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 Earth's
'magnetic personality' much older than previously thought
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[July 31, 2015]
By Will Dunham
WASHINGTON (Reuters) - Earth's magnetic
field has been a life preserver, protecting against relentless solar
winds, streams of charged particles rushing from the Sun, that otherwise
could strip away the planet's atmosphere and water.
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 "It would be a pretty barren planet without it," said University
of Rochester geophysicist John Tarduno.
But there has been debate among scientists about when this vital
shield generated by Earth's liquid iron core formed.
Researchers on Thursday said evidence entombed in tiny crystals
retrieved from the outback of western Australia indicates the
magnetic field arose at least 4.2 billion years ago, much earlier
than previously believed.
Previous research had estimated the field originated about 3.5
billion years ago, roughly a billion years after Earth's formation.
The new study shows Earth was protected by its magnetic field
beginning very early in its history.
 "The solar wind would have been much more intense 4 billion years
ago," said Tarduno, who led the study published in the journal
Science. "Its erosional capability was perhaps 10 times greater than
it is today. Without a magnetic shield, you would have this
tremendous possibility of eroding the atmosphere and removing water
from the planet." The study focused on a mineral called magnetite contained inside
ancient zircon crystals from Australia's Jack Hills. Magnetite
preserves a record of magnetic field strength at the time the
mineral was trapped in the zircon.
The researchers examined magnetite in zircon crystals measuring
about one-tenth to two-tenths of a millimeter in size and dating
from about 3.2 billion to 4.2 billion years ago, and concluded Earth
possessed a magnetic field during that entire period.
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Without a magnetic field, it may have been difficult for life to
emerge on Earth as it has.
"Knowing the initiation of the magnetic field has implications for
habitability conditions of early Earth," said University of
Rochester geologist Rory Cottrell.
"Finding suitable geologic material to measure deep time is a
challenge in and of itself. Zircon grains from Western Australia may
be one way to obtain such information about the early magnetic
field," Cottrell added.
Only two of the solar system's rocky planets, Earth and Mercury,
possess a magnetic field. Mars previously had one, but it dissipated
about 4 billion years ago.
"Mars once had a much denser atmosphere and oceans," said Tarduno.
The magnetic field's disappearance exposed Mars to solar winds that
may have peeled off the atmosphere and water, leaving the planet
desolate.
(Editing by Eric Walsh)
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