Small rocks in the universe revealed that life on earth could have come from asteroids. And life outside of earth suggests that we are one step closer than we thought.
A bold NASA mission known as OSIRIS-REX five years ago The Bennu asteroid is on a course close to colliding with earth, and in the process, it will grab a small sample. A small capsule, containing 120 grams (4 ounces) of asteroid material, landed in the Utah Desert in late 2023.
Since then, scientists have been eagerly waiting to hear the contents of the capsule. Currently, scientists have confirmed that the asteroid contains not only organic matter but also all the components that make up DNA.
Bennu, currently orbiting close to the earth, is an ancient fragment of our solar system, with its parent asteroid formed about 4.5 billion years ago.
“We now know from Bennu that the ingredients of life are really interesting and complicated,” said Dr. Tim McCoy, the MET stone curator at the National Natural History Museum in the United States and co-leader of new papers.
“We have found the next step on the road to life.”
The breakthroughs suggest that life was formed on earth after asteroid collisions, but this process also occurs throughout the universe, whether through parent bodies or other asteroid collisions. It suggests a new beginning.
How can Bennu help in forming life?
The most important discovery is that Bennu seems to host “Brinny Bros,” which allows minerals and salts to mix. This compound developed into complex structures that form essential ingredients of life.
Researchers suggest that saltwater outside of earth may be an essential environment for birthing organic compounds throughout the universe, including on earth. In addition to the potential of water, these saltwater environments can facilitate prebiotic organic synthesis processes, where building blocks for life can come together.
Surprisingly, the absence of liquid water plays a vital role here. While liquid water is essential for life, chemical reactions needed to form complex structures require a loss of water in the process.
So what mixture forms this life?
The survey results will be published in the journals Nature and Nature Astronomy. Researchers around the world analyzed a small part of the sample using an electron microscope, enabling inspection at a resolution equal to a human hair.
One paper led by NASA scientists found that Bennu boasts a more extensive collection of organic matter than earth.
“It may seem natural to think that earth, hosting life, has the most widespread collection of organic materials in the solar system,” said Dr. Douglas Vacoc, Research Organization Messaging President of METI (Messaging Extraterrestrial Intelligence), to BBC Science Focus.
The impressive asteroid collection contains 14 of the 20 amino acids found in all living organisms (protein building blocks), including individual non-protein amino acids not known or existing in known biology. The sample also contains all five nucleic bases (adenine, guanine, cytosine, thymine, uracil) that form the code of DNA and RNA.
“There are no signs that Bennu’s amino acids were created by living organisms, but as we know, some essential building blocks for life are abundant on this asteroid,” Vacoch said.
How close are we to “life”?
Researchers have yet to understand the complex structure formed at Bennu’s core upon impact.
“We now have a basic building block moving along this path, but how far along this process can progress is unknown,” they said.
It’s not clear if Bennu’s conditions can advance to the next stage of biological evolution.
“Amino acids alone are not enough for life,” said Professor Lewis Dartnell to BBC Science Focus. “These acids need to bond into long chains to start protein production or bind to DNA. The next step in the origin of life requires not just building blocks but assembling these blocks.”
“To create life, these building blocks must begin the production of molecules like proteins and DNA, forming them into cells,” he added.
What is needed beyond organic molecules and water to reach this point? “The missing elements are energy sources like photosynthesis or chemical energy,” said Dartnell. “Additionally, a long period is required to move from simple amino acids to proteins, DNA, cells, and life spans.”
This discovery represents a significant leap in understanding Bennu’s nature.
“By examining Bennu’s chemical composition, we have found clues to its origins and recent discoveries point to its roots in the outer solar system,” said Vacoch.
Bennu’s contents may set a new baseline for exploring other cosmic bodies. The sample was meticulously preserved before analysis, ensuring the integrity of the salt content.
“There is no substitute for traveling to asteroids, collecting pristine samples, and returning them to an Earth research institute,” Vacoch stated. “OSIRIS-REX serves as proof of profound discoveries from sample return missions.”
If the fragments had fallen to earth on their own, the salt content would have been disrupted in the earth’s atmosphere. But with this knowledge, McCoy and his colleagues may find evidence of this saltwater in existing MET stone collections.
“This is like finding what you were looking for on a mission,” McCoy said. “We have found something unexpected. It’s the best reward for all kinds of exploration.”
About our experts
Dr. Douglas Vacoch, President of the Messaging Extraterrestrial Intelligence (METI), is a research and educational organization that sends signals to nearby stars. He is a member of the International Space Law Research Institute and serves as a general editor for Springer’s Space and Society series.
Professor Lewis Dartnell is a Professor of Science Communication at the University of Westminster, specializing in space biology and the exploration of microbial life on Mars. He is the author of Origin: How Earth Created Us and The Knowledge: How to Rebuild Our World from Scratch.
Read more:
- 10 future space missions I’m looking forward to
- What do aliens actually look like?
- These four signs of alien technology may lead us beyond earth
Source: www.sciencefocus.com
