'A fixed reservoir or Earth-like water' was found inside the 'Christmas comet' as it fits past Earth last year and may explain the origins of our planet's oceans, NASA says
- The measurements were taken by SOFIA the 'flying' observatory at high altitude
- It found some comets had the same ratio of 'regular' and 'heavy' water as Earth
- Suggesting that comets delivered the first waters to Earth billions of years ago
- Some of this water then formed the seas and oceans that exists today
The Christmas comet which flew past Earth in December last year contained 'a solid reservoir of Earth-like water' similar to that which is in our oceans today .
NASA scientists claim this backs up the theory that distant space rocks delivered to the first water to earth which is on form oceans and seas.
Water on earth exists in two forms, as regular water and a heavier version called HDO.
Hydrogen with an additional particle, a neutron, is known as isotope and deuterium and the ratio of normal water to deuterium varies.
The ratio on the Christmas Comet is the same as on Earth, indicating they share the same origin.
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Comets colliding with the earth in the early days of our solar system may have delivered the first water to our planet that formed its seas and oceans NASA's flying Stratospheric Observatory for Infrared Astronomy, known as SOFIA, is the world's largest telescope and took measurements of the comet.
It collected data from comet 46P / Wirtanen which made a close approach to the Earth's surface in December, and was dubbed the Christmas comet.
'We have identified a fixed reservoir or Earth-like water in the outer reaches of the solar system,' said Darek Lis, lead author of the study, in a statement.
WHAT IS DEUTERIUM?
Deuterium is an isotope of water, meaning it has the same amount of protons but an extra neutron compared to regular water.
Naturally, it is often the ratio of water to deuterium that can reveal information.
Deuterium has a natural abundance in Earth's oceans of about one atom in 6,420 or hydrogen.
The observations have made scientists think that can have first delivered water to earth because of the ratio of two types of water molecules to the comet matches that in the Earth's oceans.
Both forms of water exist on earth, but in different ratios, so the fact that this ratio is similar in both the ocean and on comets could suggest the comets delivered some water to Earth.
Previously, this ratio was hard to measure, until more powerful machines like SOFIA. "Measuring this ratio is difficult," NASA said in a statement.
The earth's oceans contain both regular water and a naturally existing 'heavy' water where the hydrogen atom in each water molecule contains and extra particle called a neutron  This weightier version of water naturally exists alongside regular water in the earth's oceans but in a much smaller proportion. The image shows the Christmas comet seen from Earth ” class=”blkBorder img-share” />
This weightier version of water naturally exists alongside regular water in the earth's oceans but in a much smaller proportion. The image shows the Christmas comet seen from Earth
This weightier version of water naturally exists alongside regular water in the earth's oceans but in a much smaller proportion. The image shows the Christmas comet taken by SOFIA
WHAT IS THE CHRISTMAS COMET?
The Christmas comet, or 46P / Wirtanen, the brightest comet of 2018, streaked across the sky at a distance of 7.4 million miles (12 million km) from Earth on Dec 16th.
The bright comet was captured from different angles by NASA's Hubble Space Telescope.
The spacecraft's instrument captured the glow from the comet's coma, a stream like cloud of gas that the comet ejects as It passes through the solar system.
The close fly-by allowed astronomers to study it in detail combines the capabilities of the telescope and NASA's X-rap observatory.
The team said at the time investigate what the comet is made of and how the gases within may be changed when exposed to sunlight and radiation.
The Christmas comet is not actually the color blue, this was applied to high-resolution grayscale exposures during post-processing.
The inner part of a comet's coma is normally not visible from Earth.
'Ground and space telescopes can study this level of detail only when they pass near Earth, and missions to visit comets, like Rosetta, are rare.' Using data from SOFIA, scientists then studied at number of comets and saw that similar water ratio to earth existed in other comets, irrespective or where they came from.
'This could imply that all comets could have a heavy-to-regular water ratio similar to Earth's oceans, and that they could have delivered to large fraction of water to Earth,' said NASA scientists.
Dominique Bockelée- Morvan, scientist at the Paris Observatory and the French National Center for Scientific Research and second author of the study, said: 'This is the first time we could relate the heavy-to-regular water ratio or all comets to a single factor.'
Planets form from orbits to star, which look like the disks around a star.
Small pieces of this debris can stick together and grow larger over time, with leftover matter not used in the formation remaining in our solar system, existing large structures such as the Kuiper Belt or Oort cloud.
Scientists have only been able to study this ratio in about a dozen comets since the 1980s.