavigating it.

Human biology and medicine

Concordia Station shares many stressor characteristics similar to that of long-duration deep-space missions, in particular extreme isolation and confinement, and therefore serves as a useful analogue platform for research relevant to space medicine. During the winter, the crew are isolated from the outside world, having no transportation and limited communication
for 9 months and live a prolonged period in complete darkness, at an altitude almost equivalent to 4000m at the equator. This creates physiological and psychological strains on the crew. Concordia station is particularly useful for the study of chronic hypobaric hypoxia, stress secondary to confinement and isolation, circadian rhythm and sleep disruption, individual and group psychology, telemedicine, and astrobiology. Concordia station has been proposed as one of the real-life Earth-based analogues for long-duration deep-space missions.

Glaciology

In the 1970s, Dome C was the site of ice core drilling by field teams of several nations.
In the 1990s, Dome C was chosen for deep ice core drilling by the European Project for Ice Coring in Antarctica. Drilling at Dome C began in 1996 and was completed on December 21, 2004, reaching a drilling depth of 3270.2 m, 5 m above bedrock. The age of the oldest recovered ice is estimated to be ca. 900,000 years.

Astronomy

Concordia Station has been identified as a suitable location for extremely accurate astronomical observations. The transparency of the Antarctic atmosphere permits the observation of stars even when the sun is at an elevation angle of 38°. Other advantages include the very low infrared sky emission, the high percentage of cloud-free time and the low aerosol and dust content of the atmosphere.
The median seeing measured with a DIMM Differential Image Motion Monitor placed on top of an 8.5 m high tower is 1.3 ± 0.8 arcseconds.
This is significantly worse than most major observatory sites, but similar to other observatories in Antarctica. However, Lawrence et al. consider other features of the site and conclude that "Dome C is the best ground-based site to develop a new astronomical observatory". Note however that this was written before whole-atmospheric seeing measurements had been made at Dome C.
Thanks to the Single Star Scidar SSS, Vernin, Chadid and Aristidi et al. and Giordano, Vernin and Chadid et al. finally demonstrated that most of the optical turbulence is concentrated within the first 30 m atmospheric level at Dome C. The rest of the atmosphere is very quiet with a seeing of about 0.3-0.4 arcseconds, and the overall seeing is somewhat around 1.0 arcseconds.
Launched in 2007, PAIX the first robotic multi-color Antarctica Photometer
gives a new insight to cope with unresolved stellar enigma and stellar oscillation challenges and offers a great
opportunity to benefit from an access to the best astronomical site on Earth –Dome C–. Indeed, Chadid, Vernin, Preston et al.
implement, for the first time from the ground, a new way to study the stellar oscillations, pulsations and their evolutionary
properties with long uninterrupted and continuous precision observations over 150 days, and
without the regular interruptions imposed by the Earth rotation. PAIX achieves astrophysical UBVRI bands time-series measurements of stellar physics fields,
challenging photometry from Space.

Climate

The climate at Dome C where Concordia Station is located is frigid all year round, being one of the coldest places on Earth. It has a polar ice cap climate, with maximums ranging from in December to in May, mean ranging from in December to in May and minimums ranging from in December to in May. The annual average air temperature is. The station has never recorded a temperature above freezing; the warmest temperature recorded was in January. Temperatures can fall below in winter, and the coldest recorded temperature was in August 2010; one of the coldest temperatures ever recorded on Earth.
Humidity is low and it is also very dry, with very little precipitation throughout the year.
Dome C does not experience the katabatic winds typical for the coastal regions of Antarctica because of its elevated location and its relative distance from the edges of the Antarctic Plateau. Typical wind speed in winter is 2.8 m/s.

Winterovers

While the station has been in use for summer campaigns since December 1997, the first winterover was only made in 2005. During this period, the station is inaccessible, requiring total autonomy.

First winter-over (DC01 – 2005)

The first winter began in mid-February 2005, with thirteen wintering :
In September 2005 the highest temperature was −48 °C, with an average in August of −60.2 °C and a record of −78.6 °C on 1 September.
At these temperatures, trips outside had to be performed with the utmost care. Those going outside travelled at least in pairs and were equipped with a radio, spare batteries and a full fleece suit, with only the eyes at times visible. Glaciologist Italian Emanuele Salvietti had to take snow samples every day one kilometre from the base. As he had to walk, he built a full face mask, with only a pipe to breathe. The slightest mistake would lead to certain injury, as astronomer Agabi Karim explained: "Burns on the cheeks and eyelashes glued to the lens of the telescope," after exposure to the freezing cold.

Second winter-over (DC02 – 2006)

The second winter was conducted from February to November 2006 with a team of ten wintering :
The record temperature for this winter was measured at −80 °C on 5 September 2006 at 2:37 ET was renewed several times.

Third winter-over (DC03 – 2007)

The third winter ran from February to November 2007 with a team of wintering composed of fourteen people :
The average temperature was −65 °C and the minimum temperature recorded was −81.9 °C reached on September 5.

Fourth winter-over (DC04 – 2008)

The fourth winter took place from 31 January 2008 to 8 November 2008 with a team consisting of thirteen winter-overs :
The fifth wintering took place from February 2009 to November 2009 with a team of twelve people :
This Wintering took place with a team of thirteen :
The seventh wintering took place with a team of 14 people :
The eighth wintering took place with a team of 13 people :
The ninth wintering took place with a team of 15 people :
The tenth wintering took place with a team of 13 people :
During the 2014 Antarctic winter Concordia was an active amateur radio station: Paride Legovini operated from there on a weekly basis with call sign IA/IZ3SUS. The HF radio equipment consists in a Rohde & Schwarz XK2100L transceiver with a 150W RF output and a delta loop antenna located a few hundreds of meters away from the station.
The analemma was imaged for the first time ever in Antarctica by Adrianos Golemis during the 10th winterover mission at Concordia Station. The resulting composite exposure image was selected as .

Eleventh winter-over (DC11 – 2015)

The eleventh wintering is taking place from February 2015 to November 2015 with a team of 13 people :
The twelfth winter began on February 10, 2016, with twelve overwintering :
The thirteenth winter began on February 9, 2017, with thirteen overwintering :
The fourteenth winter began on February 6, 2018, with thirteen overwintering :
The fifteenth winter began on February 13, 2019, with thirteen overwintering :
The sixteenth winter began on February 7, 2020, with twelve overwintering :