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How Much Do Climate Fluctuations Matter for Global Crop Yields?

drought stunted plant in field
A new study finds that ENSO has been responsible for widespread, simultaneous crop failures in recent history, running counter to the long-held assumption that crop failures in geographically distant breadbasket regions are unrelated. Photo: Wikimedia Commons

The El Niño-Southern Oscillation has been responsible for widespread, simultaneous crop failures in recent history, according to a new study from researchers at Columbia University’s International Research Institute for Climate and Society, the International Food Policy Research Institute and other partners. This finding runs counter to a central pillar of the global agriculture system, which assumes that crop failures in geographically distant breadbasket regions such as the United States, China and Argentina are unrelated. The results also underscore the potential opportunity to manage such climate risks, which can be predicted using seasonal climate forecasts.

The study, featured on the cover of this month’s Science Advances, is the first to provide estimates of the degree to which different modes of climate variability such as ENSO cause volatility in global and regional production of corn, wheat and soy. Such variability caused nearly 18 percent volatility in global corn production from 1980 to 2010, for example.

“Global agriculture counts on the strong likelihood that poor production in one part of the world will be made up for by good production elsewhere,” said Weston Anderson, a postdoctoral research scientist at the International Research Institute for Climate and Society and lead author on the study.

Of course, there’s always a chance—however small—that it won’t. The assumption until now has been that widespread crop failures would come from a set of random, adverse weather events, Anderson said.

He and his co-authors decided to test this idea by looking at the impact that the El Niño-Southern Oscillation, the Indian Ocean Dipole, and other well-understood climate patterns have had on global production of corn, soybeans and wheat. They analyzed how these modes of climate variability influenced drought and heat in major growing regions.

“We found that ENSO can, and has, forced multiple breadbasket failures, including a significant one in 1983,” said Anderson. “The problem with pooling our risk as a mitigating strategy is that it assumes failures are random. But we know that strong El Niño or La Niña events in effect organize which regions experience drought and extreme temperatures. For some crops, that reorganization forces poor yields in multiple major production regions simultaneously.”

How important is the influence of climate variability? The authors found that, on a global level, corn is the most susceptible to such crop failures. They found that 18 percent percent of the year-to-year changes in corn production were the result of climate variability. Soybeans and wheat were found to be less at risk for simultaneous failures, with climate variability accounting for 7 and 6 percent of the changes in global production, respectively.

“The bigger the uncertainty around climate drivers, the bigger the risk for those involved in the food systems,” said co-author Liangzhi You, a senior research fellow at the International Food Policy Research Institute. “The worst affected are poor farmers in developing countries whose livelihoods depend upon crop yields as they do not have an appetite for risks in absence of formal insurance products or other coping mechanisms.” The risk is further exacerbated by challenges posed by lack of infrastructure and resources in developing countries.

“ENSO may not be important in all years, but it is the only thing we know of that has forced simultaneous global-scale crop failures,” said Anderson.

Within specific regions, the risk to agriculture by climate variability can be much higher. For example, across much of Africa and in Northeast Brazil, ENSO and other recurring climate phenomena accounted for 40-65 percent of the ups and downs of food production. In other regions, the number was as low as 10 percent.

While on the surface this may appear to mean that those areas more affected by ENSO and other climate patterns are more at risk to extreme events, the numbers actually reflect a link to climate patterns that can be monitored and predicted.

“What excites me about this work is that it shows how predictable modes of climate variability impact crop production in multiple regions and can scale up to influence global production, said co-author Richard Seager of Columbia’s Lamont Doherty Earth Observatory. “This should allow anticipation of shocks to global food prices and supplies and, hence, improve efforts to avoid food insecurity and provide emergency food assistance when needed.”

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This research was supported by ACToday, a Columbia World Project, as well as by the National Science Foundation (Award Numbers: NSF-GRF DGE-11-44155, NSF OCE 1657209, NSF 1602581) and from the Fundamental Research Funds for the Central Universities (program no. 2662018PY101).

The International Research Institute for Climate and Society (IRI), part of the Earth Institute at Columbia University, aims to enhance society’s ability to understand, anticipate and manage the impacts of climate in order to improve human welfare and the environment, especially in developing countries. Visit iri.columbia.edu and follow @climatesociety on Twitter and Instagram.

The International Food Policy Research Institute (IFPRI) seeks sustainable solutions for ending hunger and poverty. IFPRI was established in 1975 to identify and analyze alternative national and international strategies and policies for meeting the food needs of the developing world, with particular emphasis on low-income countries and on the poorer groups in those countries. 

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