Skip to content
Chimera readability score 61 out of 100, Academic reading level.

Global warming-fuelled heat and drought is already hitting yields of maize, wheat and soybeans to the tune of $20 billion a year, a study has estimated. This could rise eightfold, to more than $160 billion by 2100, unless we slash emissions.
While the financial losses will be greatest for big producers such as the US, the impacts will be felt most in the lowest-income countries, where the majority of the population works in farming, says Yi Ling Hwong at the International Institute for Applied Systems Analysis (IIASA) in Austria. “If you look at the least-developed countries in Africa, the impact is much bigger.” This could lead to social unrest and increased migration, she warns.
Advertisement
There is great uncertainty about these kinds of projections, not least because so much depends on how farmers respond and adapt to a continually changing climate, for instance, by switching to different crops or adopting irrigation where it is possible. In fact, the whole point of this study is to raise awareness and encourage adaptation, to help ensure these projections turn out to be overestimates, says team member Kai Kornhuber, also at IIASA. “This is the entire mission of climate scientists: we make these cases for people to react, so our projections turn out to be wrong.”
The researchers started by gathering data on the yields per country of maize, wheat and soya from the UN Food and Agriculture Organization (FAO). Next, they took past climate data and calculated the drought level, using a standard approach that estimates soil moisture levels from rainfall and evaporation levels.
Past heat extremes and drought levels were then compared with the yields from 1974 to 2004 to estimate the impact of heat and drought. They then used these statistical correlations to estimate crop losses from 2007 to 2019. Their results suggest that increases in heat extremes and drought have caused a 3.5 per cent decline in yields relative to the 1974 to 2004 baseline. “Three per cent or so might not sound like much, but this is a major impact [on] the global food market, which regionally can trigger a severe crisis,” says Kornhuber.
Free newsletter
Sign up to The Earth Edition
Unmissable news about our planet, delivered straight to your inbox each month.
The researchers then calculated the economic losses, based on FAO data showing how much farmers would have been paid for their produce at the time. Finally, they used the same approach to project future losses in several different emissions scenarios, assuming that some adaptation takes place.
In a high-emissions scenario, known as SSP3-7.0, global yields will fall by around 35 per cent by 2100, with annual losses rising to more than $161 billion. “The production losses caused by heat and drought are around 855 million tonnes a year,” says Hwong, who presented the results at a meeting of the European Geosciences Union in Vienna in May. “I think that is equivalent to what around 2 billion people consume over a year.”
This could be an underestimate of the full impact of climate change for a number of reasons: it’s just three crops, and it doesn’t include flood, storm or rain damage, or the possibility that shortages could lead to big price increases, as is already happening with some other crops such as coffee and cacao.
Jonas Jägermeyr at Columbia University in New York says the study’s reliance on the statistical relationships between yield losses and extreme heat and drought could result in it overestimating the impacts by 2100. “Statistical yield models are great for explaining what’s happening now, and in the near past [or] future, but they are inherently unreliable when pushed into vastly different environmental regimes, such as high-emission climate scenarios by the end of the century.” Computer models of how plants are affected by rising CO2 and temperatures are better for projecting what will happen by the end of the century, he says.
Karine Chenu at the University of Queensland, Australia, makes the same point. “Although models are not perfect, they are better suited for this type of extrapolation.” However, her team recently released a study, which hasn’t been peer-reviewed, showing that two widely used models for wheat make large errors and are especially poor at forecasting the combined effects of extreme heat and drought.
But Kornhuber has defended his team’s use of statistical methods. “The models are remarkable tools, but some of the validation papers have suggested that they might not be super responsive to extremes,” he says. “In our project, extremes were the main focus, so we decided to establish these relationships directly through statistics.”
Reference:
EGU General Assembly 2026 DOI: 10.5194/egusphere-egu26-8148
There is no sugar-coating the problems we face, and in this special session we present an emergency briefing on the nature and climate crisis from three of the world's leading scientists. Nathalie Seddon shows that nature is critical national infrastructure. When we destroy it, we increase floods, heat deaths, food insecurity and economic instability; when we restore it, we reduce risk, save lives and strengthen the economy. Kevin Anderson explains that we are likely to face 2°C of global heating by 2050, with a real possibility of 4°C by 2100. Under this scenario we would face the widespread breakdown of society and the loss of a global economy. Paul Behrens tells us that the climate that gave us reliable harvests is gone, and that food system failure is a direct national security risk — and the UK is woefully unprepared. There is still time to avoid the worst outcomes, and the experts, hosted by Rowan Hooper, will explain what we need to do.Emergency briefing on the nature and climate crisis
Topics:

Facts Only

* Heat and drought are currently impacting maize, wheat, and soybean yields by $20 billion annually.
* These losses could increase eightfold to more than $160 billion by 2100 without emission reductions.
* The impacts are felt most in lowest-income countries where the majority of the population farms.
* Past heat extremes and drought levels were compared with yields from 1974 to 2004 to estimate impact.
* Increases in heat extremes and drought caused a 3.5 per cent decline in yields relative to the 1974 to 2004 baseline.
* In a high-emissions scenario (SSP3-7.0), global yields could fall by around 35 per cent by 2100, with annual losses rising to more than $161 billion.
* Production losses from heat and drought are estimated at around 855 million tonnes per year.
* Researchers used data from the UN Food and Agriculture Organization (FAO) for yield information.

Executive Summary

Global warming-fuelled heat and drought are already causing $20 billion annually in losses for maize, wheat, and soybeans, a figure projected to rise to over $160 billion by 2100 unless emissions are reduced. The financial impacts will be most severe for the poorest nations, particularly in least-developed countries in Africa where the majority of the population relies on farming. This situation carries risks of social unrest and increased migration. Researchers aim to use projections to encourage adaptation, as they recognize uncertainty stems from farmer response and adaptation strategies. Statistical correlations between past heat/drought extremes and yields suggest a 3.5 per cent decline relative to a baseline. Under a high-emissions scenario (SSP3-7.0), global yields could fall by approximately 35 per cent by 2100, leading to annual losses exceeding $161 billion. Uncertainty exists regarding the accuracy of these projections, as relying solely on statistical yield models may overestimate future impacts when facing vastly different climate regimes.

Full Take

The narrative juxtaposes statistically derived projections with inherent modeling uncertainty, creating a tension between urgent warning and methodological caution. The focus on statistical correlation regarding crop losses is presented as actionable evidence, yet this immediately introduces doubt regarding the long-term extrapolation of these models into future, highly variable climate states. The shift in emphasis—from broad economic loss to specific yield mechanics—serves to frame the issue as a quantifiable threat requiring immediate reaction, which aligns with the stated goal of encouraging adaptation by making projections appear potentially overestimated. This pattern suggests an effort to establish legitimacy for large-scale intervention by quantifying the harm, even while experts acknowledge the statistical limits of the methods used, especially concerning extreme, unobserved future scenarios. The implication is that cognitive sovereignty depends on holding space for methodological critique alongside urgent calls for adaptation. What further validation is needed to bridge the gap between current statistical correlations and the unpredictable, non-linear realities of systemic collapse under extreme climate shifts?

Sentinel — Human

Confidence

The article presents empirical data on climate impact on agriculture while thoughtfully incorporating expert critiques regarding the limitations and methodologies of predictive modeling, reflecting a nuanced synthesis of scientific discourse.

Signals Detected
low severity: Moderate sentence length variance; use of direct quotes interspersed with explanatory text suggests human structuring.
low severity: Clear argumentative flow moving from initial statistics to uncertainty, adaptation, methodology critique, and concluding calls for action.
low severity: The text smoothly integrates multiple academic viewpoints (Hwong, Kornhuber, Jägermeyr, Chenu) to build a nuanced argument rather than simply listing talking points.
low severity: Citations of specific organizations (FAO, IIASA, EGU) and named researchers are present, lending credibility to the data presentation, though some internal methodological disputes exist.
Human Indicators
The text skillfully navigates an academic discussion by presenting quantitative findings alongside methodological debates (e.g., critique of statistical yield models vs. plant models).
The inclusion of direct, somewhat defensive quotes from researchers (Kornhuber defending methodology) adds a layer of genuine intellectual tension often found in human-generated scientific reporting.
Global warming already causing crop losses of over $20 billion a year — Arc Codex