Shake it, baby! NASA robotic lander confirms quakes on Mars
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 [February 25, 2020]
By Will Dunham
WASHINGTON (Reuters) - NASA's robotic
InSight lander has for the first time established that Mars is
seismically active, but do not call the shaking, rattling and rolling
taking place on the Red Planet earthquakes. The proper term, fittingly,
is marsquakes.
Scientists said on Monday the InSight lander, which touched down on the
planet's surface in November 2018 to begin the first mission to study
the deep interior of Mars, has since detected around 450 marsquakes,
most of modest strength.
The Martian seismic activity recorded by the lander's seismometer, a
ground-motion detection sensor, was found to be greater than that of the
moon, but less than that of Earth.
The Martian seismic activity generally arises from the planet's
long-term cooling from its molten beginnings in the formation of the
solar system roughly 4.5 billion years ago.
"As the planet cools, it contracts, and then the brittle outer layers
have to fracture in order to sort of maintain themselves on the surface.
That's kind of the long-term source of stresses," said planetary
geophysicist and mission principal investigator Bruce Banerdt of NASA's
Jet Propulsion Laboratory in California.
The existence of seismic activity on Mars had long been suspected but
until now had not been definitively detected.
The location of some of the larger marsquakes was a region called
Cerberus Fossae that bears evidence of volcanic flows, faulting and
fluvial flow - water on the surface - within the past 10 million years,
considered recent in geological terms.
"Thus, this area still has activity at depth, perhaps including hot
magma. This in turn shows that Mars has regional variability in
activity, with some areas still quite active," JPL planetary
geophysicist and InSight deputy principal investigator Suzanne Smrekar
said.
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A life-size model of the spaceship Insight, NASA's first robotic
lander dedicated to studying the deep interior of Mars, is shown at
Jet Propulsion Laboratory (JPL) in Pasadena, California, U.S.
November 26, 2018. REUTERS/Mike Blake
The researchers devised a magnitude scale tailored to Mars but
similar to the one used for earthquakes. The strongest of the quakes
were a little less than magnitude 4, meaning they would be felt on
the surface perhaps dozens of miles (km) from the epicenter but
probably would not do much damage.
The scientists described two dozen marsquakes in a magnitude 3 to 4
range in findings published in the journals Nature Geoscience and
Nature Communications.
The geological dynamics of Mars differ from Earth. Our planet's
outer shell is divided into immense plates that move inexorably over
a rocky inner layer above Earth's core. Mars has no such plate
tectonics.
InSight, short for Interior Exploration using Seismic
Investigations, Geodesy and Heat Transport, is situated on a flat
region called Elysium Planitia just north of the Martian equator.
Its instruments also found that Mars, which unlike Earth has no
global magnetic field, has a local magnetic field at the landing
site 10 times stronger than expected. InSight additionally is
discovering new details about the complex Martian atmosphere.
(Reporting by Will Dunham; Editing by Sandra Maler)
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