The Great Flood had smaller impact than originally believed

The Great Flood had smaller impact than originally believed

January 9, 2006

NASA climate modelers have simulated the climate changes caused by a massive deluge of freshwater into the North Atlantic that occurred near the end of the last Ice Age 8,000 years ago.

At the time, retreating glaciers opened a route for two giant lakes known as Agassiz and Ojibway to rapidly and prodigiously drain into the North Atlantic ocean. Scientists believe that the tremendous influx of freshwater in the North Atlantic interfered with the ocean’s thermohaline circulation, which distributes heat around the globe, and may have caused average air temperatures to drop several degrees in some areas of the Northern Hemisphere.

While the flood was catastrophic, the researchers found it had much milder effects around the globe than many people feared. According to the model, published in this week’s edition of the journal Proceedings of the National Academy of Sciences (PNAS), “temperatures in the North Atlantic and Greenland showed the largest decrease, with slightly less cooling over parts of North America and Europe. The rest of the northern hemisphere, however, showed very little effect, and temperatures in the southern hemisphere remained largely unchanged. Moreover, ocean circulation, which initially dropped by half after simulated flood, appeared to rebound within 50 to 150 years.”

A news release announcing the research appears below.

Climate modelers at the Goddard Institute for Space Studies (GISS) have succeeded in reproducing the climate changes caused by a massive freshwater pulse into the North Atlantic that occurred at the beginning of the current warm period 8,000 years ago. Their work is the first to consistently model the event and the first time that the model results have been validated by comparison to the record of climate proxies that scientists regularly use to study the Earth’s past.
“We only have one example of how the climate reacts to changes, the past,” said Gavin A. Schmidt, a GISS researcher and co-author on the study. “If we’re going to accurately simulate the Earth’s future, we need to be able to replicate past events. This was a real test of the model’s skill.”

The study was led by Allegra LeGrande, a graduate student in the department of earth and environmental sciences at Columbia University. The results appear in a paper being published in this week’s edition of the journal Proceedings of the National Academy of Sciences (PNAS).

The group used an atmosphere-ocean coupled climate model known as GISS Model E-R to simulate the climate impact of a massive freshwater flood into the North Atlantic that happened about 8,200 years ago after the end of the last Ice Age. As retreating glaciers opened a route for two ancient meltwater lakes known as Agassiz and Ojibway to suddenly and catastrophically drain from the middle of the North American continent.

Related articles 45% chance Gulf Stream current will collapse by 2100 finds research New research indicates there is a 45 percent chance that the thermohaline circulation in the North Atlantic Ocean could shut down by the end of the century if nothing is done to slow greenhouse gas emissions. Even with immediate climate policy action, say scientists, there would still be a 25 percent probability of a collapse of the system of currents that keep western Europe warmer than regions at similar latitudes in other parts of the world. Change in Atlantic circulation could plunge Europe into cold winters The Atlantic Ocean circulation that carries warm waters north and returns cold waters south is slowing, putting Europe at risk of colder temperatures, according to research published in Nature. The Atlantic Heat Conveyor, the system of currents in the Atlantic Ocean that result in a net transport of warm water into the northern hemisphere, keeps western Europe warmer than regions at similar latitudes in other parts of the world. A weakening of the system, which includes the Gulf Stream, could cause a cooling in northwest Europe.

At approximately the same time, climate records show that the Earth experienced its last abrupt climate shift. Scientists believe that the massive freshwater pulse interfered with the ocean’s overturning circulation, which distributes heat around the globe. According to the record of what are known as climate proxies, average air temperatures apparently dropped fell as much as several degrees in some areas of the Northern Hemisphere.

Climate researchers use these proxies–chemical signals locked in minerals and ice bubbles as well as pollen and other biological indicators–as indirect measures of temperature and precipitation patterns in the distant past. Because GISS Model E-R incorporates the response of these proxies in its output, the authors of the PNAS study were able to compare their results directly to the historical record.

The researchers prodded their model with a freshwater pulse equal to between 25 and 50 times the flow of the Amazon River in 12 model runs that took more than a year to complete. Although the simulations largely agreed with proxy records from North Atlantic sediment cores and Greenland ice cores, the team’s results showed that the flood had much milder effects around the globe than many people fear–including the dramatic shifts in climate depicted in the 2004 movie ‘The Day After Tomorrow’.

According to the model, temperatures in the North Atlantic and Greenland showed the largest decrease, with slightly less cooling over parts of North America and Europe. The rest of the northern hemisphere, however, showed very little effect, and temperatures in the southern hemisphere remained largely unchanged. Moreover, ocean circulation, which initially dropped by half after simulated flood, appeared to rebound within 50 to 150 years.

“This was probably the closest thing to a ‘Day After Tomorrow’ scenario that we could model,” said LeGrande. “The flood we looked at was even larger than anything that could happen today. Still, it’s important for us to study because the real thing occurred during a period when conditions were not that much different from the present day.”

The GISS climate model is also being used for the latest simulations by the Intergovernmental Panel on Climate Change (IPCC) to simulate the Earth’s present and future climate. “Hopefully, successful simulations of the past such as this will increase confidence in the validity of model projections,” said Schmidt.

The study was funded by NASA, National Defense Science and Engineering Graduate Fellowship, and the National Science Foundation.

The Earth Institute at Columbia University is the world’s leading academic center for the integrated study of the Earth, its environment and society. The Earth Institute builds upon excellence in the core disciplines–earth sciences, biological sciences, engineering sciences, social sciences and health sciences–and stresses cross-disciplinary approaches to complex problems. Through research, training and global partnerships, The Earth Institute mobilizes science and technology to advance sustainable development, while placing special emphasis on the needs of the world’s poor. For more information, visit www.earth.columbia.edu.

The Goddard Institute for Space Studies, part of The Earth Institute at Columbia University, is the only urban laboratory of the National Aeronautic and Space Administration (NASA). The Goddard Institute is a climate research center that models and monitors earth systems, using state-of-the-art equipment to predict atmospheric and climate changes in the 21st century. It also plays an important teaching role, conducting science education programs at more than 20 universities, schools and organizations throughout metropolitan New York. For more information, visit www.giss.nasa.gov.

Article published by Rhett Butler

Climate Change, Climate Science, Earth Science, Green

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