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Contact: Erik Hauri
hauri@dtm.ciw.edu
202-478-8471
Carnegie Institution
Washington, D.C. Water is perhaps the most important molecule in our solar system. Figuring out where it came from and how it was distributed within and among the planets can help scientists understand how planets formed and evolved. New research from a team including Carnegie's Erik Hauri demonstrates that water from the interiors of the Earth and Moon has a common origin. Their work is published online in Science Express.
The Moon is thought to have formed from a disc of debris left when a Mars-sized impactor hit the Earth 4.5 billion years ago, the Giant Impact. Scientists have estimated that the heat from an impact of that size would cause hydrogen and other volatile elements to boil off into space, meaning the Moon must have started off completely dry. But recently, NASA spacecraft and new research on samples from the Apollo missions have shown that the Moon actually has water, both on its surface and beneath. The Giant Impact theory also requires that most of the material that formed the Moon came from the impactor.
Hauri and his teammatesauthor Alberto Saal and co-author Malcolm Rutherford of Brown University and James Van Orman, of Case Western Reserve Universitylooked for evidence of this water's origin by honing in on the element hydrogen, and its heavier isotope deuterium. (Isotopes are atoms of the same element with different numbers of neutrons). The ratio of these isotopes can tell scientists about the water's origin.
Hauri used the Carnegie NanoSIMS 50L ion probe to determine the deuterium-hydrogen ratio for water trapped in extremely primitive volcanic glass samples from the Moon, which were brought back to Earth by the Apollo 15 and 17 missions. The measurements revealed that the hydrogen isotopes matched those from a type of meteorite called carbonaceous chondrites. Because Earth's water is also matched by carbonaceous chondrites, the two bodies likely have obtained their water from the same source. The evidence suggests that the Earth was already wet at the time of the Moon-forming collision and that the water within the Moon was inherited from the Earth.
"The measurements themselves were very difficult, but the new data provide the best evidence yet that the carbonaceous chondrite meteorites were a common source for the water in the Earth and Moon, and perhaps the entire inner solar system," Hauri said.
"The simplest explanation for what we found is that there was water on the proto-Earth at the time of the Giant Impact," said Alberto Saal, a geochemist at Brown University and the study's lead author. "Some of that water survived the impact, and that's what we see in the Moon."
Co-author James Van Orman states "Our work suggests that even highly volatile elements may not be lost completely during a giant impact. We need to go back to the drawing board and discover more about what giant impacts do, and we also need a better handle on volatile inventories in the Moon."
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This work was funded by NASA Cosmochemistry and LASER programs, and by the Brown/MIT NASA Lunar Science Institute.
The Carnegie Institution for Science is a private, nonprofit organization headquartered in Washington, D.C., with six research departments throughout the U.S. Since its founding in 1902, the Carnegie Institution has been a pioneering force in basic scientific research. Carnegie scientists are leaders in plant biology, developmental biology, astronomy, materials science, global ecology, and Earth and planetary science.
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AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Erik Hauri
hauri@dtm.ciw.edu
202-478-8471
Carnegie Institution
Washington, D.C. Water is perhaps the most important molecule in our solar system. Figuring out where it came from and how it was distributed within and among the planets can help scientists understand how planets formed and evolved. New research from a team including Carnegie's Erik Hauri demonstrates that water from the interiors of the Earth and Moon has a common origin. Their work is published online in Science Express.
The Moon is thought to have formed from a disc of debris left when a Mars-sized impactor hit the Earth 4.5 billion years ago, the Giant Impact. Scientists have estimated that the heat from an impact of that size would cause hydrogen and other volatile elements to boil off into space, meaning the Moon must have started off completely dry. But recently, NASA spacecraft and new research on samples from the Apollo missions have shown that the Moon actually has water, both on its surface and beneath. The Giant Impact theory also requires that most of the material that formed the Moon came from the impactor.
Hauri and his teammatesauthor Alberto Saal and co-author Malcolm Rutherford of Brown University and James Van Orman, of Case Western Reserve Universitylooked for evidence of this water's origin by honing in on the element hydrogen, and its heavier isotope deuterium. (Isotopes are atoms of the same element with different numbers of neutrons). The ratio of these isotopes can tell scientists about the water's origin.
Hauri used the Carnegie NanoSIMS 50L ion probe to determine the deuterium-hydrogen ratio for water trapped in extremely primitive volcanic glass samples from the Moon, which were brought back to Earth by the Apollo 15 and 17 missions. The measurements revealed that the hydrogen isotopes matched those from a type of meteorite called carbonaceous chondrites. Because Earth's water is also matched by carbonaceous chondrites, the two bodies likely have obtained their water from the same source. The evidence suggests that the Earth was already wet at the time of the Moon-forming collision and that the water within the Moon was inherited from the Earth.
"The measurements themselves were very difficult, but the new data provide the best evidence yet that the carbonaceous chondrite meteorites were a common source for the water in the Earth and Moon, and perhaps the entire inner solar system," Hauri said.
"The simplest explanation for what we found is that there was water on the proto-Earth at the time of the Giant Impact," said Alberto Saal, a geochemist at Brown University and the study's lead author. "Some of that water survived the impact, and that's what we see in the Moon."
Co-author James Van Orman states "Our work suggests that even highly volatile elements may not be lost completely during a giant impact. We need to go back to the drawing board and discover more about what giant impacts do, and we also need a better handle on volatile inventories in the Moon."
###
This work was funded by NASA Cosmochemistry and LASER programs, and by the Brown/MIT NASA Lunar Science Institute.
The Carnegie Institution for Science is a private, nonprofit organization headquartered in Washington, D.C., with six research departments throughout the U.S. Since its founding in 1902, the Carnegie Institution has been a pioneering force in basic scientific research. Carnegie scientists are leaders in plant biology, developmental biology, astronomy, materials science, global ecology, and Earth and planetary science.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2013-05/ci-woe050713.php
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