The cataclysmic collision between Earth and a Mars-size object that forged the moon may have occurred about 4.47 billion years ago, suggests a study of meteorites with ancient fragments from that cosmic impact.
This finding suggests that, one day, it may be possible to find samples of what the primordial Earth was like before the giant impact that formed the moon, or to uncover bits of the impacting rock itself.
Earth was born about 4.5 billion years ago, and scientists think the moon formed shortly afterward. The leading explanation for the moon's origin, known as the giant impact hypothesis, suggests that the moon resulted from the collision of two protoplanets, or embryonic worlds. One of those was the young Earth, and the other was a potentially Mars-size object called Theia. The moon then coalesced from the rubble. [How Earth's Moon Was Made (A Photo Timeline)]
"By understanding the moon, we can tell the story of the early bombardment of Earth," study lead author William Bottke, a planetary scientist at the Southwest Research Institute in Boulder, Colorado, told Space.com.
However, the precise timeline of this giant impact event is under dispute. The ages of the most ancient lunar samples the Apollo astronauts brought back are still debated, since these samples have typically been battered and heated by subsequent cosmic impacts.
"To understand the formation and evolution of our world as well as those in the inner solar system, we need to understand the timing of major events during the planet-formation era," Bottke said.
To find out more about this giant impact, scientists developed a computer model of the event. They found that the impact not only created a disk of debris near Earth that formed the moon, but it also ejected huge amounts of rubble — as much as several percent of Earth's mass — away from Earth and the moon.
The simulations found that numerous fragments from the moon-forming impact — hundreds of millions of which were at least a mile long — blasted the asteroid belt, striking asteroids there at speeds of more than 22,370 mph, more than twice as fast as typical crashes in the belt. These collisions from the moon-forming impact would have generated superheated material, the researchers said.
"In an explosion, there is often collateral damage, where nearby buildings and innocent bystanders are affected," Bottke said. "Investigators can learn about the explosive device and the explosion itself by studying what happened to people, infrastructure, and whether trace amounts of the explosive device can be found among the blast damage. Here, the 'innocent bystanders' were the main-belt asteroids."
Collisions against these asteroids in more recent times returned these remnants to Earth in stony meteorites, which the scientists now have analyzed and used to date the age of the impact.
"In a sense, the asteroid belt has been an eyewitness to multiple 'drive-by shootings' from the earliest time in solar system history," Bottke said. "By reading the traces left behind, we can use asteroid samples to tell us who did it, when they did it and how they did it."
The researchers deduced that the moon-forming impact occurred about 4.47 billion years ago, in agreement with many previous estimates.
"We can now use asteroids, for the first time, to tell us about many of the major events that took place in the inner solar system during the planet-formation era," Bottke said. "This gives us a new window on a time period which has been virtually unknown up to now."
This research "raises the intriguing possibility that trace amounts of the primordial Earth or moon-forming impactor called Theia may still be found on asteroids today, or possibly within some of our meteorites," Bottke said. "It may be simply a matter of looking and asking the right questions. Finding these materials would be one of the Holy Grails of geology — we have no rocks older than 4 billion years old on Earth, and no one knows the exact nature of the original building blocks of our planet."
If future research can uncover examples of this impact in asteroid samples, "possibly by getting them from an asteroid sample return mission like OSIRIS-REx, we would have one of the key pieces of the puzzle explaining why our world is the way it is, and what has changed since its infancy," Bottke said.
The scientists detailed their findings in the April 17 issue of the journal Science.
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