NASA’s first asteroid-return sample is a goldmine of life...
Jan 23, 2024 18:56:57 GMT
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Post by chillstar on Jan 23, 2024 18:56:57 GMT
NASA’s first asteroid-return sample is a goldmine of life-sustaining materials.
The powdery material that NASA officials unveiled on Wednesday looked like asphalt or charcoal, but was easily worth more than its weight in diamonds. The fragments were from a world all their own—pieces of the asteroid Bennu, collected and returned to Earth for analysis by the OSIRIS-REx mission. The samples hold chemical clues to the formation of our solar system and the origin of life-supporting water on our planet.
The clay and minerals from the 4.5-billion-year-old rock had been preserved in space’s deep freeze since the dawn of the solar system. Last month, after a seven-year-long space mission, they parachuted to a desert in Utah, where they were whisked away by helicopter.
And now those pristine materials sit in an airtight vessel in a clean room at NASA’s Johnson Space Center, where researchers like University of Arizona planetary scientist Dante Lauretta are getting their first chance to study the sample up close.
“The electron microscopes were fired up and ready” by September 27, Lauretta said in a news conference. “And boy did we really nail it.” (Lauretta, the principal investigator, gave the mission its name, which stands for Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer.) The preliminary investigation of a tiny fraction of the sample revealed it is rich in water, carbon, and organic compounds.
Carbon is essential for all living things on Earth, forming chemical bonds with hydrogen, oxygen, and other elements necessary to build proteins and enzymes. “We’re looking at the kinds of minerals that may have played essential roles in the origin of life on Earth,” Lauretta said.
The Bennu sample contained about 4.7 percent carbon, as measured by the Carnegie Institution for Science, according to Daniel Glavin, the OSIRIS-REx sample analysis lead at NASA’s Goddard Space Flight Center. This is “the highest abundance of carbon” the Carnegie team has measured in an extraterrestrial sample, Glavin said. “There were scientists on the team going ‘Wow, oh my God!’ And when a scientist says that ‘Wow;’ that’s a big deal.” Source (here)
The powdery material that NASA officials unveiled on Wednesday looked like asphalt or charcoal, but was easily worth more than its weight in diamonds. The fragments were from a world all their own—pieces of the asteroid Bennu, collected and returned to Earth for analysis by the OSIRIS-REx mission. The samples hold chemical clues to the formation of our solar system and the origin of life-supporting water on our planet.
The clay and minerals from the 4.5-billion-year-old rock had been preserved in space’s deep freeze since the dawn of the solar system. Last month, after a seven-year-long space mission, they parachuted to a desert in Utah, where they were whisked away by helicopter.
And now those pristine materials sit in an airtight vessel in a clean room at NASA’s Johnson Space Center, where researchers like University of Arizona planetary scientist Dante Lauretta are getting their first chance to study the sample up close.
“The electron microscopes were fired up and ready” by September 27, Lauretta said in a news conference. “And boy did we really nail it.” (Lauretta, the principal investigator, gave the mission its name, which stands for Origins, Spectral Interpretation, Resource Identification, Security-Regolith Explorer.) The preliminary investigation of a tiny fraction of the sample revealed it is rich in water, carbon, and organic compounds.
Carbon is essential for all living things on Earth, forming chemical bonds with hydrogen, oxygen, and other elements necessary to build proteins and enzymes. “We’re looking at the kinds of minerals that may have played essential roles in the origin of life on Earth,” Lauretta said.
The Bennu sample contained about 4.7 percent carbon, as measured by the Carnegie Institution for Science, according to Daniel Glavin, the OSIRIS-REx sample analysis lead at NASA’s Goddard Space Flight Center. This is “the highest abundance of carbon” the Carnegie team has measured in an extraterrestrial sample, Glavin said. “There were scientists on the team going ‘Wow, oh my God!’ And when a scientist says that ‘Wow;’ that’s a big deal.” Source (here)
