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— Earth's core deprived of oxygen — The composition of the Earth's core remains a mystery. Scientists know that the liquid outer core consists mainly of iron, but it is believed that small amounts of some other elements…
— Human, artificial intelligence join forces to pinpoint fossil locations — In 1991, a team led by Washington University in St. Louis palaeoanthropologist Glenn Conroy, PhD, discovered the fossils of the first - and still the only - known pre-human ape ever…
— Palaeontologist describes large nest of juvenile dinosaurs, first of their genus ever found — A nest containing the fossilised remains of 15 juvenile Protoceratops andrewsi dinosaurs from Mongolia has been described by a University of Rhode Island palaeontologist, revealing…
— Researchers pinpoint date and rate of Earth's most extreme extinction — It's well known that Earth's most severe mass extinction occurred about 250 million years ago. What's not well known is the specific time when the extinctions occurred. A team of researchers…
— Archeologists investigate Ice Age hominins' adaptability to climate change — Computational modelling that examines evidence of how hominin groups evolved culturally and biologically in response to climate change during the last Ice Age also bears new insights…
— Research suggests strong Indian crust thrust beneath the Tibetan Plateau — For many years, most scientists studying Tibet have thought that a very hot and very weak lower and middle crust underlies its plateau, flowing like a fluid. Now, a team of researchers…
— Did dinosaurs have lice? Researchers say it's possible — A new study louses up a popular theory of animal evolution and opens up the possibility that dinosaurs were early - perhaps even the first - animal hosts of lice…
When continents formed
The continental crust is the principal record of conditions on the Earth for the last 4.4 billion years. Its formation modified the composition of the mantle and the atmosphere, it supports life, and it remains a sink for carbon dioxide through weathering and erosion. The continental crust therefore has had a key role in the evolution of the Earth, and yet the timing of its generation remains the topic of considerable debate.
It is widely believed that the juvenile continental crust has grown from the depleted upper mantle. One common way to assess when new crust was formed is to determine the radiogenic isotope composition of any crustal sample, and to compare its isotope signature with that of the depleted mantle. In other words, radiogenic isotopes can be used to calculate 'model ages' of crust formation, which represent the time since a crustal sample was separated from its mantle source.
The concept of 'model age' has been widely used in crustal evolution studies for the last three decades. However it is increasingly clear that using the isotope composition of the depleted mantle as a reference for the calculation of model ages of continental crust generation can lead to incomplete interpretations.
In a paper published today in Science, Dr Bruno Dhuime of Bristol's School of Earth Sciences and colleagues describe a new methodology for the calculation of model ages, based on the isotope composition of the average new continental crust.
Dr Dhuime said: 'Ages calculated this way are significantly younger than model ages calculated from the isotope composition of the depleted mantle. New ages obtained are more consistent with the geological record, which opens new perspectives in crustal evolution studies based on radiogenic isotopes.'
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