Back in
1998, two meteorites with a fascinating mix of chemicals crashed down to Earth.
Based on a
new analysis, scientists have shown they contain all the ingredients needed to
spark life wherever they land, and may have traveled from an ancient ocean
world.
In a scene
straight out of a Steven Spielberg movie, one of the meteorites interrupted a
kids' game of basketball in Texas, while the other landed near Morocco. Now we
know more about what makes them so special.
Both these
space rocks contain liquid water and the organic compounds that life needs to
flourish, making them the first meteorites to be found with these two types of
ingredients together.
They could
potentially have contributed to life on any planet they landed on, according to
scientists.
One of the
meteorites was found by these kids in Texas. (Mark Bostick)
"This
is really the first time we have found abundant organic matter also associated
with liquid water that is really crucial to the origin of life and the origin
of complex organic compounds in space," says the lead researcher, Queenie
Chan from The Open University in the UK.
"We're
looking at the organic ingredients that can lead to the origin of life."
Those
organic ingredients include the amino acids required for proteins to form, as
well as carbon, oxygen, and nitrogen.
The
scientists used X-rays from the Advanced Light Source (ALS) facility at the
Lawrence Berkeley National Laboratory in California to identify the compounds
and uncover this combination of life-giving ingredients.
The crystal
fragments analyzed were just a fraction of the width of a human hair, monitored
in a dust-controlled room.
And while it
doesn't prove life exists outside Earth, it certainly raises the possibility.
The team thinks these rocks might have come from an ocean world formed in the
early Solar System, like the Ceres dwarf planet.
One
possibility is that ice or water jets from volcanic activity on Ceres (similarto those on Enceladus) could have imbued these rocks with such a rich mix of
compounds.
More organic
matter could have been added through a collision with another object like the
Hebe asteroid, the researchers say, as these rocks flew through space.
What the
scientists found in the meteorites' tiny blue and purple salt crystals also
suggests they came from a similar source, and their asteroid parents may have
shared some matter in the distant past.
The
microscopic traces of water found in the fragments could date all the way back
to the birth of our Solar System, 4.5 billion years ago, the team says.
"It's
like a fly in amber," says one of the team, David Kilcoyne from the
Berkeley Lab.
What makes
the findings so exciting is how useful they can be to future research.
They hint at
elements for life having existed way back in history, they can teach us more
about how colliding objects in space share organic matter, and they're evidence
of how the seeds of life on one planet can find their way to another.
With more
crystals on the meteorites yet to be analyzed, these rocks could throw up even
more surprises in the future. In the meantime, they offer experts a fascinating
glimpse into the past.
"Everything
leads to the conclusion that the origin of life is really possible
elsewhere," says Chan.
The research
has been published in Science Advances.
Image Credit: (Queenie Chan/The Open University UK)
Image Credit: (Queenie Chan/The Open University UK)
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