Scientists issue warning after discovering change in harmful insect's behavior: 'It's a form of biological investment'
Scientists discovered that azuki bean beetles — an agricultural pest — lay larger male eggs when under stress from climate change.
What's happening?
According to Kyushu University, researchers published a study in Scientific Reports showing how elevated temperatures and carbon dioxide levels influence the beetle's reproduction. When scientists raised the temperature and carbon dioxide, they found that beetles infected with two strains of Wolbachia bacteria (wBruCon and wBruOri) laid larger eggs that hatched into male larvae.
This showcases how Wolbachia microbes can benefit the species, and how a species with chromosomal sex determination can change egg size and sex based on environmental factors. Before this, no one had observed sex-dependent changes in egg size in this kind of species.
"One characteristic we've observed in some insects, including these beetles, is that they increase egg size when exposed to environmental stress," professor Midori Tuda, the study's lead author, explained. "Offspring hatched from larger eggs tend to survive better and develop more quickly during the early stages. It's a form of biological investment under stressful conditions."
Why are the beetle eggs important?
Azuki bean beetles are a pest that lay their eggs on stored legume seeds. Hatched larvae bore into the seeds, reducing germination rates. This threatens the human food supply. Discovering that they grow larger and faster in the changing climate is cause for alarm.
According to the news release, insight into the beetles' biology is crucial for stopping this seed damage. Rising temperatures endanger crops in many ways, from dry climates to extreme heat. Knowing how pests such as the azuki bean beetle will behave in the future can help farmers protect their crops better.
"With human activities raising atmospheric CO2 and global temperatures, it is critical to predict the future population dynamics of agricultural pests like the azuki bean beetle," Tuda said.
How can legume seeds be protected from these beetles?
These fast-developing, large male beetles could spell trouble for crops. The combination of Wolbachia bacteria, elevated temperatures, and increased carbon dioxide levels triggers that "biological investment." But with this information, researchers and farmers can develop strategies to safeguard legume seeds.
"From a pest control perspective, targeting Wolbachia may be a strategy worth exploring," Tuda said. "However, because nearly half of all insect species are infected with Wolbachia, non-selective use of bactericides could threaten non-pest insects as well.
"A nature-positive approach is essential as we adapt to a changing climate."
Further research is needed, but this discovery is a step forward in mitigating the harmful pests. And the goal is to find a solution without using harmful pesticides or bactericides.
Should the government be allowed to restrict how much water we use?
Definitely
Only during major droughts
No way
I'm not sure
Click your choice to see results and speak your mind.
Join our free newsletter for good news and useful tips, and don't miss this cool list of easy ways to help yourself while helping the planet.Solve the daily Crossword
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Gizmodo
2 hours ago
- Gizmodo
Scientists Unveil Wild New Way to Explore the Edge of Space
Scientists often refer to the mesosphere as the 'ignorosphere'—a region that's too high for planes or weather balloons to explore, yet too low for satellites to probe. Despite our technological advances, we've yet to find a decent way to monitor this large stretch of air, which lies about 37 miles (60 kilometers) above the surface. But engineers are inching towards a solution—one inspired by a toy-like invention from the 19th century. A Nature paper published today presents a proof-of-concept for an extremely lightweight, disc-like structure that levitates thanks to sunlight, no fuel required. Crafted from ceramic aluminum with a chromium base, the device floats on photophoresis, which literally means 'light-driven motion.' When sunlight strikes the device, the differences in heat and pressure around the disc create an upward airflow, keeping the disc airborne. The pressure difference produces photophoretic lift—enough to keep these little guys aloft. Although this particular device was tailored for mesospheric exploration, the physics driving its flight could easily be applied to future missions beyond Earth—including the achingly thin Martian atmosphere, as long as there's sufficient sunlight, the researchers say. 'Photophoresis requires no fuel, batteries, or photovoltaics, so it is an inherently sustainable flight mechanism,' Ben Schafer, study lead author and an associate researcher at Harvard University, told Gizmodo in an email. 'We could use these devices to collect groundbreaking atmospheric data to benefit meteorology, perform telecommunications, and predict space weather.' The initial idea dates back to 1873, when physicist William Crookes invented a radiometer that fed off sunlight. Subsequent projects attempted to build on Crookes's invention, but with limited success, as Igor Bargatin, a mechanical engineer at the University of Pennsylvania, explained in an accompanying News & Views article. (Although Bargatin did not participate in the new study, Schafer cited his work as one of the main inspirations for the device.) Schafer and his colleagues, however, capitalized on previous work and recent advances in nanofabrication technology for their blueprint, constructing samples of 'shiny, thin squares with very tiny holes,' as Schafer described them. Researchers from multiple countries teamed up on the project, combining theoretical and experimental steps. Normally, the photophoretic force is weak relative to an object's size and weight, making it nearly impossible to notice, Schafer explained. But the new device is so thin and tiny—about half the size of a penny—that the photophoretic force actually exceeds its weight, causing it to levitate. To validate its calculations, the team built a low-pressure chamber in the lab to simulate the atmospheric and sunlight conditions of the mesosphere. To their delight, the tiny discs remained aloft. Schafer, now CEO of Rarefied Technologies, is moving quickly to bring these devices to commercial use. His team wants to tinker with the fabrication element so the discs can carry communications technology that can collect and send back weather data, Schafer said. 'We plan to use passive devices that can be tracked remotely with lidar or radar to collect weather data in the upper atmosphere; this could reach the pilot phase in a couple years,' he explained. 'If the full potential of this technology can be realized, swarms or arrays of such photophoretic flyers could be collecting high-resolution data on the temperature, pressure, chemical composition, and wind dynamics of the mesosphere,' Bargatin added. 'What began as a Victorian curiosity might soon become a key tool for probing the most elusive region of the atmosphere.'
The Verge
2 hours ago
- The Verge
Some doctors got worse at detecting cancer after relying on AI
We've heard about upskilling and re-skilling due to AI — but how about de-skilling? A new study published this week found that doctors who frequently use AI to detect cancer in one medical procedure got significantly worse at doing so. The researchers set out to discover whether continuous exposure to AI impacted doctors' behavior when conducting colonoscopy, so they decided to assess 'how endoscopists who regularly used AI performed colonoscopy when AI was not in use.' The answer: Not so hot. The rate was about six percentage points lower. The study was published in The Lancet Gastroenterology & Hepatology journal by medical professionals and researchers in countries including Poland, Norway, Sweden, the U.K., and Japan. It followed doctors at four endoscopy centers in Poland, which were part of a trial program focusing on AI's use in colonoscopy for potential cancer prevention. It raises questions about the use of AI in healthcare, when it helps and when it could hurt. Last week, The Verge reported on a Google healthcare AI model's instance of potentially hallucinating a body part and where medical professionals think the industry will go from from this author will be added to your daily email digest and your homepage feed. See All by Hayden Field Posts from this topic will be added to your daily email digest and your homepage feed. See All AI Posts from this topic will be added to your daily email digest and your homepage feed. See All Health Posts from this topic will be added to your daily email digest and your homepage feed. See All News Posts from this topic will be added to your daily email digest and your homepage feed. See All Science
Bloomberg
3 hours ago
- Bloomberg
India's Space Startups Face Risks From Trump Tariffs
Hey, this is Mihir in New Delhi. The sudden deterioration of India's relationship with the US is casting a cloud over a successful test by one of the leading Indian space startups. But first ... Three things you need to know today:
