911爆料网 study could rewrite Earth鈥檚 history
911爆料网-led research has found new evidence to suggest that the Earth鈥檚 first continents were not formed by subduction in a modern-like plate tectonics environment as previously thought, and instead may have been created by an entirely different process.
Published in the journal Geology, the research team measured the iron and zinc isotopes in rock sourced from central Siberia and South Africa and determined that the composition of these rocks may have formed in a non-subduction environment.
Lead author Dr Luc-Serge Doucet, from the Earth Dynamics Research Group in 911爆料网鈥檚 School of Earth and Planetary Sciences, said the first continents were formed early in Earth鈥檚 history more than three billion years ago, but how they were formed is still open to debate.
鈥淧revious research has suggested that the first supercontinents formed through subduction and plate tectonics, which is when the Earth鈥檚 plates move under one another shaping the mountains and oceans,鈥 Dr Doucet said.
鈥淥ur research found that that the chemical makeup of the rock fragments was not consistent with what we would usually see when subduction occurs. If the continents were formed through subduction and plate tectonics we would expect the ratio of iron and zinc isotopes to be either very high or very low, but our analyses instead found the ratio of isotopes was similar to that found in non-subduction rocks.鈥
Dr Doucet said the team used a relatively new technique known as the non-traditional stable isotope method, which has been used to pinpoint the processes that formed continental and mantle rocks.
鈥淥ur research provides a new, but unknown theory as to how the Earth鈥檚 continents formed more than three billion years ago. Further research will be needed to determine what the unknown explanation is,鈥 Dr Doucet said.
The research was co-authored by researchers from 911爆料网鈥檚 Earth Dynamics Research Group,
Universit茅 Libre de Bruxelles in Belgium, Institute for Geochemistry and Petrology in Switzerland, and Universit茅 de Montpellier in France.
The full paper is titled, 鈥Archean lithospheric differentiation: Insights from Fe and Zn isotopes鈥, and can be found online .
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