STANFORD (US)—Advances in high-yield agriculture over the latter part of the 20th century have not only helped feed the planet, but have also prevented massive amounts of greenhouse gases from entering the atmosphere—the equivalent of 590 billion metric tons of carbon dioxide.
The yield improvements reduced the need to convert forests to farmland, a process that typically involves burning of trees and other plants, which generates carbon dioxide and other greenhouse gases.
If not for increased yields, additional greenhouse gas emissions from clearing land for farming would have been equal to as much as a third of the world’s total output of greenhouse gases since the dawn of the Industrial Revolution in 1850.
“Our results dispel the notion that modern intensive agriculture is inherently worse for the environment than a more ‘old-fashioned’ way of doing things,” says Jennifer Burney, a postdoctoral researcher with the Program on Food Security and the Environment at Stanford University and lead author of a paper describing the study published online by the Proceedings of the National Academy of Sciences.
For every dollar spent on agricultural research and development since 1961, emissions of the three principal greenhouse gases—methane, nitrous oxide and carbon dioxide—were reduced by the equivalent of about a quarter of a ton of carbon dioxide—a high rate of financial return compared to other approaches to reducing the gases.
Adding up the impact
The researchers calculated emissions of carbon dioxide, methane and nitrous oxide, converting the amounts of the latter two gases into the quantities of carbon dioxide that would have an equivalent impact on the atmosphere, to facilitate comparison of total greenhouse gas outputs.
Agriculture currently accounts for about 12 percent of human-caused greenhouse gas emissions, Burney says. Although greenhouse gas emissions from the production and use of fertilizer have increased with agricultural intensification, those emissions are far outstripped by the emissions that would have been generated in converting additional forest and grassland to farmland.
“Every time forest or shrub land is cleared for farming, the carbon that was tied up in the biomass is released and rapidly makes its way into the atmosphere—usually by being burned,” she explains. “Yield intensification has lessened the pressure to clear land and reduced emissions by up to 13 billion tons of carbon dioxide a year.”
“When we look at the costs of the research and development that went into these improvements, we find that funding agricultural research ranks among the cheapest ways to prevent greenhouse gas emissions,” says Steven Davis, a co-author of the paper and a postdoctoral researcher at the Carnegie Institution at Stanford.
To evaluate the impact of yield intensification on climate change, the researchers compared actual agricultural production between 1961 and 2005 with hypothetical scenarios in which the world’s increasing food needs were met by expanding the amount of farmland rather than by the boost in yields produced by the Green Revolution.
“Even without higher yields, population and food demand would likely have climbed to levels close to what they are today,” says David Lobell, assistant professor of environmental Earth system science and a coauthor of the paper.
“Lower yields per acre would likely have meant more starvation and death, but the population would still have increased because of much higher birth rates,” he says. “People tend to have more children when survival of those children is less certain.”
The researchers found that without the advances in high-yield agriculture, several billion additional acres of cropland would have been needed.
Comparing emissions in the theoretical scenarios with real-world emissions from 1961 to 2005, the researchers estimated that the actual improvements in crop yields probably kept greenhouse gas emissions equivalent to at least 317 billion tons of carbon dioxide out of the atmosphere, and perhaps as much as 590 billion tons.
Without the emission reductions from yield improvements, the total amount of greenhouse gas pumped into the atmosphere over the preceding 155 years would have been between 18 and 34 percent greater than it has been, they say.
To calculate how much money was spent on research for each ton of avoided emissions, the researchers calculated the total amount of agricultural research funding related to yield improvements since 1961 through 2005. That produced a price between approximately $4 and $7.50 for each ton of carbon dioxide that was not emitted.
“The size and cost-effectiveness of this carbon reduction is striking when compared with proposed mitigation options in other sectors,” says Lobell.
“For example, strategies proposed to reduce emissions related to construction would cut emissions by a little less than half the amount that we estimate has been achieved by yield improvements and would cost close to $20 per ton.”
The authors also note that raising yields alone won’t guarantee lower emissions from land use change.
“It has been shown in several contexts that yield gains alone do not necessarily stop expansion of cropland,” Lobell say. “That suggests that intensification must be coupled with conservation and development efforts.
“In certain cases, when yields go up in an area, it increases the profitability of farming there and gives people more incentive to expand their farm. But in general, high yields keep prices low, which reduces the incentive to expand.”
The researchers concluded that improvement of crop yields should be prominent among a portfolio of strategies to reduce global greenhouse gases emissions.
“The striking thing is that all of these climate benefits were not the explicit intention of historical investments in agriculture. This was simply a side benefit of efforts to feed the world,” Burney notes.
“If climate policy intentionally rewarded these kinds of efforts, that could make an even bigger difference. The question going forward is how climate policy might be designed to achieve that.”
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