Climate Change Could Cut Crop Yields Up To A Quarter
As soon as 2050, this "moderate" scenario in which greenhouse gas emissions peak around 2040 and slowly taper off -- a trajectory aligned with current trends -- would see global losses of nearly eight percent.
And if carbon pollution worsens, the loss of calories across the same six staples -- corn, wheat, rice, soybeans, sorghum and cassava -- rises to nearly a quarter by century's end, the researchers reported in Nature.
More generally, every additional degree Celsius of warming reduces the world's ability to produce food from these crops by 120 calories per person per day, or nearly five percent of current daily consumption, they calculated.
"If the climate warms by three degrees, that's basically like everyone on the planet giving up breakfast," said co-author Solomon Hsiang, a professor at the Stanford Doerr School of Sustainability in California.
The steepest losses will occur at the extremes of the agricultural economy: in modern, Big Ag breadbaskets that currently enjoy some of the world's best growing conditions, and in subsistence farming communities that typically rely of small cassava harvests.
North America would be hit hardest, losing a fifth of yields by 2100 in the moderate carbon pollution scenario, and two-fifths if emissions from burning fossil fuels continue apace.
Working with more than a dozen scientists, Hsiang and co-leader Andrew Hultgren, an assistant professor at the University of Urbana-Champaign, sifted through data from more than 12,000 regions in 55 countries.
Previous calculations of how a warming world will impact crop yields generally failed to consider the ways in which farmers would adapt, such as switching crop varieties, shifting planting and harvesting dates, and altering fertiliser use.
The scientists estimated such adjustments would offset about a third of climate related losses over the next 75 years in the scenario of rising emissions, but that residual impacts would still be devastating.
"Any level of warming, even when accounting for adaptation, results in global output losses for agriculture," said Hultgren.
With the planet about 1.5C hotter than preindustrial levels in the late 1900s, farmers in many regions are already experiencing longer dry spells, unseasonable heatwaves and erratic weather that undermines yields.
The nutritional value of most crops also declines with hotter temperatures, earlier research has shown.
The study revealed sharp variations in the impact of global warming on different crops and regions.
In the "worst-case" scenario of rising carbon emissions, corn yields would plummet 40 percent by 2100 across the grain belt of the United States, eastern China, central Asia, and the Middle East.
For soybeans, yields in the US would decline by half, and increase by a fifth in Brazil.
Wheat losses would drop by a fifth in eastern and western Europe, and by 30 to 40 percent in other wheat-growing regions: China, Russia and North America.
Cassava would be hit hard everywhere it's grown.
"Although cassava does not make up a large portion of global agricultural revenues, it is an important subsistence crop in low- and middle-income countries," the researchers pointed out.
Among the six crops examined, rice is the only one that stands to benefit in a warmer climate, mainly due to warmer nights.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
DW
7 hours ago
- DW
DNA shows ancient Egyptians had surprising foreign roots – DW – 07/02/2025
The ancient Egyptian potter lived about 4,500 years ago. It's hoped his DNA will open the way to a better understanding of the country's genetic history. Ancient Egypt went through a period of major change between 4,500-4,800 years ago. The country's Early Dynastic period was transitioning into the Old Kingdom period. This saw advances that allowed expert builders in Cairo to construct what would become the Great Pyramid of Giza. It also saw mature hieroglyphic writing and the emergence of the pottery wheel. South of Cairo, in a village called Nuwayrat, one man lived a hard life as a potter, even with the new technology. But, fortunately, when he died, his body was placed in a ceramic pot and buried in a tomb cut into a hillside, allowing UK-based researchers to analyze his remains, genetically. Their study, published in the journal Nature, describes the first whole ancient Egyptian genome, and the oldest DNA sample from Egypt to date. "This individual lived and died during a critical period of change in Ancient Egypt," said Linus Girdland Flink, a biomolecular archaeologist at the University of Aberdeen, in the UK, and co-senior author on the study. Flink and colleagues have revealed how the potter lived and died, and his genetic ancestry. They know he stood 1.6 meters (5.2 feet) tall, had brown eyes and brown hair, and lived to be as old as 64 years. "We've been able to tell part of the individual's story, finding that some of his ancestry came from the Fertile Crescent, highlighting a mixing of groups [from North Africa and the Middle East] at this time," said Girdland Flink. The Fertile Crescent was where the first agricultural communities of the Middle East and Mediterranean basin are thought to have settled. It was a crescent-shaped region that spanned modern-day Syria, southeastern Turkey and Iraq. While it is difficult to draw broad conclusions from a single individual, "this groundbreaking article provides a first glimpse into the genetics of early Egypt, a region that has long been a critical gap in the ancient DNA map," said Iosif Lazaridis, a geneticist at Harvard University in the US, who was not involved in the study. The researchers first analyzed the man's skeleton with a variety of techniques to find clues about his life. Using radiocarbon dating, they confirmed he lived at some point between 2,855-2,570 B.C., a time overlapping the Early Dynastic and Old Kingdom periods. They ran a chemical analysis of the man's teeth to learn about his diet. The results suggested the individual had likely grown up in Egypt. And markings on the skeleton itself gave clues that he could have worked as a potter. His seat bones were expanded in size, his arms showed evidence of extensive movement back and forth and there's substantial arthritis, only in his right foot. "Though circumstantial, these clues point towards pottery, including use of a pottery wheel, which arrived in Egypt around the same time," said Joel Irish, an archaeologist at Liverpool John Moores University, UK, and co-author of the study. But his higher-class burial was unusual for a potter of that time. "Perhaps he was exceptionally skilled or successful to advance his social status," Irish said. Scientists have sequenced the DNA of Egyptian mummies before, but these individuals lived during the late intermediate period after 1,400 B.C. The potter is thought to be at least 1,000 years older. "We had no ancient Egyptian DNA. This [study] is a completely new genetic analysis of someone from the old Kingdom," said Harald Ringbauer, a population geneticist at the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, who was not involved in the study. "A major problem with previous attempts was that samples were mummified, which contaminates DNA. Here, with a normal burial, the DNA was well-preserved. This makes it special," Ringbauer told DW. Extracting DNA from the man's tooth, the researchers sequenced the man's whole genome. Analysis showed that 80% of his ancestry was related to ancient individuals who lived in North Africa. The remaining 20% of his ancestry was traced to people who lived in the Fertile Crescent, particularly Mesopotamia. "It's a big open question: people with Levantine ancestry, who brought farming from the Fertile Crescent, came to Egypt. The authors speculate the Levantine ancestry came relatively late, so this study is the first major step to answering this question," said Ringbauer. This browser does not support the video element. Genetic evidence suggesting that people moved into Egypt and mixed with local populations at this time was previously only visible in archaeological findings. But researchers lack diversity in genome sequencing, and Ringbauer said that was still a problem. "We don't have any ancient DNA to compare this sample to, so we don't know how much of their ancestry is local," said Ringbauer. The authors say their study shows it's possible to provide strong genetic evidence of the movements of people in Egypt during the Bronze Age. Lazaridis agreed the study marked an advance in recovering DNA from ancient Egyptians. "For the first time, the genetic history of Ancient Egypt can truly begin to be written," he said. In future work, the research team hopes to build a bigger picture of migration and ancestry in collaboration with Egyptian source:
Local Germany
20-06-2025
- Local Germany
Climate change could double summer rainfall in the Alps: study
Researchers said that in a scenario where temperatures rise by two degrees Celsius (about 3.6 degrees Fahrenheit), the Alps and nearby regions could experience episodes of intense summer rainfall twice as often as currently. "With such warming, an intense storm currently expected once every 50 years could occur once every 25 years in the future," said the Swiss university, which conducted the study in collaboration with the University of Padua in Italy. "Hot air holds more moisture (around seven percent more per degree), intensifying storm activity", the researchers said. "As the Alpine environment warms faster than the global average, it is particularly affected," they added. The study used summer rainfall data collected from nearly 300 meteorological stations across the European Alps in Switzerland, Germany, Austria, France and Italy. They focused on record-breaking rainfall events -- lasting from 10 minutes to an hour -- that occurred between 1991 and 2020, as well as the temperatures associated with these episodes. "The sudden and massive arrival of large volumes of water can exceed the soil's absorption capacity," which can "trigger flash floods and debris flows, causing damage to infrastructure", said Nadav Peleg, a researcher at UNIL and the study's lead author. Researchers recommend "preparing urban water management systems and other infrastructures" that are ill suited to handle significant rainfall volumes. Advertisement "Promptly updating engineering and urban planning standards" would help mitigate potential risks associated with these events, they added, while also emphasising the need to "limit global warming to 1.5C or less above current levels". According to scientists from the United Nations' IPCC panel on climate change, there is a 50 percent chance of global temperatures rising by an average of 1.5C by 2030-2035. "We are already observing a trend towards intensified summer storms and this trend is expected to worsen in the coming years," said Francesco Marra, a researcher at the University of Padova and a co-author of the study.
Local Germany
19-06-2025
- Local Germany
Climate change could double summer rainfall in the German Alps
Researchers said that in a scenario where temperatures rise by two degrees Celsius, the Alps and nearby regions could experience episodes of intense summer rainfall twice as often as currently. "With such warming, an intense storm currently expected once every 50 years could occur once every 25 years in the future," said the Swiss university, which conducted the study in collaboration with the University of Padua in Italy. "Hot air holds more moisture (around seven percent more per degree), intensifying storm activity", the researchers said. "As the Alpine environment warms faster than the global average, it is particularly affected," they added. The study used summer rainfall data collected from nearly 300 meteorological stations across the European Alps in Switzerland, Germany, Austria, France and Italy. They focused on record-breaking rainfall events - lasting from ten minutes to an hour - that occurred between 1991 and 2020, as well as the temperatures associated with these episodes. "The sudden and massive arrival of large volumes of water can exceed the soil's absorption capacity," which can "trigger flash floods and debris flows, causing damage to infrastructure", said Nadav Peleg, a researcher at UNIL and the study's lead author. Advertisement Researchers recommend "preparing urban water management systems and other infrastructures" that are ill suited to handle significant rainfall volumes. "Promptly updating engineering and urban planning standards" would help mitigate potential risks associated with these events, they added, while also emphasising the need to "limit global warming to 1.5C or less above current levels". According to scientists from the United Nations' IPCC panel on climate change, there is a 50 percent chance of global temperatures rising by an average of 1.5C by 2030-2035. "We are already observing a trend towards intensified summer storms and this trend is expected to worsen in the coming years," said Francesco Marra, a researcher at the University of Padova and a co-author of the study.
