Adding clay materials to compost is a low-cost solution to reduce CO2 in the atmosphere while boosting soil fertility.
Environmental researchers have developed a low-cost, novel solution for reducing carbon in the atmosphere while improving soil fertility, using natural materials.
Professor Nanthi Bolan from The University of South Australia presented cutting-edge research to the CleanUp 2011 conference in Adelaide, which shows that adding compost containing clay materials to soil can help lock up carbon – while increasing fertility.
“Traditional ways to lower carbon emission while increasing soil fertility include spreading organic wastes, such as composts and manures, on agricultural land - but research has shown that these degrade quickly,” he says. “This results in the release of carbon dioxide.”
Prof. Bolan explains that another popular method in recent times involves converting organic wastes to biochar by burning, which turns carbon into a form that cannot easily escape back into the atmosphere.
“However, biochar production, especially in large amounts, takes a lot of energy. Burning it can also release other greenhouse gases, such as carbon monoxide and methane, into the air. At the same time it will also destroy precious plant nutrients such as nitrogen,” he says.
“Our challenge was to come up with a method that will allow us to tie carbon added through manures and composts to the soil while keeping their fertiliser value. So we tried co-composting manures and composts with compounds such as iron oxide, aluminium oxide and allophane clay, and spreading this mixture on agricultural soils.
“These compounds are easily obtained from nature, especially allophane clay, which can be found in locations that contain volcanic ash.”
The researchers found the compost enriched with clay not only locked up more carbon, it also contained more nutrients to fertilise the crops.
Prof. Bolan says that although the compost has a shorter life than biochar in soil, avoiding pyrolysis of manure and compost to produce biochar can save their fertiliser value and prevent the emission of other greenhouse gases.
“The long-term carbon storage function of biochars contradicts their fertiliser value, which requires that certain biochar materials be biodegradable. Our method, by co-composting of the organic material with clay materials, has proven to effectively stabilise soil, and can add to the long-term soil carbon pool.
“Adding these materials to compost means that farmers only need to buy these ‘value added’ composts and spread it on their soil. Our next step is to find practical ways to produce large quantities of this material, and identify the ideal quantities for binding carbon and retaining fertility.”
Editor's Note: Original news release can be found here.