Survey to probe Arctic ice melt - 01-26-2011, 02:07 AM
This year's Catlin Arctic Survey will focus on the thin layer of water immediately under the floating ice.
Arctic ice is melting faster in summer than many computer models predict.
Survey data could improve forecasts of the region's future, and also show how likely it is that the flow of warm water in the North Atlantic, known as the Gulf Stream, will switch off.
This would bring colder weather to the UK and other parts of western Europe.
Continue reading the main story “Start Quote
If these changes... contribute to a lowering of the salt content of the North Atlantic, it could have a major impact on the entire planet ”End Quote Richard Zimmerman Old Dominion University
"The Arctic is one of best barometers of climate change, where we see big changes taking place today," said Simon Boxall from the National Oceanography Centre (NOC) at the UK's University of Southampton.
"This is not just about polar bears - it's about our lives in the UK and in North America."
In early March, four explorers will set off on foot from the geographic North Pole, trekking across the ice and ending up 10 weeks later in Greenland.
They will make regular stops to drill holes through the floating ice and lower a package of instruments into the water on the end of a piece of rope - instruments that measure the water's temperature, salinity and flow.
This data will allow scientists to calculate the rate at which the water is sinking.
Salty seas "We're measuring the critical 200m layer of water between the ice and the deep ocean beneath," said Dr Boxall, who conceived the project.
"The hypothesis has been that the layer stays there, trapped, acting to insulate the cold ice from the warm salty water below.
"On the other hand, the water might be taken away more quickly - and that might accelerate the rate of Arctic melting."
Even in the era of Earth observation satellites and automonous ocean floats, the old-fashioned approach - sending people across the ice to take readings by hand - is really the only one available for this kind of work, he noted.
The findings could prove to be crucial in terms of projecting the future for Arctic sea ice.
Both the area and volume of summer sea ice are steadily shrinking; and the last four summers have seen ice extent fall to sizes that a few years ago were being projected for the latter half of this century.
If mixing in the crucial top ocean layer is happening more, that could help explain the trend and refine models, Dr Boxall said.
The project could also improve forecasts on the climate of western Europe, and much further afield.
Hardened explorers rather than scientists are needed for this work
The North Atlantic Drift (commonly called the Gulf Stream) brings warm water from the tropics into northern latitudes, where it gives up some of its heat to the air - keeping the UK and neighbouring countries warmer than their latitude alone would suggest.
In colder regions north and west of the UK, winds whip water molecules from the sea, cooling it and making it more saline.
In cold seasons, a layer of ice forms, which again adds to the water's salinity.
The cold salty water sinks, and eventually returns southward deep in the ocean, forming part of the global thermohaline circulation (THC).
As it sinks, it draws the warm surface waters northwards.
The global thermohaline circulation takes warm and cold water across the oceans
Warmer and fresher water does not sink so readily; and this could could turn off the "ocean conveyor", a picture painted in heightened Hollywood colour in the movie The Day After Tomorrow.
"Overall, if these changes... contribute to a lowering of the salt content of the North Atlantic, it could have a major impact on the entire planet - from significant temperature drops in Europe to intensified monsoons in Asia," said Richard Zimmerman, a bio-optics specialist at Old Dominion University in Norfolk, Virginia, US.
Continue reading the main story Climate change glossary
Select a term to learn more:GlossaryGlossaryAdaptation fund Annex I countries Annex II Anthropogenic climate change Aosis AR4 Atmospheric aerosols Bali action plan Bali roadmap Baseline for cuts Biofuel Black carbon Boxer-Kerry bill Business as usual Cap and trade Carbon capture and storage (CCS) Carbon dioxide (CO2) Carbon dioxide (CO2) equivalent Carbon footprint Carbon intensity Carbon leakage Carbon neutral Carbon offsetting Carbon sequestration Carbon sink Certified Emission Reduction (CER) CFCs Clean coal technology Clean Development Mechanism (CDM) Climate change CO2 Commitment periodCOP15 Country in transition Dangerous climate change Deforestation Emission Trading Scheme (ETS) EU Burden-sharing agreement Feedback loop Flexible mechanism Fossil fuels G77 Geological sequestration Global average temperature Global energy budget Global dimming Global warming Global Warming Potential (GWP) Greenhouse gases (GHGs) Greenhouse effect Hockey stick IPCC Joint implementation (JI) Kyoto Protocol LDCs LULUCF Major Economies Forum on Energy and Climate Methane Mitigation Nairobi work programme Natural greenhouse effect Non-annex I countries Ocean acidification Per-capita emissions ppm (350/450) Pre-industrial levels of carbon dioxide Renewable energy REDD Stern review Technology transfer Tipping point Twenty-twenty-twenty (20-20-20) UNFCCC Waxman-Markey bill Weather
Glossary in full
"It may also impact weather patterns throughout North America, including a dramatic increase in the frequency and intensity of severe storms, including hurricanes and tornadoes across the eastern US."
Recent work at NOC suggests it would be a quick change - if it happens.
It would be likely to cool the UK's climate, with the sort of winter seen in the last three years becoming the norm.
While the four explorers trek across the sea ice, scientists encamped on Ellef Ringnes Island off the north coast of Greenland will sample seawater and ice for coloured dissolved organic materials (CDOM), which affect the ocean's absorption of sunlight.
"We'll be taking ice core sections and melting them, filtering and measuring particulates and the CDOM fraction within melted ice, and measuring algae," said Victoria Hill, also from Old Dominion University.
Results from the season's work are expected to be ready for publication in science journals in the first half of next year.
This is the Catlin Arctic Survey's third season, with ongoing projects focussing on ocean acidification - another consequence of having more CO2 in the atmosphere.
The £1m project is directed by explorer Pen Hadow and sponsored by the Catlin insurance group.
|arctic, ice, melt, probe, survey|