Carbon infusion
To combat climate change, some farmers—and world leaders—are looking to the soil
Last month, world leaders hashed out a binding agreement in Paris at the 2015 U.N. Climate Change Conference for curbing greenhouse gas emissions. And for the first time, they made the capture of carbon in soil a formal part of the global response to the climate crisis.
“This is a game changer because soil carbon is now central to how the world manages climate change. I am stunned,” said André Leu, president of IFOAM—Organics International, an organization that promotes organic agriculture and carbon farming worldwide.
Leu was referring to the United Nations Lima-Paris Action Agenda, a sort of side deal aimed at “robust global action towards low carbon and resilient societies.” On Dec. 1, countries, businesses and NGOs signed on to a series of new commitments under the agenda, including several on agriculture.
Currently, the Earth’s atmosphere contains about 400 parts per million of carbon dioxide. Like 350.org, Eric Toensmeier, a lecturer at Yale and the author of The Carbon Farming Solution, a book due out in February, says the atmosphere’s carbon dioxide levels must be cut to 350 parts per million or lower to curb climate change.
Toensmeier and Leu are among a growing number of environmental advocates who say one of the best opportunities for drawing carbon back to Earth is for farmers and other land managers to try to sequester more carbon in the soil.
“Reducing emissions is essential, but eventually it still gets us to catastrophic climate change,” said Toensmeier, who attended the Paris talks on behalf of the group Project Drawdown. “The level of emissions in the atmosphere now is already past a tipping point. That means we have to sequester carbon.”
Using photosynthesis, plants draw carbon from the air and deposit it in the soil. And farming is a simple way of growing crops and managing soil that, under the right conditions, encourages the buildup of carbon in the ground. In addition to countering global warming, carbon-rich soil can be more productive and hold water better than soil with lower carbon content.
There are two basic ways for farmers to capture it, says Connor Stedman, an agricultural consultant in New England with the firm AppleSeed Permaculture.
“You can put carbon in soil, and you can put carbon in long-lived perennial plants, especially trees,” Stedman said.
And you can start, according to Torri Estrada, managing director with the Carbon Cycle Institute in the Bay Area, by disturbing the land as little as possible.
In conventional industrial agriculture, the soil is often tilled or plowed to disrupt weeds and prepare the land for planting. But turning the soil this way (or overgrazing animals on rangelands) introduces oxygen to the carbon. The carbon and oxygen then can bond into carbon dioxide—a greenhouse gas.
As food production has intensified, between 50 percent and 80 percent of the world’s soil carbon has been lost, according to researchers at Ohio State University’s Carbon Management and Sequestration Center.
Gabe Brown grows oats, alfalfa, peas, clover and other field crops in North Dakota. He says that when he bought his land in 1991, his soil’s carbon level registered at a dismal 1.9 percent on average. “It was a tan, lifeless powder,” said Brown, who delivers seminars around the nation on carbon farming and has become a sort of guru of the movement.
But then he decided not to till or plow to boost carbon levels in his soil. And his efforts have paid off. “Now, [the soil] looks like black cottage cheese,” he said, adding that his yields are as much as 25 percent greater than those of conventional farms nearby, and his soil is up to 6 percent carbon on average.
According to Stedman, healthy, undisturbed soil rich in organic matter can contain anywhere from 8 percent to 20 percent carbon. In addition to minimal tilling and plowing, another way to sequester carbon in soil is to add compost. Cover crops add carbon, too, and also reduce erosion.
But to make a real dent in the carbon dioxide emissions—and climate change—with carbon farming, Stedman says farmers globally would have to deposit on average just over 25 tons of atmospheric carbon into each acre of the Earth’s arable land. That could take decades. And that assumes carbon emissions could also be halted and that all farmers in the world actually participate. Stedman says that, realistically, since only some farmers will actively try to sequester carbon in coming decades, it may require depositing much more than 25 tons per acre.
There are signs beyond the Lima-Paris Action Agenda that the carbon farming movement is moving forward. The Carbon Cycle Institute is working with local governments to teach the basics of carbon farming to growers and ranchers around California.
In France, the Ministry of Agriculture, Agrifood and Forestry has launched an international campaign to increase soil carbon content.
There are other ways to sequester carbon besides agriculture and forestry, such as capturing emissions from power plants and piping the carbon to underground storage spaces.
But Estrada says doing so by farming makes the most sense.
“Photosynthesis and soil has been working for billions of years,” he said. “It’s the longest running [research and development] project around, so why not use the simple, well-proven one that we know works?”