Renewable Food - The Next Climate Domino to Fall? Financial Times10 Sept, 2025 Paul Gilding We are easily distracted by the short-term fluctuations of political and business trends in the corporate sustainability world. But beyond the noise, it’s the science and the economics that matter. Economics delivers the needed change – or the damage if we fail to act. On that basis, it seems likely that food and agriculture will be the next climategs is shifting to enable a renewable food system to take its place. In my recent paper published by the University of Cambridge’s Institute for Sustainability Leadership, I defined a renewable food system as one that could......Expand production to feed 9 billion + people, healthily and affordably.......Do so within a now inevitable rapidly changing climate and ecosystem.......Allow for the steadily growing needs of a larger, and wealthier population, for land........Deliver this in the context of possibly extreme geopolitical instability and climate migration that now also seems inevitable.......Continue doinig definitely.......read onhttps://www.pau lgilding.com/cockatoo-chronicles/renewablefoodnextclimatedomino

Specific Climate Change Effects on Agriculture
Temperature Increases.......Rising temperatures can lead to several negative impacts. Heat stress reduces crop yields for many staples, including wheat, rice, and maize. Higher temperatures also increase evaporation rates, exacerbating drought conditions in already arid regions. In livestock production, heat stress reduces animal productivity, impacting milk yields and meat production. The geographical range suitable for certain crops and livestock breeds is also shifting, requiring farmers to adapt or relocate.

Climate change cuts global crop yields, even when farmers adapt says a sweeping new study 

A sweeping new analysis finds that rising global temperatures will dampen the world’s capacity to produce food from most staple crops, even after accounting for economic development and adaptation by farmersStanford.June 18, 2025 Josie Garthwaite New research offers the most comprehensive look yet at how global crop yields are likely to change as the planet warms.After adjusting for how real farmers adapt, researchers estimate global yields of calories from staple crops in a high-emissions future will be 24% lower in 2100 than they would be without climate change. U.S. agriculture and other breadbaskets are among the hardest-hit in the study’s projections, while regions in Canada, China, and Russia may benefit. he global food system faces growing risks from climate change, even as farmers seek to adapt, according to a June 18 study in Nature.In contrast to previous studies suggesting that warming could increase global food production, the researchers estimate that every additional degree Celsius of global warming on average will drag down the world’s ability to produce food by 120 calories per person per day, or 4.4% of current daily consumption.“When global production falls, consumers are hurt because prices go up and it gets harder to access food and feed our families,” said Solomon Hsiang, professor of environmental social sciences at the Stanford Doerr School of Sustainability and a senior author of the study. “If the climate warms by 3 degrees, that’s basically like everyone on the planet giving up breakfast.” That’s a high cost for a world where more than 800 million people at times go a day or more without food because of inadequate access. The projected losses for U.S. agriculture are especially steep. “Places in the Midwest that are really well suited for present day corn and soybean production just get hammered under a high warming future,” said lead study author Andrew Hultgren, an assistant professor of agricultural and consumer economics at the University of Illinois Urbana-Champaign. “You do start to wonder if the Corn Belt is going to be the Corn Belt in the future.” Hsiang and Hultgren worked on the analysis with more than a dozen scholars over the past eight years as a project with Climate Impact Lab, a research consortium that Hsiang co-directs with University of Chicago economist Michael Greenstone, Rutgers University climate scientist Robert Kopp, and climate policy expert Trevor Houser of the Rhodium Group.
 “This is basically like sending our agricultural profits overseas. We will be sending benefits to producers in Canada, Russia, China. Those are the winners, and we in the U.S. are the losers,” said Hsiang. “The longer we wait to reduce emissions, the more money we lose.” The study draws on observations from more than 12,000 regions across 55 countries. The team analyzed adaptation costs and yields for crops that provide two-thirds of humanity’s calories: wheat, corn, rice, soybeans, barley, and cassava.

Previous studies failed to account for realistic adaptation by farmers, assuming either “perfect” adaptation or none at all. The new study is the first to systematically measure how much farmers adjust to changing conditions. In many regions, for example, they switch crop varieties, shift planting and harvesting dates, or alter fertilizer use. The team estimates these adjustments offset about one-third of climate-related losses in 2100 if emissions continue to rise, but the rest remain. “Any level of warming, even when accounting for adaptation, results in global output losses from agriculture,” said Hultgren. The steepest losses occur at the extremes of the agricultural economy: in modern breadbaskets that now enjoy some of the world’s best growing conditions, and in subsistence farming communities relying on small harvests of cassava. In terms of food production capacity from staple crops, the analysis finds yield losses may average 41% in the wealthiest regions and 28% in the lowest income regions by 2100. The modeling points to a 50% chance that global rice yields will increase on a hotter planet, largely because rice benefits from warmer nights, while the odds that yields will decline by century’s end range from roughly 70% to 90% for each of the other staple crops.

Higher emissions bring bigger losses....... With the planet already about 1.5 degrees Celsius hotter than pre-industrial levels, farmers in many areas are experiencing longer dry spells, unseasonable heat waves, and erratic weather that undermines yields, even when inputs like fertilizer and water improve.......read on     https://sustainability.stanford.edu/news/climate-change-cuts-global-crop-yields-even-when-farmers-adapt