Earth's magnetic field flipped 42,000 years ago, creating a climate 'disaster'

  

Category:  Health, Science & Technology

Via:  freefaller  •  3 weeks ago  •  4 comments

Earth's magnetic field flipped 42,000 years ago, creating a climate 'disaster'

S E E D E D   C O N T E N T



A reversal in Earth's  magnetic field  thousands of years ago plunged the planet into an environmental crisis that may have resembled "a disaster movie," scientists recently discovered. 

Our planet 's magnetic field is dynamic and, numerous times, it has flipped — when the magnetic North and South Poles swap places. In our electronics-dependent world, such a reversal could seriously disrupt communication networks. 

But the impact could be even more serious than that, according to the new study. For the first time, scientists have found evidence that a polar flip could have serious ecological repercussions. Their investigation connects a magnetic field reversal about 42,000 years ago to climate upheaval on a global scale, which caused extinctions and reshaped human behavior. 

Earth's magnetosphere — the   magnetic   barrier surrounding the planet — originates from the churning of hot, molten metal around its iron core. This perpetually sloshing liquid flow generates electricity that in turn produces magnetic field lines, which curve around the planet from pole to pole,   according to NASA .

Like a protective bubble, the magnetic field shields Earth from solar radiation. On the planet's sun-facing side, constant bombardment from solar winds squishes the magnetic field, so that the field extends to a distance no more than 10 times Earth's radius. However, on the side of the planet facing away from the sun, the field extends much farther into space, forming an enormous "magnetotail" that reaches beyond our moon,   NASA says .

Marking the two spots on Earth where arcing magnetic field lines converge are the magnetic   North Pole   and South Pole. But while these positions are relatively stable, the poles — and the magnetic field itself — aren't fixed in place. About once every 200,000 to

300,000 years, the field weakens enough to reverse polarity completely. The process can take hundreds or even thousands of years, according to NASA. 

Magnetic molecules preserved in volcanic deposits and other sediments tell scientists when past reversals happened; those molecules align with the magnetic field at the time that they were deposited, so they indicate the location of the magnetic North Pole, said lead study author Alan Cooper, an emeritus professor in the Department of Geology at the University of Otago in New Zealand.

Recently, researchers questioned whether a relatively recent and brief polarity reversal called the Laschamps Excursion, which took place between 41,000 and 42,000 years ago, could be linked to other dramatic changes on Earth from that time, which had not previously been attributed to activity in the magnetosphere. They suspected that during a time when our protective magnetic field was reversing — and thereby weaker than normal — solar and cosmic radiation exposure could affect the atmosphere enough to impact climate, the study authors reported.

Clues in "biscuits"


Prior studies of   Greenland   ice cores dating to Laschamps didn't reveal evidence of climate change, according to the study. But this time, the researchers turned their attention to another potential source of climate data: bog-preserved kauri trees ( Agathis australis ) from northern New Zealand.

They cut cross-sections, or "biscuits," from the preserved trunks, and looked at changes in levels of carbon 14, a radioactive form of the element, over a period that included the Laschamps reversal. Their analysis revealed elevated levels of radioactive carbon in the atmosphere during Laschamps, when the magnetic field was weakening.

"Once we worked out the exact timing from the kauri record, we could see that it coincided perfectly with records of climatic and biological change all over the world," Cooper told Live Science in an email. For example, around this time, megafauna in Australia began to go extinct and Neanderthals in Europe were dying out; their decline may have been accelerated by climate-related changes to their ecosystems, Cooper said.

The authors then used computer climate models to test what may have caused widespread climate upheaval and related extinctions. They found that a weak magnetic field — operating at about 6% of its normal strength — could lead to major climate impacts "via the ionizing radiation strongly damaging the ozone layer, letting in UV [ ultraviolet rays ] and altering the ways in which the sun's energy was absorbed by the atmosphere," Cooper explained.

A heavily ionized atmosphere could also have generated brilliant auroras around the world and produced frequent lightning storms, making skies look like "something similar to a disaster movie," Cooper said.

Another significant shift around that time was in   Homo sapiens , with cave art beginning to appear in locations around the world. This included the first examples of red ochre hand stencils, "which we suspect is actually a sign of the application of sunscreen," a practice still seen in modern Indigenous groups in Namibia, Cooper said. Higher UV levels from a weak magnetic field could have driven humans to seek shelter in caves, or forced them to protect their skin with sunblocking minerals, he said.

Scientists can't predict precisely when the next reversal of our magnetic field might happen. However, some signs — such as the   North Pole's current migration   across the Bering Sea area and the magnetic field itself weakening nearly 10% over the past 170 years — suggest that a flip may be   closer than we think , making it more urgent that researchers fully understand how big shifts in our magnetic field could shape environmental changes on a global scale, according to the study.

"Overall, these findings raise important questions about the evolutionary impacts of geomagnetic reversals and excursions throughout the deeper geological record," the scientists wrote. 

The findings were published online Feb. 18 in the journal   Science .


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Freefaller
PhD Guide
1  seeder  Freefaller    3 weeks ago

Although we have all long been aware that the poles flip occasionally I've often wondered what the impacts would be.

Gotta imagine that besides the climatic impacts the would also be greater mutations in our and other lifeforms DNA (mostly bad)

 
 
 
Greg Jones
Masters Participates
1.1  Greg Jones  replied to  Freefaller @1    3 weeks ago
would also be greater mutations in our and other lifeforms DNA (mostly bad)

It would be interesting to hear your reasoning behind this statement

 
 
 
Freefaller
PhD Guide
1.1.1  seeder  Freefaller  replied to  Greg Jones @1.1    3 weeks ago

Due to the weakened protection of the magnetic field biologic lifeforms would be subj to more solar radiation which can impact DNA

 
 
 
Kavika
Professor Principal
2  Kavika     3 weeks ago
"Once we worked out the exact timing from the kauri record, we could see that it coincided perfectly with records of climatic and biological change all over the world," Cooper told Live Science in an email. For example, around this time, megafauna in Australia began to go extinct and Neanderthals in Europe were dying out; their decline may have been accelerated by climate-related changes to their ecosystems, Cooper said.

Interesting stuff, preserved trees giving science a chance to try to determine what actually happened.

A bit about the kauri tree..

Swamp kauri , sometimes marketed as " ancient kauri ", are prehistoric kauri trees ( Agathis australis ),   buried and preserved in peat   up to 50,000 years ago in   New Zealand 's   North Island . [1] [2]   Buried under a peat swamp by an unexplained act of nature at the end of the last Ice Age, the trees have survived the centuries underground, sealed in a chemically balanced environment that has preserved the timber in perfect condition. [3] The trees grew for nearly 2000 years before they were buried. Some have a girth of around 40 feet, and a total height of nearly 200 feet.

Good article, thanks Freefaller.

 
 
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