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Tuesday, December 20, 2005

Scientist warns of Global warming impact on Ocean Circulation

Global warming could halt ocean circulation, with harmful results warns an atmospheric scientist. “This is a dangerous, human-induced climate change,” said Michael Schlesinger, a professor of atmospheric sciences at the University of Illinois at Urbana-Champaign. “The shutdown of the thermohaline circulation has been characterized as a high-consequence, low-probability event. Our analysis, including the uncertainties in the problem, indicates it is a high-consequence, high-probability event.”

Schlesinger presented his warnings at a talk at the United Nations Climate Change Conference in Montreal on December 8, 2005.

This follows a Guardian article reporting Alarm over dramatic weakening of Gulf Stream. Researchers on a scientific expedition in the Atlantic Ocean measured the strength of the current between Africa and the east coast of America and found that the circulation has slowed by 30% since a previous expedition 12 years ago.

A New Scientist article also warned that Failing ocean current raises fears of mini ice age in Europe and the east coast of North America. As the great ocean currents slow down, southern hemisphere regions such as Australia may also be impacted.

A report by the BBC outlined the close link between temperatures in the North Atlantic and the strength of ocean circulation as underlined by a new analysis of sea-floor sediments.

Background Information::


Global warming could halt ocean circulation, with harmful results


CHAMPAIGN, Ill. 6th December 2005 —
Absent any climate policy, scientists have found a 70 percent chance of shutting down the thermohaline circulation in the North Atlantic Ocean over the next 200 years, with a 45 percent probability of this occurring in this century. The likelihood decreases with mitigation, but even the most rigorous immediate climate policy would still leave a 25 percent chance of a thermohaline collapse.

“This is a dangerous, human-induced climate change,” said Michael Schlesinger, a professor of atmospheric sciences at the University of Illinois at Urbana-Champaign. “The shutdown of the thermohaline circulation has been characterized as a high-consequence, low-probability event. Our analysis, including the uncertainties in the problem, indicates it is a high-consequence, high-probability event.”

Schlesinger will present a talk “Assessing the Risk of a Collapse of the Atlantic Thermohaline Circulation” on Dec. 8 at the United Nations Climate Change Conference in Montreal. He will discuss recent work he and his colleagues performed on simulating and understanding the thermohaline circulation in the North Atlantic Ocean.

The thermohaline circulation is driven by differences in seawater density, caused by temperature and salinity. Like a great conveyor belt, the circulation pattern moves warm surface water from the southern hemisphere toward the North Pole. Between Greenland and Norway, the water cools, sinks into the deep ocean, and begins flowing back to the south.

“This movement carries a tremendous amount of heat northward, and plays a vital role in maintaining the current climate,” Schlesinger said. “If the thermohaline circulation shut down, the southern hemisphere would become warmer and the northern hemisphere would become colder. The heavily populated regions of eastern North America and western Europe would experience a significant shift in climate.”

Higher temperatures caused by global warming could add fresh water to the northern North Atlantic by increasing the precipitation and by melting nearby sea ice, mountain glaciers and the Greenland ice sheet. This influx of fresh water could reduce the surface salinity and density, leading to a shutdown of the thermohaline circulation.

“We already have evidence dating back to 1965 that shows a drop in salinity around the North Atlantic,” Schlesinger said. “The change is small, compared to what our model needs to shut down the thermohaline, but we could be standing at the brink of an abrupt and irreversible climate change.”

To analyze the problem, Schlesinger and his colleagues first used an uncoupled ocean general circulation model and a coupled atmosphere-ocean general circulation model to simulate the present-day thermohaline circulation and explore how it would behave in response to the addition of fresh water.

They then used an extended, but simplified, model to represent the wide range of behavior of the thermohaline circulation. By combining the simple model with an economic model, they could estimate the likelihood of a shutdown between now and 2205, both with and without the policy intervention of a carbon tax on fossil fuels. The carbon tax started out at $10 per ton of carbon (about five cents per gallon of gasoline) and gradually increased.

“We found that there is a 70 percent likelihood of a thermohaline collapse, absent any climate policy,” Schlesinger said. “Although this likelihood can be reduced by the policy intervention, it still exceeds 25 percent even with maximal policy intervention.”

Because the risk of a thermohaline collapse is unacceptably large, Schlesinger said, “measures over and above the policy intervention of a carbon tax – such as carbon capture and sequestration – should be given serious consideration.”

Collaborators on this research are U. of I. research programmer Bin Li, Princeton University researchers Sergey Malyshev and Jianjun Yin, University of Michigan research scientist Natasha Andronova, and Wesleyan University economics professor Gary Yohe.

The National Science Foundation funded the work.
The original Press Release can be found at:
http://www.news.uiuc.edu/news/05/1206climate.html