Diamonds may not be as rare as once believed, but this
finding in a new Johns Hopkins University research report won't mean deep
discounts at local jewellery stores.
"Diamond formation in the deep Earth, the very deep
Earth, may be a more common process than we thought," said Johns Hopkins
geochemist Dimitri A. Sverjensky, whose article co-written with doctoral
student Fang Huang appears today in the online journal Nature Communications.
The report says the results 'constitute a new quantitative theory of diamond
formation,' but that does not mean it will be easier to find gem-quality
diamonds and bring them to market.
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| "Rough diamond" by Unknown USGS employee - Original source: USGS "Minerals in Your World" website. |
Using a chemical model, Sverjensky and Huang found that
these precious stones could be born in a natural chemical reaction that is
simpler than the two main processes that up to now have been understood to
produce diamonds. Specifically, their model - yet to be tested with actual
materials - shows that diamonds can form with an increase in acidity during
interaction between water and rock.
The common understanding up to now has been that diamonds
are formed in the movement of fluid by the oxidation of methane or the chemical
reduction of carbon dioxide. Oxidation results in a higher oxidation state, or
a gain of electrons. Reduction means a lower oxidation state, and collectively
the two are known as 'redox' reactions.
"It was always hard to explain why the redox reactions
took place," said Sverjensky, a professor in the Morton K. Blaustein
Department of Earth and Planetary Sciences in the university's Krieger School
of Arts and Sciences. The reactions require different types of fluids to be
moving through the rocks encountering environments with different oxidation
states.
The new research showed that water could produce diamonds as
its pH falls naturally - that is, as it becomes more acidic - while moving
from one type of rock to another, Sverjensky said.
The finding is one of many in about the last 25 years that
expands scientists' understanding of how pervasive diamonds may be, Sverjensky
said.
"The more people look, the more they're finding
diamonds in different rock types now," Sverjensky said. "I think
everybody would agree there's more and more environments of diamond formation
being discovered."
Nobody has yet put a number on the greater abundance of
diamonds, but Sverjensky said scientists are working on that with chemical
models. It's impossible to physically explore the great depths at which
diamonds are created: roughly 90 to 120 miles below the Earth's surface at
intense pressure and at temperatures about 1,650 to 2,000 degrees Fahrenheit.
The deepest drilling exploration ever made was about 8 or 9
miles below the surface, he said.
If the study doesn't shake the diamond markets, it promises
to help shed light on fluid movement in the deep Earth, which helps account for
the carbon cycle on which all life on the planet depends.
"Fluids are the key link between the shallow and the
deep Earth," Sverjensky said. "That's why it's important."
This research was supported by grants from the Sloan
Foundation through the Deep Carbon Observatory (Reservoirs and Fluxes and
Extreme Physics and Chemistry programs) and by a U.S. Energy Department grant,
DE-FG-02-96ER-14616.
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