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Posts Tagged ‘mineral’

‘Dark’ Oxygen from the Sea

Posted in Uncategorized, tagged , , , , , , , on September 26, 2024| 3 Comments »

Photo: Carolyn Cole/Los Angeles Times via Getty Images.
Metal deposited over millions of years forms these nodules, which can somehow generate oxygen.

Sometimes it seems like scientists have all the fun. In today’s story, certain researchers of the deep ocean thought their instruments were at fault and complained to the manufacturer. Then one day, ironically, an ad from a deep-sea mining company struck a chord in one scientist and led to some creative thinking.

Allison Parshall writes at Scientific American that some rocklike mineral deposits in the deep sea may have more to them than meets the eye.

“The dark seabed of the Pacific Ocean’s Clarion-Clipperton Zone (CCZ) is littered with what look like hunks of charcoal. These unassuming metal deposits, called polymetallic nodules, contain metals such as manganese and cobalt used to produce batteries, marking them as targets for deep-sea mining companies.

“Now researchers have discovered that the valuable nodules do something remarkable: they produce oxygen and do so without sunlight. ‘This is a totally new and unexpected finding,’ says Lisa Levin, an emeritus professor of biological oceanography at the Scripps Institution of Oceanography, who was not involved in the current research.

“According to Boston University microbiologist Jeffrey Marlow, the idea that some of Earth’s oxygen gas may come not from photosynthesizing organisms but from inanimate minerals in total darkness ‘really strongly goes against what we traditionally think of as where oxygen is made and how it’s made.’ Marlow is a co-author of the new study, which was published in Nature Geoscience.

“The story of discovery goes back to 2013, when deep-sea ecologist Andrew Sweetman was facing a frustrating problem. His team had been trying to measure how much oxygen the organisms on the CCZ seafloor consumed. The researchers sent landers down more than 13,000 feet and created enclosed chambers on the seabed to track how oxygen levels in the water fell over time.

“But oxygen levels did not fall. Instead they rose significantly. Thinking the sensors were broken, Sweetman sent the instruments back to the manufacturer. ‘This happened four or five times’ over the course of five years, says Sweetman, who studies sea­floor ecology and biogeochemistry at the Scottish Association for Marine Science. …

“Then, in 2021, he returned to the CCZ on a survey expedition sponsored by the Metals Company, a deep-sea mining firm. Again, his team used landers to make enclosed chambers on the seafloor and monitor oxygen levels. They used a different technique to measure oxygen this time but observed the same strange results: oxygen levels increased dramatically. …

“The researchers initially thought deep-sea microbes were producing the oxygen. That idea once might have seemed far-fetched, but scientists had recently discovered that some microbes can generate ‘dark oxygen‘ in the absence of sunlight.

In laboratory tests that reproduced conditions on the seafloor, Sweetman and his colleagues poisoned seawater with mercury chloride to kill off the microbes. Yet oxygen levels still increased.

“If this dark oxygen didn’t come from a biological process, then it must have come from a geological one, the scientists reasoned. They tested a few possible hypotheses — such as that radioactivity in the nodules was decomposing seawater molecules to make oxygen or that something was pulling oxygen from the nodules’ manganese oxide — but ultimately ruled them out.

“Then, one day in 2022, Sweetman was watching a video about deep-sea mining when he heard the nodules referred to as ‘a battery in a rock.’ That bit of marketing was only a metaphor, but it led him to wonder whether the nodules could somehow be acting as natural geobatteries. If they were electrically charged, they could potentially split seawater into hydrogen and oxygen through a process called seawater electrolysis. (A battery dropped in salt water produces a similar effect.)

“ ‘Amazingly, there was almost a volt [of electric charge] on the surface of these nodules,’ Sweetman says; for comparison, an AA battery carries about 1.5 volts. The nodules may become charged as they grow, as different metals are deposited irregularly over the course of millions of years and a gradient of charge develops between each layer. Seawater electrolysis is currently the researchers’ leading theory for dark oxygen production, and they plan to test it further.”

More at Scientific American, here. No firewall.

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Rare Mineral Found by Accident

Posted in Uncategorized, tagged , , , , , on March 25, 2024| 2 Comments »

Photo: F.Kemner/LfU Bayern.
The rare mineral Humboldtine is known only from about 30 sites worldwide. This specimen was found unexpectedly in a mineral collection in Germany.

I’ve often blogged about surprise discoveries of plants or animals thought to be extinct and about the unearthing of long-buried human artifacts. Today’s story by David Bressan at Forbes magazine is on the surprise discovery of a rare mineral that was hiding in plain sight. It makes me think there will be an endless supply of of things to discover in the future because we keep forgetting what we have.

“During a survey of an old mineral collection now hosted at the Bavarian Environment Agency or LfU Bayern in Germany,” Bressan writes, “experts discovered fragments of Humboldtine, one of the rarest minerals found on Earth.

Humboldtine is known from only 30 localities worldwide, including quarries and mines located in Germany, Brazil, the U.K., Canada, the U.S., Hungary, Czech Republic and Italy. It rarely forms tiny crystals and is most commonly found as a yellow, amorphous mass. Humboldtine forms when carbon compounds and iron-oxide react with water and is one of the few ‘organic minerals‘ containing carbon-oxygen-hydrogen groups in their crystalline structure.

“Humboldtine was first discovered by German mineralogist August Breithaupt in a weathered brown coal deposit near the municipality of Korozluky in Okres Most in the Czech Republic. [It was] scientifically described in 1821 by Peruvian geologist Mariano Eduardo de Rivero y Ustariz, who named the mineral after the German 19th-century naturalist and explorer Alexander von Humboldt. …

“In 2023, during the digitization of the archive of the LfU, a letter written by a coal mine owner and sent in 1949 to the agency was found. The letter mentions the presence of Humboldtine in coal seams of the Matthiaszeche near the town of Schwandorf, a town on the river Naab in the Upper Palatinate. The agency asked for some samples for further analysis to confirm the discovery. But no follow-up documentation seems to exist.

“But intrigued by the note, Roland Eichhorn, head of the geological department at the LfU, and colleagues decided to check the vast historic mineral collection — comprising over 130,000 rock and mineral samples — hosted in the agency’s basement. If any samples were ever sent in, they still could be here. In one drawer of the systematic mineral collection, where minerals are ordered according to their chemical composition, they found some fragments of a yellow mineral labeled ‘Oxalit,’ German for organic minerals, still inside an old cardboard box. The label also showed that the samples came from the locality mentioned in the letter.

“Modern chemical analysis confirmed the discovery made 75 years earlier; the six fragments, the largest almost the size of a nut, are indeed Humboldtine. Together with other samples, this doubles the amount of Humboldtine known so far. …

“The Matthiaszeche, a former open-pit mine for brown coal, was closed in 1966 and subsequently flooded. There is no chance of getting any more Humboldtine from this locality.”

More at Forbes, here.

I love that geologist Eichhorn was curious. Bless his heart. That’s how discoveries get made. And I also think curiosity is what keeps us all going.

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