Rapid ice shelf disintegration in Antarctic

Das ASAR Bild zeigt das auseinanderbrechende Schelfeis in der Region zwischen La
Das ASAR Bild zeigt das auseinanderbrechende Schelfeis in der Region zwischen Larsen-A und Larsen-B.

For ten years ESA’s Envisat satellite observed the rapid retreat of one of Antarctica’s ice shelves due to climate warming. Helmut Rott, Professor at the Institute of Meteorology and Geophysics, follows this development since the start of the mission.

One of the satellite’s first observations following its launch on 1 March 2002 was the break-up of a main section of the Larsen B ice shelf in Antarctica - when 3200 sq km of ice disintegrated within a few days due to mechanical instabilities of the ice masses triggered by climate warming. Now, with ten years of observations using its Advanced Synthetic Aperture Radar (ASAR), Envisat has mapped an additional loss in Larsen B’s area of 1790 sq km over the past decade.
The Larsen Ice Shelf is a series of three shelves - A (the smallest), B and C (the largest) - that extend from north to south along the eastern side of the Antarctic Peninsula. Larsen A disintegrated in January 1995. Larsen C so far has been stable in area, but satellite observations have shown thinning and an increasing duration of melt events in summer.
"Ice shelves are sensitive to atmospheric warming and to changes in ocean currents and temperatures," said Prof. Helmut Rott from the University of Innsbruck. "The northern Antarctic Peninsula has been subject to atmospheric warming by about 2.5C over the last 50 years - a much stronger warming trend than on global average, causing retreat and disintegration of ice shelves." Larsen B decreased in area from 11512 sq km in early January 1995 to 6664 sq km in February 2002 due to several calving events. The disintegration in March 2002 left behind only 3463 sq km. Today, Envisat shows that only 1670 sq km remain.

Important observations

On 8 April with the satellite was unexpectedly lost, preventing the reception of any data. Envisat has already doubled its planned lifetime, but was scheduled to continue observations of Earth’s ice caps, land, oceans and atmosphere for at least another two years. This should ensure the continuity of crucial Earth-observation data until the next generation of satellites - the Sentinels - begin operations in 2013. "Long-term systematic observations are of particular importance for understanding and modelling cryospheric processes in order to advance the predictive capabilities on the response of snow and ice to climate change," said Prof. Rott.
"Climate models are predicting drastic warming for high latitudes. The Envisat observations of the Larsen Ice Shelf confirm the vulnerability of ice shelves to climatic warming and demonstrate the importance of ice shelves for the stability of glaciers upstream.
"These observations are very relevant for estimating the future behaviour of the much larger ice masses of West Antarctica if warming spreads further south," explained Helmut Rott. Radars on Earth observation satellites, such as Envisat’s ASAR, are particularly useful for monitoring polar regions because they can acquire images through clouds and darkness. Efforts to regain with Envisat have been under way since 8 April, when it unexpectedly stopped sending data to Earth. The Sentinel missions - being developed as part of Europe’s Global Monitoring for Environment and Security (GMES) programme - will continue the legacy of radar observations.