by Sean Cummings, American Geophysical Union
edited by Gaby Clark, reviewed by Robert Egan
scientific editor
associate editor
At Jack’s Solar Garden in Longmont, Colorado, rows of solar panels stand over the crops, casting swaths of shade that benefit plants and farmworkers alike. Credit: Talitha Neesham-McTiernan
Putting solar panels above agricultural crops may do more than produce food and clean energy on the same land: It can also significantly augment quality of life for farmworkers, according to new research to be presented at AGU’s 2025 Annual Meeting in New Orleans. Worker-reported benefits include shelter from the sun, cooler drinking water and reduced fatigue, while physical measurements indicate the panels can help farms avoid conditions conducive to dangerous heat stress.
“In a lot of [food] sustainability conversations, we’re thinking about resource use and not about farmworkers and their bodies,” said Talitha Neesham-McTiernan, a human-environment researcher at the University of Arizona who led the research. She will present her work on 15 December at AGU25, joining more than 20,000 scientists discussing the latest Earth and space science research.
Hybrid solar-food fields, better known as “agrivoltaics” systems, typically involve solar panels mounted at or above head height, spaced among crops to allow sunlight to pass through the gaps between. In addition to making efficient use of land, these systems can benefit crops by reducing both sun damage and water lost to evaporation—and even by trapping some heat near the ground during colder months, Neesham-McTiernan said.
In her four years of fieldwork on farms like these, often during brutal Arizona summers, Neesham-McTiernan noticed a pattern: Researchers and farmworkers alike would strategically plan to work in the panels’ shade during the hottest hours.
“It just seemed to be something that people in these systems were doing, but nobody in the research area was talking about it,” she said. That struck her as odd, as farmworkers are 35 times more likely to die from heat-related illness than non-agricultural workers. With climate change pushing that figure higher, making any tool to reduce heat stress would be increasingly valuable.
To end that silence, Neesham-McTiernan and her co-authors asked seven full-time farmworkers at Jack’s Solar Garden, a small agrivoltaics farm near Longmont, Colorado, how their experiences differed from those on traditional farms.
The biggest reported perk, by far, was shade. One worker, Neesham-McTiernan said, confessed they found it hard to imagine ever going back to work on traditional full-sun farms—where, they added, their favorite crops had always been tomatoes, because of the shade the tall plants offered.
“By 9 a.m., in the summer, you’re just cooking,” Neesham-McTiernan said. “Being able to take that direct heat load off makes such a difference.”
Shade keeps drinking water cool too, the workers noted—a crucial benefit, given water’s role in mitigating heat stress. “They can pop their bottles under the panels and they stay cool all day,” Neesham-McTiernan said, “rather than it being, as one of the farmworkers described it, like drinking tea.”
Another worker said these benefits helped them feel less exhausted by day’s end, leaving more energy for social life and allowing a faster recovery for the next day’s work. Others said simply knowing shade was nearby reduced their mental stress.
The researchers also recorded air temperature, wind speed, humidity and solar radiation to quantify heat stress metrics such as wet bulb globe temperature, which is commonly used to identify dangerous outdoor work conditions.
Compared to open-field farms, they found, agrivoltaics reduced wet bulb globe temperature by up to 5.5 degrees Celsius (10 degrees Fahrenheit)—the difference, Neesham-McTiernan estimates, between stop-work conditions and simply requiring a break every hour. “When that builds up over a day, over a season, over a lifetime of harvesting, that’s really significant.”
That’s not to say the measurements always matched farmworkers’ testimonies: for instance, they occasionally disagreed over which parts of the farm were hottest at which times of day. But fully understanding the experience of heat stress, Neesham-McTiernan said, requires both personal and measured evidence.
“Every farmworker said one benefit was being able to lean against the beams that hold up the panels, just to take the weight off a bit,” she noted. “If I just had my sensors in the field, I wouldn’t know that, but it clearly makes such a difference in their day-to-day comfort.”
Neesham-McTiernan said she’s working to expand the research into other regions to see whether the benefits apply in different environments. She also hopes to eventually collect more rigorous physiological and health data to quantify the impacts of agrivoltaics on workers’ bodies.
“[Agrivoltaics] isn’t a one-size-fits-all solution,” she said. “It can’t be used everywhere. But with the threat of heat, we need a catalog of ways we can protect farmworkers. Without them, we can’t feed ourselves. Protecting them and their bodies should be paramount to everyone.”
More information: Abstract: agu.confex.com/agu/agu25/meeti … pp.cgi/Paper/1899488
Provided by American Geophysical Union
This story is republished courtesy of Eos, hosted by the American Geophysical Union. Read the original story here.
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Installing solar panels above crops, known as agrivoltaics, provides significant benefits for farmworkers by offering shade, reducing heat exposure, keeping drinking water cooler, and lessening fatigue. Physical measurements show these systems can lower wet bulb globe temperature by up to 5.5 °C, helping to prevent dangerous heat stress and improving overall working conditions.
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Solar panels over crops may boost farmworkers’ comfort
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