“Phytomining” trees can extract metal from the Earth

Can trees sponge metal from the soil? Researchers use an experimental metal farm to find out.

What if you could use trees to soak the metals out of contaminated soil?

This technique, called phytomining, could offer new ways to mine for metals that are more sustainable than the existing, environmentally destructive methods.

What is it: Phytomining is a method of harvesting metal from the soil by growing plants with a lot of biomass in which to accumulate the ore.

These are plants which can take up elements from the soil (at rates) orders of magnitude higher than normal plants.


Alan Baker

These “hyperaccumulators” thrive on metals like gold, copper, and zinc. While all plants need trace elements to grow, the levels contained in hyperaccumulators would typically be toxic to plants.

“These are plants which can take up elements from the soil (at rates) orders of magnitude higher than normal plants,” Alan Baker, a botanist at the University of Melbourne, told RNZ.

The reason these plants evolved the ability to consume large quantities of metal remains a mystery, but it’s a skill humans could harness.

Mining trees: Scientists are trying to find out if farming these plants can be a method for cleaning up former mine sites — and also an eco-friendly alternative to destructive mining.

University of Queensland plant specialist Antony van der Ent looked globally for hyperaccumulating trees and found about 700 species (of the 300,000 known plant species on Earth), primarily concentrated near the equator.

Most of the plants he found feed on nickel, and three species had a 25% concentration of nickel in their sap. Van der Ent says nickel might be the source with the highest potential for phytomining.

Farming metal: Baker and an international team of colleagues launched a “metal farm” in Malaysia five years ago as a proof of concept. The goal was to demonstrate that these trees could be used to mine metals.

Every few months, a farmer would remove a foot of growth from the plants and burn or press the metal out. After a purification process, they had thousands of dollars worth of nickel citrate — about 500 pounds, reports the New York Times.

What happens next: Van der Ent says it is a promising start but not ready for commercialization yet. Since typically nickel mining has a large impact on the environment, phytomining it could be part of the solution, while also being used to clean up old, contaminated mining sites.

“Where you’ve had strip mining for nickel, which is a common practice in tropical regions, you could integrate the metal farming as part of the progress of rehabilitation,” Van der Ent told RNZ.

“Typically rehabilitation costs money, and this is a strategy where you could actually offset some of those costs as part of the rehabilitation program.”

We’d love to hear from you! If you have a comment about this article or if you have a tip for a future Freethink story, please email us at tips@freethink.com.

Related
Here’s how growing plants on the Moon could benefit Earth
Making plants grow on the Moon could be instrumental in helping gardens to grow greener on Earth in the face of climate change.
A banana that doesn’t go bad so fast approved by the Philippines
Billions of bananas are wasted every year, but that may change soon.
Detailed images from space offer clearer picture of drought effects on plants
Researchers are using remote sensing observations to build high-resolution systems to monitor drought from space.
Pest-resistant tomatoes finally available after 30-year wait
New lines of naturally pest-resistant tomatoes could help end farmers’ reliance on pesticides to protect their crops.
Up Next
urine pesticide
Exit mobile version