Q&A: Is Agriculture the Answer to Climate Change?
David Perry, the CEO of Indigo Ag—a company offering farmers cash for carbon sequestration—is betting on it.
Q&A: Is Agriculture the Answer to Climate Change?
David Perry, the CEO of Indigo Ag—a company offering farmers cash for carbon sequestration—is betting on it.
In the popular imagination, solutions to climate change are often boiled down to reducing fossil fuel use and investing in alternative energy. Some would add underground carbon storage schemes or geoengineering techniques to the list, and perhaps tack on conserving forests and planting trees, as everyone knows this is nature’s way of pulling carbon out of the atmosphere.
But all plants absorb carbon as they photosynthesize, including corn, soybeans, wheat and the other commodity crops that now blanket huge swaths of the planet. And just like the trees in a forest, crops interact with microbes in the soil to produce organic matter, a stable form of underground carbon storage that outlasts the growth and decay of aboveground vegetation. Farmland is—potentially—a vast, inexpensive way to sequester carbon and store it long-term.
The problem is that modern agricultural practices emit far more carbon than they sequester. In addition to emissions from tractor fuel, cow burps and petroleum-based fertilizers and pesticides, common practices such as slash-and-burn, and even old-fashioned tillage, release carbon stored in plants and soils into the atmosphere. But minor tweaks to production methods—including planting cover crops, employing no-till cultivation, and converting to rotational grazing—begin to reverse the flow of carbon from the sky back to the farm.
Estimates of the carbon sequestration capacity of the planet’s farmland range from a quantity sufficient to cancel out current agricultural emissions, on the low end, up to an amount that would offset all global carbon emissions. The good news is that increasing soil carbon is the same as increasing organic matter content, which every gardener knows is the key to a healthy and productive landscape—pest resistance, water absorption and, ultimately, yields all flow from this “black gold.
Switching to climate-friendly growing practices can potentially cut farmers’ cost and boost their yields in the long term, but making the transition to—insert “carbon farming,” “regenerative agriculture,” or the buzzword of your choice here—is difficult for farmers operating on razor-thin profit margins.
This is the business proposition behind the Terraton Initiative at Indigo Ag, a tech company attempting to “disrupt” Big Ag with products like microbe-coated seeds and professional data crunchers who help farmers figure out how to grow more food with fewer chemicals. Indigo Ag, which has attracted $650 million in venture capital since its founding five years ago and is currently valued at $3.5 billion, earned the top spot on CNBC’s Disruptor 50 list in May. That was before they announced their plan to establish the world’s first carbon market dedicated to wholly to agriculture. The goal is to sequester a terraton (a trillion tons) of carbon on farms, paying farmers $15 per ton for the favor.
Sounds amazing, but selling agricultural carbon credits to companies looking to offset their emissions has been tried before, including in California’s cap-and-trade system, with little success. The reasons are myriad, though chief among them is that the price per ton hasn’t been high enough to attract the interest of farmers. Judging from the swarms of farmers who have signed up for the Terraton Initiative since it was launched in June, this time might be different.
Modern Farmer recently spoke with Indigo Ag CEO David Perry about how the Terraton Initiative works, and how he intends to overcome the obstacles that brought down other farm-based carbon trading platforms.
The following interview has been edited and condensed for clarity.
Modern Farmer: You’ve experienced a mad rush of farmers wanting to cash in on carbon. What are the numbers?
David Perry: Our goal was to have about 3 million acres under contract in the first 12 months. We launched on June 12th and within five weeks had interest from farmers farming a total of 3.6 million acres. That’s created an execution challenge on our part, in that we have to scale up much faster than expected. But that’s a good problem to have.
MF: What sort of farmers are signing up?
DP: It’s mostly row crop farms—corn, wheat, soybeans, rice—between 500 and 1000 acres in size, and they’re mostly in the US so far. But we’re also seeing quite a few smaller farm and ranchers, and we’re starting to hear from farmers overseas.
MF: How are you reaching these people?
DP: The amazing thing is that we haven’t really done any sales or marketing yet. People are hearing about it and coming to the website to sign up.
MF: How many acres do you project you need to reach a trillion tons of carbon sequestered?
DP: There are 3.6 billion acres of cultivated land on earth. If you took everyone of those from the current average of about 1 percent soil carbon to about 3 percent, that would equal a trillion tons. It is not necessary to get every acre because some acres will get above three percent, and the 3.6 billion doesn’t include grazing land, which is an even larger number of acres that also has potential to absorb carbon. So there’s a number of ways to get there.
MF: Farmers signed up to produce carbon credits is one thing, buyers of carbon credits is another. Are you attracting customers at a similar scale?
DP: That is a dilemma that is high on my mind. The challenge is how do you get to critical mass on both sides. We’re talking to companies that are already buying carbon credits from other markets, and we are also thinking about how to engage the consumer in a way that is transactional, so that they’re offsetting the carbon emissions of their purchases at the time the purchase is made.
MF: Would that be focused on food products? Perhaps a label that says this bag of bread was produced from wheat grown with X practices, and sequestered X amount of carbon in the process—that kind of thing?
DP: That is something that we’re considering, like a certification that verifies we’ve looked at the carbon footprint and they have offset more emissions than were produced in the creation of that product. I don’t think that would’ve worked 10 years ago because there simply wasn’t enough awareness and urgency around climate change. It probably wouldn’t have worked 18 months ago, but it seems likely that it will work today because people are more and more concerned and willing to pay for solutions.
MF: Some of the existing carbon markets around the world are run by government authorities. Yours is a private market approach. Do you see any role for governments to play?
DP: If we’re going to sequester a terraton of carbon and we believe the appropriate price for that is at least $15 a ton, then that’s a $15 trillion problem, and it’s likely that we’ll need to get governments involved to be able to meet that kind of a financial requirement. As governments start to look for real solutions to climate change, there are only a couple of things that rise to the scale of the problem. One of those is planting trees and maintaining forests. The other is sequestering carbon in agricultural soils.
MF: In terms of getting governments involved, are you referring to cap-and-trade systems?
DP: Yes, or carbon taxes. Or it could be we simply decide that we’re going to pay farmers to provide this service.
MF: In other words, a subsidy? That would probably be the more politically expedient approach.
DP: I’ve spoken with members of congress on both sides of the aisle and I think it is potentially a bipartisan topic. Those who are worried about climate change like the idea for environmental reasons and those who are concerned about farmers’ livelihoods like it for economic reasons. So it’s possible something can be done sooner rather than later.
MF: Previous efforts at agricultural carbon markets have fallen flat. How do you see yours as different?
DP: The biggest thing that has held up agricultural carbon markets in the past is figuring out how to verify that carbon is being sequestered at a cost that doesn’t eat up all the value of the carbon credit—the labor costs were just too large relative to the value of a credit. We’re addressing that by using remote sensing technology. We bought a satellite software company last year so we can remotely monitor fields to see things like whether there is a cover crop growing or if they’re using no-till practices. We’ve combined that with tools that allow the farmer to put in a lot of the data themselves and we can also tie into sensors on their planters and harvesters.
MF: Sounds like the idea is to use all that data to extrapolate the amount of carbon sequestered. But how do you know for sure that the numbers are right?
DP: We do an initial soil sample to get a baseline of how much carbon is in the soil. Then a combination of data collection and modeling is used to project how much carbon is being sequestered. And we do periodic soil samples to see how reality matches the model, adjusting it up or down as needed. So it still requires some human presence on the farm, and there’s some costs to us there, but when you put it all together we can provide verification for about $5 an acre, and we see a path to getting it down to less than a dollar an acre over the next couple of years.
MF: The beautiful thing about sequestering carbon in the soil is that it’s literally the same thing as building healthy topsoil, which is the basis of sustainable agriculture. If you’re successful in sequestering a terraton, how would that change what agriculture looks like on a global level?
DP: If regenerative agriculture were to become the predominant form of food production, we estimate synthetic fertilizer use would be cut by more than half and chemical pesticides would probably be reduced by 90 percent or more. We’re still trying to work it out the impact on water use, but we think it would be between 25 and 50 percent less. And there are all sorts of ancillary benefits. Runoff from fields would no longer be full of silt and synthetic fertilizers, so you’d get fewer algae blooms in lakes and fewer dead zones in oceans. You’d get healthier food because there would be fewer pesticide residues and the increased microbiological life in the soil would make more nutrients more available to crops.
MF: In other words, a carbon market, if successful, is actually a way to subsidize a mass transition to sustainable agriculture.
DP: And farmers will have another income stream, including in the developing world. Farmers in places like India will have a valuable new export, a source of cash they don’t have available to them today.
Follow us
This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.
Want to republish a Modern Farmer story?
We are happy for Modern Farmer stories to be shared, and encourage you to republish our articles for your audience. When doing so, we ask that you follow these guidelines:
Please credit us and our writers
For the author byline, please use “Author Name, Modern Farmer.” At the top of our stories, if on the web, please include this text and link: “This story was originally published by Modern Farmer.”
Please make sure to include a link back to either our home page or the article URL.
At the bottom of the story, please include the following text:
“Modern Farmer is a nonprofit initiative dedicated to raising awareness and catalyzing action at the intersection of food, agriculture, and society. Read more at <link>Modern Farmer</link>.”
Use our widget
We’d like to be able to track our stories, so we ask that if you republish our content, you do so using our widget (located on the left hand side of the article). The HTML code has a built-in tracker that tells us the data and domain where the story was published, as well as view counts.
Check the image requirements
It’s your responsibility to confirm you're licensed to republish images in our articles. Some images, such as those from commercial providers, don't allow their images to be republished without permission or payment. Copyright terms are generally listed in the image caption and attribution. You are welcome to omit our images or substitute with your own. Charts and interactive graphics follow the same rules.
Don’t change too much. Or, ask us first.
Articles must be republished in their entirety. It’s okay to change references to time (“today” to “yesterday”) or location (“Iowa City, IA” to “here”). But please keep everything else the same.
If you feel strongly that a more material edit needs to be made, get in touch with us at [email protected]. We’re happy to discuss it with the original author, but we must have prior approval for changes before publication.
Special cases
Extracts. You may run the first few lines or paragraphs of the article and then say: “Read the full article at Modern Farmer” with a link back to the original article.
Quotes. You may quote authors provided you include a link back to the article URL.
Translations. These require writer approval. To inquire about translation of a Modern Farmer article, contact us at [email protected]
Signed consent / copyright release forms. These are not required, provided you are following these guidelines.
Print. Articles can be republished in print under these same rules, with the exception that you do not need to include the links.
Tag us
When sharing the story on social media, please tag us using the following: - Twitter (@ModFarm) - Facebook (@ModernFarmerMedia) - Instagram (@modfarm)
Use our content respectfully
Modern Farmer is a nonprofit and as such we share our content for free and in good faith in order to reach new audiences. Respectfully,
No selling ads against our stories. It’s okay to put our stories on pages with ads.
Don’t republish our material wholesale, or automatically; you need to select stories to be republished individually.
You have no rights to sell, license, syndicate, or otherwise represent yourself as the authorized owner of our material to any third parties. This means that you cannot actively publish or submit our work for syndication to third party platforms or apps like Apple News or Google News. We understand that publishers cannot fully control when certain third parties automatically summarize or crawl content from publishers’ own sites.
Keep in touch
We want to hear from you if you love Modern Farmer content, have a collaboration idea, or anything else to share. As a nonprofit outlet, we work in service of our community and are always open to comments, feedback, and ideas. Contact us at [email protected].by Brian Barth, Modern Farmer
August 26, 2019
Modern Farmer Weekly
Solutions Hub
Innovations, ideas and inspiration. Actionable solutions for a resilient food system.
ExploreExplore other topics
Share With Us
We want to hear from Modern Farmer readers who have thoughtful commentary, actionable solutions, or helpful ideas to share.
SubmitNecessary cookies are absolutely essential for the website to function properly. This category only includes cookies that ensures basic functionalities and security features of the website. These cookies do not store any personal information.
Any cookies that may not be particularly necessary for the website to function and are used specifically to collect user personal data via analytics, ads, other embedded contents are termed as non-necessary cookies.
A new form of gardening uses the ocean! Attach chains to a concrete block, add a float at the top that is 2 feet below the surface at low tide, leave alone, mark the spot with gps, wait 6 months, collect kelp for fertilizer, crabs and shrimp, loitering scaled fish, the ocean does it’s own watering and fertilizing. AMD provides all the bio life needed! Make a forest like this on a desolate sandy bottom, viola, you have your own self sustaining ocean farm!
I’ve been working to help this area on my own for 20 years now. I bought the first soil carbon credit in Australia in 2006 that got the govt here interested in this area and yet the first Paris protocol ratified soil carbon credit in the world was only just purchased in NSW earlier this year. I’ve written books for all ages from 5 yr olds to adults in 7 languages on the subject in 2006 and tirelessly travelled the world talking about it. I’ve recently created an eco market called urth.io and I do podcasts, vlogs and small events… Read more »
“In addition to emissions from …, cow burps …”. Cows burp yes and the methane in those burps is entirely derived from carbon in the grass a cow eats. Do the maths and you will find that a cow consumes more carbon than it emits as methane (in CO2eq) so a pasture-raised cow is in fact, carbon negative. Do more maths and you will find that a pasture-raised cow consumes more CO2 than the paddock to plate emissions factor of kg CO2e/kg meat.
Excellent topic it is “Agriculture the answer to climate change”.
Points which you have covered in this post is really awesome.
Appreicable job by the author.