Scientific breakthrough might assist pinpoint treasured diamond mines

Jul 28, 2023 at 1:41 AM
Scientific breakthrough might assist pinpoint treasured diamond mines

Scientists have paved the way in which for future discoveries of uncommon diamonds after fixing why they “erupt” within the Earth’s floor.

The prized jewels, that are tons of of tens of millions and even billions of years previous, have lengthy been identified to type below nice strain and are usually present in a sort of volcanic rock known as kimberlite.

But their path to the floor was extra of a puzzle – till now.

A crew of researchers from the University of Southampton discovered the driving power is the breakup of tectonic plates.

These large slabs of rock, that are chunks of the Earth’s crust, power the era and eruption of diamond-rich magmas from deep contained in the planet.

Dr Tom Gernon, affiliate professor of Earth science at Southampton, mentioned the “cyclical” sample of those diamond eruptions mimicked the rhythm of the supercontinents, which assemble and break up over time.

The most up-to-date supercontinent was Pangaea, which existed about 335 million years in the past and was made up of each continent that at the moment exists on Earth.

EMBARGOED TO 1600 WEDNESDAY JULY 26 Undated handout photo issued by the University of Southampton of heavy machinery operating within a major diamond mine in South Africa. The team of researchers, led by the University of Southampton, have discovered that the breakup of tectonic plates is the main driving force for the generation and eruption of diamond-rich magmas from deep inside the Earth. Diamonds are hundreds of millions or even billions years old and are formed under great pressure. Issue
Image:
A significant diamond mine in South Africa

Dr Gernon’s crew, which additionally included researchers from Birmingham and Leeds universities, used statistical evaluation and machine studying – a subject of AI the place computer systems are taught to make predictions based mostly on knowledge – to look at the hyperlink between continental break-up and kimberlite formations.

Birmingham’s Dr Stephen Jones, the examine’s co-author, in contrast it to a “domino effect”.

The scientists discovered most kimberlite volcano eruptions occurred 20 to 30 million years after Pangaea broke up, regularly migrating from the perimeters of continents in the direction of the interiors.

They then discovered the Earth’s mantle – the layer between the crust and the core – was disrupted by “rifting”, when two tectonic plates transfer away from one another.

This sees chunks of continental crust sink into the mantle under, eradicating substantial quantities of rock – tens of kilometres thick – from the bottom of the continental plate.

Dr Gernon mentioned: “This process brings together the necessary ingredients in the right amounts to trigger just enough melting to generate kimberlites.”

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EMBARGOED TO 1600 WEDNESDAY JULY 26 Undated handout photo issued by the University of Southampton of a diamond ore rock (kimberlite) showing dark crystals (olivine) and fragments of rock that were formed during explosive volcanic eruptions. The team of researchers, led by the University of Southampton, have discovered that the breakup of tectonic plates is the main driving force for the generation and eruption of diamond-rich magmas from deep inside the Earth. Diamonds are hundreds of millions o
Image:
Diamond ore rock (kimberlite) exhibiting darkish crystals and fragments of rock fashioned throughout volcanic eruptions

The scientists say their findings assist them perceive the places and timings of previous volcanic eruptions, and subsequently find out how to find potential diamond deposits.

The examine was printed within the journal Nature.