Calculations suggest that wet and dry cycles bonded basic molecular building blocks in the ponds' nutrient-rich broth into self-replicating RNA molecules that constituted the first genetic code for life on the planet.
Researchers from McMaster University in Canada and Max Planck Institute in Germany based their conclusion on exhaustive research and calculations drawing in aspects of astrophysics, geology, chemistry, biology and other disciplines.
Available evidence suggests that life began when the Earth was still taking shape, with continents emerging from the oceans, meteorites pelting the planet - including those bearing the building blocks of life - and no protective ozone to filter the Sun's ultraviolet rays.
"Each step led very naturally to the next. To have them all lead to a clear picture in the end is saying there's something right about this," said Pudritz.
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"In order to understand the origin of life, we need to understand Earth as it was billions of years ago. As our study shows, astronomy provide a vital part of the answer," said Thomas Henning, from the Max Planck Institute for Astronomy.
"The details of how our solar system formed have direct consequences for the origin of life on Earth," said Henning.
The combination of wet and dry conditions was necessary for bonding, researchers said.
In some cases, favorable conditions saw some of those chains fold over and spontaneously replicate themselves by drawing other nucleotides from their environment, fulfilling one condition for the definition of life.
Those polymers were imperfect, capable of improving through Darwinian evolution, fulfilling the other condition.
That rudimentary form of life would give rise to the eventual development of DNA, the genetic blueprint of higher forms of life, which would evolve much later.
"DNA is too complex to have been the first aspect of life to emerge. It had to start with something else, and that is RNA," Pudritz said.
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