Fossilized fish could indicate rich deposits of valuable rare-earth metals
Credit: © 2020 Ohta et al.
Rare metals crucial to green industries turn out to have a surprising origin. Ancient global climate change and certain kinds of undersea geology drove fish populations to specific locations. As remains of the fish fossilized, they accumulated valuable elements and these fossil beds became concentrated deposits of such metals. This discovery could aid future prospects for deposits of so-called rare-earth elements in other undersea locations.
Did you know that key components for things like wind turbines, LEDs and rechargeable batteries rely heavily on a group of metals known as rare-earth elements and yttrium (REY)? At present, the world’s supply of these metals mainly comes from mines in China; however, a large deposit near the Japanese island of Minamitorishima could soon help satisfy the ever-increasing demand. But how did the REY deposit get there and why that location?
“That story begins back in time in the Eocene epoch 34.5 million years ago, about halfway between now and the time of the dinosaurs,” said Assistant Professor Junichiro Ohta. “At that time, several things happened that led to the REY deposit. Firstly, vast amounts of nutrients accumulated in the deep ocean. Secondly, the planet underwent cooling which altered sea currents, stirring up these nutrient deposits. The seamounts then caused upwellings of nutrients delivering them to the fish, which thrived as a result.”
Surprisingly, it’s these fish, or rather their fossilized remains around Minamitorishima, that account for the REY deposits. As the fish died and underwent fossilization, REY metals in the environment, which would otherwise remain diffuse, accumulate inside the fossils. The research group had previously made this fish-to-REY deposit connection, but how and when the fossil deposits formed was an open question until now.
“I’m really pleased we made this discovery by looking at fragments of bones and teeth,” said Ohta. “It was a difficult but satisfying task dating the deposits by comparing fossils we uncovered against a database of fossils with known ages. Equally so was another way we dated the deposits, by measuring the ratio of osmium isotopes in seawater trapped in REY-rich mud and comparing those to established records.”
The story of fish that became a useful resource for renewable energy technology is, ironically, parallel to that of the ancient organisms that became oil, which led to the very problems renewable technologies now aim to solve. And how could this study help?
“Based on this new theory for the genesis of REY deposits in the ocean, we can improve the way we find future deposits,” said Ohta. “We can target the feet of large seamounts on the seabed, many of which are distributed from the western North Pacific Ocean to the Central Pacific Ocean, so are in theory accessible to Japan.”
The REY sources by Minamitorishima could sufficiently satisfy current global demand for hundreds of years. However, getting to them may be extremely difficult as the deposit is just over 5 kilometers below sea level, and at present no resource has ever been commercially mined from such a depth. Additional or alternative sources may be useful so improved ways to find them would be a great benefit.
###
Journal article
Junichiro Ohta, Kazutaka Yasukawa, Tatsuo Nozaki, Yutaro Takaya, Kazuhide Mimura, Koichiro Fujinaga, Kentaro Nakamura, Yoichi Usui, Jun-Ichi Kimura, Qing Chang, Yasuhiro Kato. Fish proliferation and rare-earth deposition by topographically induced upwelling at the late Eocene cooling event. Scientific Reports. DOI: 10.1038/s41598-020-66835-8
http://www.
This study was financially supported by the Japan Society for the Promotion of Science (JSPS) through Grants-in-Aid Nos. JP15H05771, JP17H01361, JP16K13895, JP14J10351, JP16J07136, JP15H02148, JP16H01123, and JP18H04372.
Related links
Kato Laboratory – http://egeo1.
Frontier Research Center for Energy and Resources – http://www.
Department of Systems Innovations – http://www.
Graduate School of Engineering – https:/
Research Contacts
Assistant Professor Junichiro Ohta
Frontier Research Center for Energy and Resources, The University of Tokyo
7-3-1 Hongo, Tokyo 113-0033, JAPAN
Tel: +81-90-5602-8454 – Email: [email protected]
Professor Yasuhiro Kato
Frontier Research Center for Energy and Resources, The University of Tokyo
7-3-1 Hongo, Tokyo 113-0033, JAPAN
Tel: +81-3-5841-7022 – Email: [email protected]
Press Contact
Mr. Rohan Mehra
Division for Strategic Public Relations, The University of Tokyo
7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8654, JAPAN
Tel: +81-3-5841-0876 – Email: [email protected]
About the University of Tokyo
The University of Tokyo is Japan’s leading university and one of the world’s top research universities. The vast research output of some 6,000 researchers is published in the world’s top journals across the arts and sciences. Our vibrant student body of around 15,000 undergraduate and 15,000 graduate students includes over 4,000 international students. Find out more at https:/
Media Contact
Assistant Professor Junichiro Ohta
[email protected]
Original Source
https:/
Related Journal Article
http://dx.