Press Release - Robot submarine searches for signs of melting under Antarctic Ice Shelf
Issue date: 17 Mar 2009
A team of British and American scientists has successfully deployed an autonomous robot submarine on six missions beneath an Antarctic glacier using sonar scanners to map the seabed and the underside of the ice where it juts into the sea.
The research is part of an international collaboration to study the dynamic Pine Island Glacier and to understand how changes in ocean temperatures or currents could affect the melting of the West Antarctic Ice Sheet.
The team hopes to learn why the glacier has been thinning and accelerating over recent decades. Pine Island Glacier is in the Amundsen Sea, part of the South Ocean bordering West Antarctica. Changes in its flow have been observed since the early 1970s, and together with neighbouring glaciers it is currently contributing about 0.25 mm (an inch per decade) annually to global sea level rise.
Lead UK scientist, Dr Adrian Jenkins from British Antarctic Survey, says:
“There is still much work to be done on the processing of the data but the picture we should get of the ocean beneath the glacier will be unprecedented in its extent and detail. It should help us answer critical questions about the role played by the ocean in driving the ongoing thinning of the glacier.”
Autosub was developed and built by National Oceanography Centre, Southampton. Lead engineer Steve McPhail says:
“We are delighted that Autosub successfully completed six missions covering a total of over 500kms beneath the glacier. Being a completely autonomous robot there are no connecting wires with the ship and no pilot. It has to avoid collisions with the jagged ice overhead and the unknown seabed below, and return to a pre-defined rendezvous point, where it can be craned back onboard the ship. It was an ambitious high-risk science mission.”
The team deployed the robot explorer, Autosub3, from the US Research Vessel Nathaniel B. Palmer, to investigate the underside of the ice and measure changes in salinity and temperature of the surrounding water.
The US lead scientist on the project, Stan Jacobs from Lamont-Doherty Earth Observatory at Columbia University, is studying Pine Island Glacier with International Polar Year (IPY) funding from the National Science Foundation. He says:
“One of the IPY research goals is to understand better the dynamics of the world’s massive ice sheets, including the West Antarctic Ice Sheet. If this were to melt completely global sea levels would rise by as much as 5 metres. Because so little is known about ice sheet behaviour this research will take us a step further in understanding how ice sheets will contribute to sea level rise.”
Complementing the Autosub project, other work during the 53-day NB Palmer cruise included setting out 15 moored instrument arrays to record the variability in ocean properties and circulation over the next two years, extensive profiling of ‘warm’ and melt-laden seawater, sampling the perennial sea ice and swath-mapping deep, glacially-scoured troughs on the sea floor.
Issued by National Oceanography Centre, Southampton Press Office.
Press enquiries to Kim Marshall Brown tel ++44 (0) 238059 email: firstname.lastname@example.org
British Antarctic Survey Press Office: contact Athena Dinar tel ++44 (0) 1223 221414; mobile: 07740 822229, email: email@example.com
National Science Foundation — Office of Polar Programs Peter West tel. 001 703 292 7761; mobile: 001 301 385 7140, email: firstname.lastname@example.org
Dr Adrian Jenkins, British Antarctic Survey tel. ++44 (0) 1223 221493; email: email@example.com
Steve McPhail, National Oceanography Centre, Southampton tel. ++44 (0) 23 8059 6370 email: firstname.lastname@example.org
Stan Jacobs, Lamont-Doherty Earth Observatory at Columbia University tel. 001 845 365 8326; email: sjacobs@Ideo.columbia.edu
Notes to Editors:
Images of Autosub are available from the NOCS press office as above. Still images and moving pictures are available from the BAS Press Office.
The most recent report of the Intergovernmental Panel on Climate Change (IPCC) noted that because so little is understood about ice-sheet behaviour it is difficult to predict how ice sheets will contribute to sea level rise in a warming world. The behaviour of ice sheets the IPCC report said is one of the major uncertainties in predicting exactly how the warming of the global will affect human populations.
After a test mission in unusually ice-free seas in front of the face of the glacier, the researchers started with three 60-kilometer (37-mile) round-trip forays under the floating glacier and extended the length of missions to 110km (68-mile) round trip. In all, more than 500km (310miles) of the ocean beneath the ice was studied.
Using its sonar, the Autosub3 picks its way through the water, while creating a three-dimensional map that the scientists will use to determine where and how the warmth of the ocean waters drives melting of the glacier base.
Autosub is an AUV — Automated Underwater Vehicle, designed, developed and built at the National Oceanography Centre, Southampton with funding from the Natural Environment Research Council. Autosub3 has a maximum range of 400km and is powered by 5,000 ordinary D-cell batteries. The batteries are packed in bundles in pressure-tested housings. Either end of the seven-metre sub there are free-flooding areas where the payload of instruments are installed. It carries a multibeam sonar system that builds up a 3D map of the ice above and the seabed below. It also carries precision instruments for measuring the salinity, temperature, and oxygen concentrations in the sea water within the ice cavity, which are vital to understanding the flow of water within the ice cavity and the rate of melting. Autosub is 7m long and weighs 3.5 tonnes. Travelling at 6km hour it is capable of diving up to 1600m deep, and can operate for 72 hours (400 km) between battery changes.
The World Meteorological Organization (WMO) and the International Council for Science (ICSU), which planned and sponsored IPY, has set aside the last two weeks of March 2009 to recognize projects that focus on the polar oceans.
The National Oceanography Centre, Southampton is the UK’s focus for ocean science. It is one of the world’s leading institutions devoted to research, teaching and technology development in ocean and earth science. Over 500 research scientists, lecturing, support and seagoing staff are based at the centre’s purpose-built waterside campus in Southampton along with over 700 undergraduate and postgraduate students. The centre is a collaboration between the University of Southampton and the Natural Environment Research Council. The NERC royal research ships RRS James Cook and RRS Discovery are based at NOCS as is the National Marine Equipment Pool, which includes Autosub and Isis, two of the world’s deepest diving research vehicles.
The Cambridge-based British Antarctic Survey (BAS) is a world leader in research into global environmental issues. With an annual budget of around £45 million, five Antarctic Research Stations, two Royal Research Ships and five aircraft, BAS undertakes an interdisciplinary research programme and plays an active and influential role in Antarctic affairs. BAS has joint research projects with over 40 UK universities and has more than 120 national and international collaborations. It is a component of the Natural Environment Research Council.
The RVIB Nathaniel B. Palmer is operated by Raytheon Polar Services Company, under contract to the United States National Science Foundation’s Office of Polar Programmes. The Palmer, completed in 1992, is 308 feet long and is ice-classed ABS-A2.
Lamont-Doherty Earth Observatory, a member of The Earth Institute at Columbia University, is one of the world’s leading research centres seeking fundamental knowledge about the origin, evolution and future of the natural world. More than 300 research scientists study the planet from its deepest interior to the outer reaches of its atmosphere, on every continent and in every ocean. From global climate change to earthquakes, volcanoes, non-renewable resources, environmental hazards and beyond, Observatory scientists provide a rational basis for the difficult choices facing humankind in the planet’s stewardship.