Earth’s magnetic pole is on the move, fast

Earth’s magnetic pole is on the move, fast. And we don’t know why

Earth’s magnetic field is what allows us to exist. It deflects harmful radiation. It keeps our water and atmosphere in place. But now it’s acting up — and nobody knows why.

News.com,au,

11 January, 2019

Planet Earth is alive. Deep beneath its skin, its life blood — rivers of molten iron — pulse around its core. And this mobile iron is what generates the magnetic field that causes auroras — and keeps us alive.

But, according to the science journal Nature, something strange is going on deep down below.

It’s causing the magnetic North Pole to ‘skitter’ away from Canada, towards Siberia.

“The magnetic pole is moving so quickly that it has forced the world’s geomagnetism experts into a rare move,” Nature reports.

Graphic via Science Journal NatureSource:Supplied

This model is a vital component of systems ranging from geopositioning systems used to navigate ships through to smartphone trackers and maps.

The current model was expected to be valid until 2020. But the magnetic pole began to shift so quickly, it was realised in 2018 that the model had to be fixed — now.

“They realised that it was so inaccurate that it was about to exceed the acceptable (safe) limit for navigational errors,” Nature reports.

FICKLE TIDES

Every year, geophysicists from the US National Oceanic and Atmospheric Administration (NOAA) and the British Geological Survey do a check on how the Earth’s magnetic field is varying.

This is necessary as the liquid iron churning in the Earth’s core does not move in a consistent manner.

“In 2016, for instance, part of the magnetic field temporarily accelerated deep under northern South America and the eastern Pacific Ocean,” Nature reports.

This shift was captured by satellites.

Earth has lines of magnetic force looping from North Pole to South Pole, creating Earth's protective magnetosphere. The straight line coming out of the North and South Poles represents Earth's axis of rotation.
Source:Supplied

But the movement of the north magnetic pole has been the object of study since 1831. Initially, it was tracked moving into the Arctic Ocean at a rate of about 15km each year. But, since the mid 1990s, it has picked up speed.

It’s now shifting at a rate of about 55km a year.

But another recent study has revealed the Earth’s magnetic field has been acting up now for some 1000 years.

CORE OF THE MATTER

Why the magnetic field is shifting so dramatically is unknown.

“Geomagnetic pulses, like the one that happened in 2016, might be traced back to ‘hydromagnetic’ waves arising from deep in the core,” Nature reports. “And the fast motion of the north magnetic pole could be linked to a high-speed jet of liquid iron beneath Canada”.

This fast-flowing molten river appears to be weakening the magnetic influence of the iron core beneath North America.

“The location of the north magnetic pole appears to be governed by two large-scale patches of magnetic field, one beneath Canada and one beneath Siberia,” Phil Livermore of the University of Leeds told an American Geophysical Union meeting. “The Siberian patch is winning the competition.”

And, as global warming opens up more shipping lanes to the north of Russia and Canada, this presents a potentially deadly problem.

“The fact that the pole is going fast makes this region more prone to large errors,” says Arnaud Chulliat, a geomagnetist at the University of Colorado Boulder and NOAA.

And the predictions...

Earth's weakening magnetic field

Before you shout 'Daily Mail!' HERE it is in Scientific American.

Earth's magnetic field is weakening 10 times faster than thought in the Western Hemisphere

• Data was collected by the European Space Agency's Swarm satellites
• First data set reveals dramatic declines over the Western hemisphere, but a strengthening of the Earth's magnetic field over the southern Indian Ocean
• Changes could be due to the magnetic poles getting ready to 'flip'
• Latest measurements confirm movement of magnetic North towards Siberia
• Scientists previously estimated the Earth’s magnetic field is weakening at five per cent every century and now think it could be 10 times as fast

Daily Mail,

9 July, 2014

However, the field has strengthened in other areas since January, including over the southern Indian Ocean.

Scientists are unsure why the magnetic field is weakening, but one reason could be that the magnetic poles are preparing to flip, Swarm mission manager Rune Floberghagen told Live Science.

The latest measurements, made by magnetometers on board the three Swarm satellites confirm the movement of magnetic North towards Siberia.

‘Such a flip is not instantaneous, it would take many hundreds if not a few thousand years.

'They have happened many times in the past,’ he said

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Swarm (pictured) is Esa's first Earth observation constellation of satellites. Two satellites orbit almost side-by-side at the same altitude - initially at about 460km - while the third satellite is in a higher orbit of 530km

Changes in the strength of the Earth’s magnetic field are normal, but satellites have shown that it is weakening more rapidly than in the past.

Scientists have previously estimated that the Earth’s magnetic field is weakening at five per cent every century, but now they believe it could be diminishing 10 times as fast.

This means that the flip could occur sooner than the 2,000 years already predicted, according to experts who presented their findings at the Third Swarm Science Meeting in Denmark.

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Scientists are not sure why the magnetic field is weakening, but one reason could be that the magnetic poles are about to flip. The magnetic field and electric currents near Earth (pictured) generate complex forces, but exactly how it is generated and why it changes is not yet fully understood

Esa’s satellites pick up signals from the magnetic field as well as other sources, which could help scientists solve the mystery of why the planet’s magnetic field behaves as it does.

‘Over the coming months, scientists will analyse the data to unravel the magnetic contributions from other sources, namely the mantle, crust, oceans, ionosphere and magnetosphere,’ ESA said.

‘This will provide new insight into many natural processes, from those occurring deep inside our planet to space weather triggered by solar activity. In turn, this information will yield a better understanding of why the magnetic field is weakening.’

There is no evidence to suggest that a weakened magnetic field will mark the end of life on Earth as we know it.

During previous flips, there are no records of mass extinctions or evidence of radiation damage.

But as with the threat of space weather, scientists think that power grids and modern communication systems would be most at risk.

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This is a snapshot of the main magnetic field at Earth's surface as of June 2014, based on Swarm data. The measurements are dominated by the magnetic contribution from Earth's core (about 95%) while the contributions from other sources (the mantle, crust, oceans, ionosphere and magnetosphere) make up the rest. Red represents areas where the magnetic field is stronger, while blues show areas where it is weaker