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WORLD CHANGING IDEAS

Ever been to a green sand beach? The newest geohack to fight climate change

Project Vesta is conducting an experiment by spreading a green mineral on beaches, where its interaction with the waves will pull carbon from the air.

Ever been to a green sand beach? The newest geohack to fight climate change

[Photo: Project Vesta]

BY Adele Peters3 minute read

On a beach in the Caribbean, a nonprofit called Project Vesta will soon begin testing a radical new way to fight climate change that involves spreading ground-up olivine—a cheap green mineral—over the sand, where ocean waves will break down the mineral, which in turn will pull CO2 from the air. “Our vision is to help reverse climate change by turning a trillion tons of carbon dioxide into rock,” says Tom Green, executive director of Project Vesta.

The idea is to speed up a natural process that normally takes place very slowly, over geological time. “When rain falls on volcanic rocks, those rocks dissolve a little bit, and it triggers a chemical reaction that pulls carbon dioxide out of the atmosphere and into the water as a molecule called bicarbonate,” Green says. Grinding up olivine, and then spreading it on beaches where ocean waves can further break it down, triggers the same chemical reaction that pulls CO2 out of the air. In the water, marine organisms use the bicarbonate to build shells, and it will eventually end up as limestone on the floor of the ocean.

[Photo: Project Vesta]

Past studies have theorized that the process works, but until now, no one has attempted to actually do it on beaches. “About 30 years of scientific research has gone into this, including a lot of theoretical work, a lot of lab experiments,” Green says. “Where we came along was to say, why is this stuck in the lab? We need real-life beach experiments to prove that this actually works in the wild . . . We exist to cross that chasm between the world of academia, which was doing a lot of theoretical experiments, and ultimately, the government and privately funded rollout.”

The nonprofit came out of a think tank called Climitigation that worked to identify solutions for climate change that had large-scale potential but little investment so far. “This particular technology was the one that really bubbled to the top of the list as having really a lot of potential to help reverse climate change, and having had relatively little investments that have gone into it,” he says. Project Vesta now has one early funder: Stripe, the credit card processing company, which pledged last year to begin spending $1 million a year on “negative emissions,” or carbon removal technologies. The nonprofit is now working to raise another $1.5 million for its early experiments.

[Image: Project Vesta]
There are potential ecological challenges that could come from spreading a rock on beaches where it wouldn’t naturally exist. Some critics raise the possibility that the olivine could release heavy metals such as nickel, although Green says that nickel released into the water is not bioavailable, meaning that it shouldn’t impact marine species. But the initial pilot will closely monitor metal concentrations in the water, sand, and tissues of local organisms, as it seeks to fully understand all of the impacts of the intervention. It’s possible that the process may benefit marine life because it also helps fight ocean acidification; excess CO2 is making the ocean so acidic that the shells of animals like the Dungeness crab arebeginning to dissolve, but the bicarbonate produced by weathering rock helps reduce acidity.

[Photo: Project Vesta]
Later this year, pending some coronavirus-related delays and additional fundraising, the nonprofit plans to begin testing the process at a cove on an undisclosed Caribbean island, and it will compare the results to another nearby cove without the treatment. While it still remains to be proven, if it works, it has some advantages over other approaches for removing carbon. Newdirect air capture facilitiesare expensive; restoring forests can help, but isn’t necessarily a permanent form of carbon capture if forests later burn or trees are cut down. The nonprofit projects that olivine can be mined and brought to beaches at a cost of $10 per ton of carbon captured. Ocean waves naturally do the rest of the work. “That would be by far the cheapest permanent method of carbon capture,” he says. “And it’s also a way that’s very scalable, because once we’ve completed our experiments, we’ll have the blueprint, and we’ll be able to say to any government, any company in the world, here’s how you do it.”

If it finds proof that the process works, Project Vesta plans to share open-source instructions to replicate. Done at scale on beaches and in the shallow water on continental shelves, it could make a major difference. “If we spread olivine over 2% of the world’s shelf sea, then that will be enough to capture 100% of human emissions,” Green says.

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ABOUT THE AUTHOR

Adele Peters is a senior writer at Fast Company who focuses on solutions to climate change and other global challenges, interviewing leaders from Al Gore and Bill Gates to emerging climate tech entrepreneurs like Mary Yap. She contributed to the bestselling book "Worldchanging: A User's Guide for the 21st Century" and a new book from Harvard's Joint Center for Housing Studies called State of Housing Design 2023 More


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