Ice sheet collapse 135,000 years ago triggered ancient sea level peak
Extreme climate changes aren’t a new phenomenon and with Earth a regular spectator of these global events, there have been huge ups and downs as far as sea levels are concerned.
According to a research led by researcher at The Australian National University (ANU), a dramatic ice sheet collapse at the end of the ice age before last caused widespread climate changes and led to a peak in the sea level well above its present height. The team revealed in its findings that the events 135,000 years ago caused the planet to warm in a different way to the end of the most recent ice age about 20,000 to 10,000 years ago.
According to scientists, the findings from their latest study will help them and other scientists understand the processes that control Earth’s dramatic climate changes.
According to leader of the study, Dr Gianluca Marino of ANU, scientists were aware that there was a huge rise in sea levels during the last interglacial period, but were not aware about the reasons.
“Now we for the first time can explain the processes that caused the sea levels to exceed the present levels,” said Dr Marino.
Though ice-age cycles may superficially look similar to one another, there are important differences in the relationships between melting of continental ice sheets and global climate changes, the researcher says. At the end of an ice age the continental ice sheets, ocean, and atmosphere change rapidly. Scientists have previously only been able to reconstruct in detail the changes at the end of the last ice age.
“We have compared the fluctuations at the end of an earlier ice age, and we found that the patterns were different,” said co-author Professor Eelco Rohling, from both ANU and the University of Southampton.
“At the end of the older ice age, 135,000 years ago, we found that a dramatic collapse of the Northern Hemisphere ice sheets into the North Atlantic Ocean suppressed the ocean circulation and caused cooling in the North Atlantic.”
“North Atlantic cooling was counterbalanced by Southern Ocean warming that then destabilised Antarctic land ice, causing a continuation of melting that eventually drove sea level rise to several meters above the present,” he said.
This is very different from the end of the last ice age, said Dr Marino.
“The northern hemisphere ice-sheet collapse and climate change did not occur at the same time, and that caused much less warming in Antarctica,” he said.
The team used precisely-dated cave records and marine sediments from the Mediterranean region to reconstruct the sequence of changes in all critical climate parameters.
The findings of the study have been published in Nature.