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Giant asteroid lets off steam Ceres, the largest asteroid in the solar system, lets off steam
(about 17 hours later)
Astronomers have spotted jets of steam coming from opposite sides of the largest asteroid in the solar system. The twin plumes of water vapour erupting from the space rock were noticed during a series of observations with the Herschel Space Telescope between October 2012 and March last year.Astronomers have spotted jets of steam coming from opposite sides of the largest asteroid in the solar system. The twin plumes of water vapour erupting from the space rock were noticed during a series of observations with the Herschel Space Telescope between October 2012 and March last year.
Researchers said the steam was produced either by the warmth of the sun vaporising ice beneath the surface, or a form of volcanic activity that is forcing water out of the asteroid's warm interior.Researchers said the steam was produced either by the warmth of the sun vaporising ice beneath the surface, or a form of volcanic activity that is forcing water out of the asteroid's warm interior.
The scientists' calculations show that Ceres, technically a dwarf planet, releases around 21 tonnes of water vapour every hour from two dark patches on the surface. The amount is small for a ball of rock that measures 950km across and has roughly the same surface area as India.The scientists' calculations show that Ceres, technically a dwarf planet, releases around 21 tonnes of water vapour every hour from two dark patches on the surface. The amount is small for a ball of rock that measures 950km across and has roughly the same surface area as India.
"Asteroids have been suggested, along with comets, as a possible source of the water on Earth," said Michael Küppers, a planetary scientist at the European Space Astronomy Centre in Villanueva de la Cañada in Spain. "Our detection of water on Ceres makes it more plausible that Earth's water could have come from impacts from these bodies.""Asteroids have been suggested, along with comets, as a possible source of the water on Earth," said Michael Küppers, a planetary scientist at the European Space Astronomy Centre in Villanueva de la Cañada in Spain. "Our detection of water on Ceres makes it more plausible that Earth's water could have come from impacts from these bodies."
The Italian monk Giuseppe Piazzi discovered Ceres by accident on New Year's Day in 1801 while he was cataloguing stars in the constellation of Taurus. Piazzi named the rock – the first object discovered in the asteroid belt – after the Roman goddess of corn and harvests.The Italian monk Giuseppe Piazzi discovered Ceres by accident on New Year's Day in 1801 while he was cataloguing stars in the constellation of Taurus. Piazzi named the rock – the first object discovered in the asteroid belt – after the Roman goddess of corn and harvests.
For the latest observations, reported in Nature, Küppers and his colleagues peered at Ceres through the European Space Agency's Herschel infra-red space telescope. They watched the comet for 2.5 hours on each of two days in October 2011, and for 10 hours in March 2013.For the latest observations, reported in Nature, Küppers and his colleagues peered at Ceres through the European Space Agency's Herschel infra-red space telescope. They watched the comet for 2.5 hours on each of two days in October 2011, and for 10 hours in March 2013.
The telescope measured heat coming from the asteroid's surface and found that it lessened when the body was obscured by eruptions of water vapour. On the third day of observations, the astronomers took measurements as the asteroid completed a full revolution. From this, they concluded that water vapour was coming from two dark patches of ground on the asteroid's surface.The telescope measured heat coming from the asteroid's surface and found that it lessened when the body was obscured by eruptions of water vapour. On the third day of observations, the astronomers took measurements as the asteroid completed a full revolution. From this, they concluded that water vapour was coming from two dark patches of ground on the asteroid's surface.
The asteroid was 2.7 AU (2.7 times the mean distance between the sun and Earth) from the sun when the astronomers made the observations. It was spinning about an axis perpendicular to the line of sight from the telescope, and made one full revolution every nine hours. The asteroid was 300 million kilometres away when the astronomers made the observations. It was spinning about an axis perpendicular to the line of sight from the telescope, and made one full revolution every nine hours.
To work out how much water the asteroid was releasing, the scientists looked at how much infra-red radiation from the rock was absorbed by the vapour plumes. They calculated that the asteroid lost at least one hundred million billion billion molecules of water a second. Or 6kg.To work out how much water the asteroid was releasing, the scientists looked at how much infra-red radiation from the rock was absorbed by the vapour plumes. They calculated that the asteroid lost at least one hundred million billion billion molecules of water a second. Or 6kg.
Küppers said that most of the water vapour released by the asteroid was lost in space, with perhaps 20% falling back on to the surface of the rock. "I would not expect much of an atmosphere to form around Ceres," he said.Küppers said that most of the water vapour released by the asteroid was lost in space, with perhaps 20% falling back on to the surface of the rock. "I would not expect much of an atmosphere to form around Ceres," he said.
The dark patches of ground on Ceres might be craters that reach down to an icy layer that is not exposed on the rest of the asteroid. Or they may simply be made from darker material that absorbs more heat from the sun, causing surface ice to vaporise more readily.The dark patches of ground on Ceres might be craters that reach down to an icy layer that is not exposed on the rest of the asteroid. Or they may simply be made from darker material that absorbs more heat from the sun, causing surface ice to vaporise more readily.
"It's quite fascinating what's happening on Ceres," said Fred Taylor, Halley professor of physics at Oxford University. "Either water is escaping from inside, which can happen if you have heat in the interior, or it is coming from icy deposits on or near the surface.""It's quite fascinating what's happening on Ceres," said Fred Taylor, Halley professor of physics at Oxford University. "Either water is escaping from inside, which can happen if you have heat in the interior, or it is coming from icy deposits on or near the surface."
"It's a tribute to the observers that they can see these tiny amounts of water," Taylor added. "Ceres is a major member of the solar system and learning about it is intriguing. You never go wrong with new knowledge.""It's a tribute to the observers that they can see these tiny amounts of water," Taylor added. "Ceres is a major member of the solar system and learning about it is intriguing. You never go wrong with new knowledge."
The direct detection of water on Ceres adds weight to an idea of how objects have moved around in the solar system. The asteroid belt where Ceres orbits marks an effective "snow line" in the solar system. Objects that formed inside the snowline tend to be rocky and dry, while those that formed outside are icy. The discovery of water on Ceres suggests that some icy bodies that form beyond the snow line might gradually make their way into the asteroid belt.The direct detection of water on Ceres adds weight to an idea of how objects have moved around in the solar system. The asteroid belt where Ceres orbits marks an effective "snow line" in the solar system. Objects that formed inside the snowline tend to be rocky and dry, while those that formed outside are icy. The discovery of water on Ceres suggests that some icy bodies that form beyond the snow line might gradually make their way into the asteroid belt.
Writing in an accompanying article in the journal, Humberto Campins and Christine Comfort at the University of Central Florida say that the movement of giant planets in the early solar system might have disturbed the orbits of asteroids and comets, which then crashed into the Earth and moon.Writing in an accompanying article in the journal, Humberto Campins and Christine Comfort at the University of Central Florida say that the movement of giant planets in the early solar system might have disturbed the orbits of asteroids and comets, which then crashed into the Earth and moon.
"These small bodies delivered organic molecules and water to Earth. Hence, early impacts by asteroids and comets might have played a considerable part in the origin and evolution of life on our planet.""These small bodies delivered organic molecules and water to Earth. Hence, early impacts by asteroids and comets might have played a considerable part in the origin and evolution of life on our planet."
• This article was corrected on 22 January 2014. The original stated that the asteroid was three million kilometres away. This has been corrected. • This article was amended on 22 January 2014. The original stated that the asteroid was three million kilometres away. This has been corrected.