Scientists from Australia's Curtin University have come out with a scientific explanation as to how the Sun may have played an unexpected role in the formation of water to make ours the "Blue Planet".

The study, published in the Nature Astronomy journal on Monday, made the case that hydrogen ions emitted by the Sun were carried by solar winds onto asteroids that eventually crashed into Earth and were later converted into water.

Australian researchers shed light on Sun's role as water source

Contributing author and director of Curtin University's Space Science and Technology Centre (SSTC) Professor Phil Bland said analysis of existing theories "didn't match with the water found on Earth", which prompted the international team of researchers to search for an explanation of the unaccounted water.

"Our research suggests the solar wind created water on the surface of tiny dust grains and this isotopically lighter water likely provided the remainder of the Earth's water," Bland said.

Previous theory

Previous studies have widely accepted theory for the origin of Earth's water as that the water came from bodies of icy cosmic dust from outside of our solar system. Now, the analysis of dense, near-earth "S-type" asteroids, using samples collected by Japanese space probe Hayabusa over a decade ago, gave this new theory its origin.

Sound Rocket Mission SUMI
SUMI’s instruments are designed to study magnetic fields of the sun’s chromosphere -- a thin layer of solar atmosphere sandwiched between the visible surface, photosphere and its atmosphere, the corona. Hinode, a collaborative mission of the space agencies of Japan, the United States, United Kingdom and Europe, captured these very dynamic pictures of our sun's chromosphere on Jan. 12, 2007. Image credit: JAXA/NASA

"We found contained enough water that, if scaled up, would amount to about 20 litres for every cubic metre of rock," Bland said.

The discovery bears major implications in the understanding of life on Earth, as the prevalence of water, covering over 70 per cent of the Earth's surface, and has been key to the evolution of the planet and the life that has inhabited it.

"How astronauts would get sufficient water, without carrying supplies, is one of the barriers of future space exploration... Astronauts may be able to process fresh supplies of water straight from the dust on a planet's surface, such as the Moon," said lead author Dr. Luke Daly of the University of Glasgow. 

Daly further said that the research could unlock new potential in crewed space travel, for which water supply is a major limiting factor.