Earth's magnetic poles not likely to flip: Study

The Earth’s magnetic poles are not heading towards a reversal, as speculated, scientists have found. During the past 180 years, Earth’s magnetic field strength
Earth's magnetic poles not likely to flip: Study

LONDON: The Earth's magnetic poles are not heading towards a reversal, as speculated, scientists have found. During the past 180 years, Earth's magnetic field strength has decreased by about 10 per cent. Simultaneously, an area with an unusually weak magnetic field has grown in the South Atlantic off the coast of South America. This area, where satellites have malfunctioned several times due to exposure to highly charged particles from the sun, is called the South Atlantic Anomaly.

These developments have led to speculation that we may be heading for a polarity reversal. However, the new study, published in the journal PNAS, suggests this may not be the case.

Geologists from Lund University in Sweden stitched together evidence stretching back 9,000 years that suggests the current changes aren't unique, and that a reversal may not be in the cards after all.

The Earth's magnetic field acts as an invisible shield against the life-threatening environment in space, and solar winds that would otherwise sweep away the atmosphere. But, the magnetic field is not stable, and at irregular intervals at an average of every 200,000 years polarity reversals happen. This means that the magnetic North and South poles swap places.

"We have mapped changes in the Earth's magnetic field over the past 9,000 years, and anomalies like the one in the South Atlantic are probably recurring phenomena linked to corresponding variations in the strength of the Earth's magnetic field," said Andreas Nilsson, geologist at Lund University in Sweden.

The results are based on analyses of burnt archaeological artefacts, volcanic samples and sediment drill cores, all of which carry information about the Earth's magnetic field.

These include clay pots that have been heated up to over 580 degrees Celsius, volcanic lava that has solidified, and sediments that have been deposited in lakes or in the sea. Using sensitive instruments, the researchers have been able to measure these magnetizations and recreate the direction and strength of the magnetic field at specific places and times. (IANS)

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