Credit: alaskapublic.org
A researcher said: “Remarkably, the data suggest that the ice sheets can change in response to more than just global climate,” calling into question some long-held ideas. A professor connected to the study commented: “These findings appear to poke a hole in our current understanding of how past ice sheets interacted with the rest of the climate system, including the greenhouse effect.” Well, fancy that. The commentary notes that ‘global temperatures were relatively stable at the time of the fall in sea level, raising questions about the correlation between temperature, sea level and ice volume’. In short, the ice sheets grew faster than scientists had thought.
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Princeton scientists found that the Bering Land Bridge, the strip of land that once connected Asia to Alaska, emerged far later during the last ice age than previously thought, says Eurekalert.
The unexpected findings shorten the window of time that humans could have first migrated from Asia to the Americas across the Bering Land Bridge.
The findings also indicate that there may be a less direct relationship between climate and global ice volume than scientists had thought, casting into doubt some explanations for the chain of events that causes ice age cycles.
The study was published on December 27 in the Proceedings of the National Academy of Sciences.
“This result came totally out of left field,” said Jesse Farmer, postdoctoral researcher at Princeton University and co-lead author on the study. “As it turns out, our research into sediments from the bottom of the Arctic Ocean told us not only about past climate change but also one of the great migrations in human history.”
Insight into ice age cycles
During the periodic ice ages over Earth’s history, global sea levels drop as more and more of Earth’s water becomes locked up in massive ice sheets.
At the end of each ice age, as temperatures increase, ice sheets melt and sea levels rise. These ice age cycles repeat throughout the last 3 million years of Earth’s history, but their causes have been hard to pin down.
By reconstructing the history of the Arctic Ocean over the last 50,000 years, the researchers revealed that the growth of the ice sheets — and the resulting drop in sea level — occurred surprisingly quickly and much later in the last glacial cycle than previous studies had suggested.
“One implication is that ice sheets can change more rapidly than previously thought,” Farmer said.
During the last ice age’s peak of the last ice age, known as the Last Glacial Maximum, the low sea levels exposed a vast land area that extended between Siberia and Alaska known as Beringia, which included the Bering Land Bridge. In its place today is a passage of water known as the Bering Strait, which connects the Pacific and Arctic Oceans.
Based on records of estimated global temperature and sea level, scientists thought the Bering Land Bridge emerged around 70,000 years ago, long before the Last Glacial Maximum.
But the new data show that sea levels became low enough for the land bridge to appear only 35,700 years ago. This finding was particularly surprising because global temperatures were relatively stable at the time of the fall in sea level, raising questions about the correlation between temperature, sea level and ice volume.
“Remarkably, the data suggest that the ice sheets can change in response to more than just global climate,” Farmer said. For example, the change in ice volume may have been the direct result of changes in the intensity of sunlight that struck the ice surface over the summer.
“These findings appear to poke a hole in our current understanding of how past ice sheets interacted with the rest of the climate system, including the greenhouse effect,” said Daniel Sigman, Dusenbury Professor of Geological and Geophysical Sciences at Princeton University and Farmer’s postdoctoral advisor.
“Our next goal is to extend this record further back in time to see if the same tendencies apply to other major ice sheet changes. The scientific community will be hungry for confirmation.”
Full article here.
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Study: The Bering Strait was flooded 10,000 years before the Last Glacial Maximum
Tallbloke's Talkshop 
[…] From Tallbloke’s Talkshop […]
Not even close.
There cannot be temperate climate flora, fauna, and humans living simultaneously under > mile thick of “ice sheet.” The land bridge didn’t appear; Beringia and Fennoscandia sank, existing much earlier than 50KBCE.
Um…I thought the science was settled…
“Remarkably, the data suggest that the ice sheets can change in response to more than just global climate,” Farmer said. For example, the change in ice volume may have been the direct result of changes in the intensity of sunlight that struck the ice surface over the summer.
Ice sheets responding to changes in summer sunlight intensity is ‘remarkable’?
Reblogged this on Climate Collections.
Reblogged this on Utopia, you are standing in it!.
Which scientist is surprised that local temperature is more important to what is happening locally than global temperature?
“These findings appear to poke a hole in our current understanding of how past ice sheets interacted with the rest of the climate system, including the greenhouse effect”
Greenhouse effect theory was already full of holes 😐
How is a Bering Strait crossing over a frozen ocean different from a crossing over a frozen land bridge?
[…] Bering Land Bridge formed surprisingly late during last ice age, say researchers […]
In biogeography, a land bridge is an isthmus or wider land connection between otherwise separate areas, over which animals and plants are able to cross and colonize new lands.
https://en.wikipedia.org/wiki/Land_bridge
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The Bering Strait ‘is 53 miles (85 km) wide, and at its deepest point is only 90 m (300 ft) in depth.’
https://en.wikipedia.org/wiki/Bering_Strait#Geography_and_science
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Study, December 27, 2022:
The Bering Strait was a land bridge during the peak of the last ice age (the Last Glacial Maximum, LGM), when sea level was ~130 m lower than today.
https://www.pnas.org/doi/10.1073/pnas.2206742119
Interesting article questioning some assumptions of the Bering study and putting forward other ideas…
Bering Land Bridge Anomaly
31 December 2022
https://www.sis-group.org.uk/news/2022/12/31/bering-land-bridge-anomaly/
SIS article above mentions the Laschamp event…
The Laschamp or Laschamps event[note 1] was a geomagnetic excursion (a short reversal of the Earth’s magnetic field). It occurred between 42,200 and 41,500 years ago, during the end of the Last Glacial Period.
https://en.wikipedia.org/wiki/Laschamp_event
…which may have led to this…
End of Neanderthals linked to flip of Earth’s magnetic poles, study suggests
Event 42,000 years ago combined with fall in solar activity potentially cataclysmic, researchers say
Now scientists say the flip, together with a period of low solar activity, could have been behind a vast array of climatic and environmental phenomena with dramatic ramifications. “It probably would have seemed like the end of days,” said Prof Chris Turney of the University of New South Wales and co-author of the study. [bold added]
https://www.theguardian.com/science/2021/feb/18/end-of-neanderthals-linked-to-flip-of-earths-magnetic-poles-study-suggests
Study: A global environmental crisis 42,000 years ago
— Cooper, Turney et al, 2021
Reversing the field
Do terrestrial geomagnetic field reversals have an effect on Earth’s climate? Cooper et al. created a precisely dated radiocarbon record around the time of the Laschamps geomagnetic reversal about 41,000 years ago from the rings of New Zealand swamp kauri trees. This record reveals a substantial increase in the carbon-14 content of the atmosphere culminating during the period of weakening magnetic field strength preceding the polarity switch. The authors modeled the consequences of this event and concluded that the geomagnetic field minimum caused substantial changes in atmospheric ozone concentration that drove synchronous global climate and environmental shifts.
https://www.science.org/doi/full/10.1126/science.abb8677
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New Research Documents Extremely High Atmospheric Carbon 14 During Last Ice Age
May 10, 2001
University of Arizona physicist J. Warren Beck and his colleagues also discovered that atmospheric carbon 14 levels soared dramatically between 45,000 and 33,000 years ago. Beck says even more interesting was a dramatic spike in radiocarbon levels during a millennium that began 44,300 years ago, nearly twice as high as the “bomb pulse” produced during nuclear weapons testing in the 1950s and 60s.
. . .
While scientists have known for some time that atmospheric carbon 14 levels were higher and more variable in the Ice Age atmosphere than today, “the magnitude of variation revealed by our stalagmite is surprising,” Beck and the others write in Science. [bold added]
https://news.arizona.edu/story/new-research-documents-extremely-high-atmospheric-carbon-14-during-last-ice-age
If more cosmic rays over several millennia lowered albedo by increasing cloud cover, could that be a, or the, trigger for the glacial maximum, or at least an accelerating factor?
From the blog post:
‘the researchers revealed that the growth of the ice sheets — and the resulting drop in sea level — occurred surprisingly quickly and much later in the last glacial cycle than previous studies had suggested.’