Palaeontologist Sankar Chatterjee claims he has found the answer to how life began on earth
An Indian-origin scientist claims to have solved the mystery of how life on earth exactly began about 4 billion years ago after studying three sites containing the world’s oldest fossils.
According to Sankar Chatterjee, a Texas Tech University palaeontologist, meteorite bombardment left large craters on earth that contained water and chemical building blocks for life, which ultimately led to the first organisms.
How life began on earth has baffled humans for millennia.
Dr. Chatterjee, who was born in Kolkata, believes he has found the answer by connecting theories on chemical evolution with evidence related to our planet’s early geology. “This is bigger than finding any dinosaur. This is what we have all searched for — the Holy Grail of science,” he said.
Thanks to regular and heavy comet and meteorite bombardment of earth’s surface during its formative years 4 billion years ago, the large craters left behind not only contained water and the basic chemical building blocks for life, but also became the perfect crucible to concentrate and cook these chemicals to create the first simple organisms. Dr. Chatterjee’s research suggests meteorites can be givers of life as well as takers. He said it was likely that meteor and comet strikes brought the ingredients and created the right conditions for life on our planet.
By studying three sites containing the world’s oldest fossils, he believes he knows how the first single-celled organisms formed in hydrothermal crater basins. “When the earth formed some 4.5 billion years ago, it was a sterile planet inhospitable to living organisms,” Dr. Chatterjee said, going on to add: “It was a seething cauldron of erupting volcanoes, raining meteors and hot, noxious gasses. One billion years later, it was a placid, watery planet teeming with microbial life — the ancestors to all living things.”
Dr. Chatterjee presented his findings at the Annual Meeting of the Geological Society of America in Denver.