The first continent was formed by 700 million years earlier than previously thought – News2IN
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The first continent was formed by 700 million years earlier than previously thought

The first continent was formed by 700 million years earlier than previously thought
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Based on the age of the stone of the most ancient continental fragments (called craton) in India, Australia and South Africa studied as part of an international project, researchers have found that the Early Bumi continent began to rise above the ocean of 700 million years earlier than most of the previous estimates.
Led by Priyadarshi Chowdhury, a researcher from the Monash earth school, atmosphere and environment, this study integrates frozen history and craton Archean sediments to show that the stable continental land began to emerge above sea level 3.3 to 3.2 billion years ago – It was more than 700 million years earlier than most models predicting.
Chowdhury, which is an alumnus from Jadavpur University, Kolkata, told Toi: “…
We do not have continents from the beginning of the earth and only have a ocean.
At some point continents began to form and finally rise above the ocean.
The time was initially considered 2.5 billion years ago starting today.
Now, we have strong evidence that the ancient continent, which we learned from Odisha and Jharkhand India (Singhbhum Craton), emerged from a sea of ​​3.2 billion years ago.
Likewise, continents in Australia and Africa The south appeared 3 billion ago.
“Apart from Chowdhury, this research was conducted by seven others, including three more from India: Monash University Subhajit, Jacob A Mulder, Peter a Cawood and Oliver Nebel; Subham Mukherjee from Delhi University; Surjyendu Bhattacharjee from the California Institute of Technology and Ashlea N Wainwright from Melbourne University.
This finding has been published by the Proceedings of the National Academy of Sciences (PNAS).
The researchers said their research was significant because of understanding when and how the subaerial continental crust was first formed very important, because it was likely to play an important role in establishing earth hatred.
Their studies, he said, pushed back time and proposed fundamentally different mechanisms for the earliest continent’s insenster (emerging out of the ocean).
“We have sporadic evidence about the formation of land at the beginning of the history of the earth, but this is the first time we found evidence for the entire continent to rise above sea level so early.
The first continental landmass is very important for the proliferation of early life,” he added.
This land creates a shallow sea habitat that is important for the photosynthetic community and provides a steady supply of bio-essential nutrition through continental weathering and erosion.
Granitoid from Singhhum Craton that appears on the ocean | Credit: Subham Mukherjee / Delhiweathering University of the mainland continent also induces dramatic changes in the initial atmosphere of the earth, ocean, and climate, the researchers said.
“This change is very important for the development of some of the most important metal ore deposits in the world,” said the study writer with Jacob Mulder.
For example, the largest iron ore deposit is formed in the shallow sea that surrounds the new continental crust appears.
On modern Earth, the formation of continental topographic standing high is mainly driven by subduction and tectonic plate collisions.
However, the researchers showed continental emersion 3.2 billion years ago was impossible because of this.
After modeling the Magmatic History of Craton Singhbhum, they suggested Emersion driven by the placement of thick granite bodies during the 200-300 million years that inflating the silica-rich crust, which rose above the sea surrounding.
“This finding challenges the prevailing view that connects the subaerial land on Earth to the tectonic plate,” said the study of Professor Cawof’s proposal, adding that their studies contributed to a better understanding of Timescales and processes where the Archean continental crust was formed and interacted with the system a wider earth.
They concluded that important findings to develop the next generation model to understand the formation and location of metal ore deposits.

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