Giant CO2 burp triggered end of last ice age, claim scientists


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A team of scientists has discovered that a giant 'burp' of carbon dioxide from the North Pacific Ocean helped trigger the end of last ice age, around 17,000 years ago.

The recent study, led by Dr James Rae of the University of St Andrews in Scotland, found that changes in ocean circulation in the North Pacific caused a massive outpouring of CO2.

This was released from the deep ocean into the atmosphere, helping to warm the planet sufficiently to trigger the end of the ice age.

A team of scientists has discovered that a giant 'burp' of carbon dioxide from the North Pacific Ocean helped trigger the end of last ice age, around 17,000 years ago (stock image shown). The recent study was led by Dr James Rae of the University of St Andrews, Scotland

A team of scientists has discovered that a giant 'burp' of carbon dioxide from the North Pacific Ocean helped trigger the end of last ice age, around 17,000 years ago (stock image shown). The recent study was led by Dr James Rae of the University of St Andrews, Scotland

Previously, scientists have suggested that the Antarctic Ocean and North Atlantic were the only places likely to release CO2 as a result of glaciers retreating, due to their deep water formation.

However, a change in rainfall over the North Pacific region caused by the East Asian monsoon and the westerly storm track made the ocean surface saltier and less buoyant, allowing it to form deep water, say the scientists.

WHAT IS 'DEEP WATER'?

Deep waters form when air temperatures are cold but the salinity of surface water is high, so water becomes denser and sinks lower.

One example is the Gulf Stream, which carries salt into high latitudes of the North Atlantic Ocean where water cools.

The cooling and the added salt cause the waters to sink in the Norwegian Sea. This is the formation of Atlantic Deep Water.

If deep water comes to the surface it will warm and release carbon dioxide, as cold water holds more carbon dioxide than warm water.

Via University of Southern California

This resulted in CO2 stored in the deep Pacific being released into the atmosphere, where it helped warm the planet and melt back the ice sheets that covered much of the Northern Hemisphere.

 

'Our study shows that North Pacific deep water penetrated all the way into the deep ocean, allowing it to release deep ocean CO2,' said Dr Rae, of the University's Department of Earth and Environmental Sciences.

'We tested this idea further with a climate model, which showed that deep water formation in the North Pacific causes ocean CO2 release, large enough to drive the atmospheric CO2 rise recorded at the start of the deglaciation.

'The results of our study came as a big surprise, as we were expecting to see a signature of CO2 release from the ocean around Antarctica, which has been the leading hypothesis for deglacial CO2 rise.

'Instead we found a signal we can only explain with CO2 release from the North Pacific.'

The researchers warn, however, the man-made activities will warm the climate much faster than this release of CO2 did. 'Humans have driven CO2 rise in the atmosphere as large as the CO2 rise that helped end the last ice age, but the man-made CO2 rise has happened 100 times faster,' said Dr Rae

The researchers warn, however, the man-made activities will warm the climate much faster than this release of CO2 did. 'Humans have driven CO2 rise in the atmosphere as large as the CO2 rise that helped end the last ice age, but the man-made CO2 rise has happened 100 times faster,' said Dr Rae

The team of scientists from the University of St Andrews, University of Bristol and University of Kiel, Germany made a series of chemical measurements on minuscule fossil shells to trace ocean CO2 storage and circulation patterns up to two miles (3.2 kilometres) beneath the ocean's surface.

'This study is only really possible thanks to new developments in geochemistry, that allow us to reconstruct the pH [acidity] of the ocean in the past for the first time, giving an accurate measurement of how ocean CO2 is stored and released,' added Dr Gavin Foster, of the University of Southampton.

The new findings will help scientists understand how Earth's climate can operate, and the different ways in which the ocean and atmosphere can exchange CO2.

But Dr Rae warned: 'Although the CO2 rise caused by this process was dramatic in geological terms, it happened very slowly compared to modern man-made CO2 rise.

'Humans have driven CO2 rise in the atmosphere as large as the CO2 rise that helped end the last ice age, but the man-made CO2 rise has happened 100 times faster.

'This will have a huge effect on the climate system, and one that we are only just starting to see.'



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