Oh, great: Rat populations are surging as cities heat up
Now scientists have found yet another gnawing advantage for rats. A study published on Friday in the journal Science Advances found that as temperatures climb in cities, rat populations are growing, even as city dwellers suffer. 'In cities that have experienced the fastest warming temperatures, they tended to have faster increases in their rat numbers as well,' said Jonathan Richardson, an urban ecologist at the University of Richmond and lead author of the paper. 'Females will reach sexual maturity faster. They're able to breed more, and typically their litters are larger at warmer temperatures in the lab.'
The analysis used public complaints about rats and inspection records from 16 cities between 2007 and 2024, which collectively served as a proxy for rat populations. In 11 of those cities, rat numbers surged during that period. The winner of the Most Rats Gained award goes to Washington, D.C., with a 390 percent increase according to the city's last decade of data, followed by San Francisco (300 percent), Toronto (186 percent), and New York City (162 percent). Meanwhile, a few cities actually saw their rat populations decrease, including New Orleans, Tokyo, and Louisville, Kentucky, due in part to more diligent pest control.
'It's a first step at answering this question, that if you get a bunch of rat scientists into a room we're bound to ask each other: How might climate change play into rat populations?' said Kaylee Byers, a health researcher at Simon Fraser University in Canada, who wasn't involved in the study.
Beyond the physiological factors that influence breeding, rat behavior changes with temperature, too. If it's too cold out, the rodents tend to huddle underground — in basements, sewers, and really anywhere else in the subterranean built environment. Once it warms up, rats emerge and gorge, but also bring food back to their nests to store in caches. Climate change is also altering the timing of seasons: If the weather stays warmer a week or two longer into the early winter, and if spring comes a week or two earlier, that's more time to forage. 'Rats are really well-adapted to take advantage of a food resource and convert that to new baby rats that you'll see in your neighborhood,' Richardson said.
While temperatures are rising globally, they're getting particularly extreme in cities thanks to the urban heat island effect. Buildings and concrete absorb the sun's energy, raising temperatures up to 27 degrees Fahrenheit higher than in surrounding rural areas and releasing that heat at night. That's especially dangerous in the summer for urbanites during prolonged heat waves. But in the winter, that bit of extra heat could be helping rats.
Rising temperatures were the dominant force helping rat populations grow, but they weren't the only factor, the study found. Urban human populations are exploding around the world, and they're wasting a lot of food for rats to find. As cities expand around their edges, they have to add new infrastructure, which rats colonize. And when cities build new sewer systems to handle more people, they often leave the old ones in place, providing a welcoming environment for rats. 'The vestigial urban infrastructure that's down there, it doesn't really matter for us,' Richardson said. 'But for a rat, that's like a free highway.'
The researchers also found that cities with fewer green spaces had higher growth of rat populations. It's not clear yet why that might be, they said. No two green spaces are the same: A small urban park might teem with rats because office workers flock there to eat lunch, then drop their leftovers in trash bins, whereas the interior of a larger space like Central Park might provide less food and fewer places for rodents to hide from predators like hawks and coyotes.
So how can a city control its rat population as temperatures rise? For one, by getting more data like the numbers found in this study. 'You can't manage what you can't measure,' said Niamh M. Quinn, who studies human-wildlife interactions at the University of California Division of Agriculture and Natural Resources but wasn't involved in the research. 'We live in an infinite sea of rats, so you can't just manage small pockets. You have to have municipal rat management.'
New Orleans has succeeded by being proactive, Richardson said, such as with education campaigns teaching building owners how to rat-proof their structures, and insisting that if they do see rats to call the city for eradication. Cities can't just poison their way out of this problem without hurting other animals, he said, because that poison makes its way into the stomachs of rat-eating predators.
'Right now, our approach to rat management is very reactive,' Byers said. 'We're not thinking about the future at all. We need to do that if we're actually concerned about rats, and if we want to manage the risks associated with them.'
This story was originally published by Grist with the headline Oh, great: Rat populations are surging as cities heat up on Jan 31, 2025.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
UPI
8 hours ago
- UPI
Watch: 'Astonishing' video shows human embryo implanting in real time
1 of 4 | A human embryo is shown implanting itself inside a simulated uterine wall in an image taken from the first real-time video of the process ever recorded. Spanish researchers say they hope their video will lead to a deeper understanding of infertility. Photo courtesy Institute for Bioengineering of Catalonia Aug. 11 (UPI) -- A team of Spanish researchers announced Friday they have for the first time recorded video of a human embryo implanting itself in a simulated uterine wall, revealing never-before-seen details of how 5-day-old embryos carry out the mysterious process. Using advanced microscopy techniques allowing the scientists to record the human embryo in full color and 3D, the "astonishing" videos provide the first-ever, real-time glimpse of the implantation process and have provided key insights into how it actually works, they said. Researchers from the Institute for Bioengineering of Catalonia and Dexeus University Hospital in Barcelona, Spain, said the videos reveal for the first time that embryos exert "considerable force" and employ digging traction as they "invade" the uterine tissue, becoming completely integrated with it. The findings, published in journal Science Advances, found crucial differences between how mouse and human embryos move in connecting to the uterus wall, the authors said. An "ex vivo" platform they developed using an artificial uterine matrix made of gel and collagen which allows for implantation outside of a human uterus made the videos possible. The system could have a "significant impact" on efforts to counter infertility and help those who are unable to conceive naturally, they predicted. Failure of the implantation process is the main reason behind the relatively low effectiveness of assisted reproductive technologies, such as in-vitro fertilization, in which embryos are conceived in a lab and then transferred to the womb. Implantation occurs in only 25% to 30% of transferred embryos -- whether conceived in vivo or in-vitro -- with embryo quality cited as the most significant feature affecting implantation. "We've opened a window into a stage of development that was previously hidden," the co-authors said in a statement to UPI. "After Day 5, when an embryo has 100 to 200 cells, it must implant, but until now, doctors couldn't observe it again until an ultrasound weeks later. "With our system, we can test culture conditions or compounds that might improve implantation." For example, the scientists say they have already developed a protein supplement that can be used in clinics to enhance implantation rates, available through their spin-off company Serabiotics and in collaboration with the Spanish pharmaceutical major Grifols. "In short, this is a new tool for extending embryo observation and optimizing conditions for success," they said. The videos show a donated human embryo powerfully pulling on the uterine matrix and reshaping it as it goes, illustrating the importance of "optimal matrix displacement." Lead author Samuel Ojosnegros, principal investigator of IBEC's Bioengineering for Reproductive Health Group, said the initial real-time look at a human embryo implanting itself was a profound experience for him. "We had some experience making time-lapse movies of mouse embryos, but the first time we saw a human embryo implanting was truly astonishing," he said. "Everything was different, the size, the shape, the behavior. They were stronger, more forceful, digging a hole into the matrix in a remarkably invasive way. Every detail felt unique. "Watching it alive, in action, for the first time was absolutely mind-blowing." Embryo implantation is the "holy grail" of reproduction -- and unlike in the animal world, in humans it can be a problematic process, resulting in about 1 in 6 people around the world having trouble making a baby, noted Dr. Mark Trolice, a professor at the University of Central Florida College of Medicine and founder/director of The IVF Center, a full-service reproductive medicine clinic in Orlando. "Even though scientists have studied this for many years, they still do not fully understand how implantation works or what makes the uterus ready for an embryo," he told UPI. "One big mystery is why a woman's body can grow a baby made from sperm -- which is a 'foreign' tissue -- without rejecting it, as well as the ability to carry a donated egg." The new study, he said, "gives researchers a closer look at implantation. They used an ex vivo model, which means they studied the process outside the body. This let them watch how embryos interact with the uterine lining (called the endometrium) and measure the tiny pulling and pushing forces from both mouse embryos and donated human embryos." The videos showed for the first time that each species makes its own unique pattern of forces during implantation. Trolice noted that while there are "some limits" to the Spanish study, "this work could lead to new ways of adjusting the uterine environment, which might help more embryos successfully implant. "Before any treatment can be used, scientists will need to do human clinical trials. There are also important ethical and legal rules about using human tissues and embryos, which researchers must follow," he added.
Yahoo
14 hours ago
- Yahoo
Megathrust fault line off Haida Gwaii confirmed through new imaging
Scientists have confirmed that a fault line off the west coast of Haida Gwaii is of the megathrust variety, capable of generating large earthquakes and tsunamis. The conclusion was gleaned through hydrostatic imaging and measurements of the Queen Charlotte Fault where the Pacific tectonic plate meets the North American plate. The finding was published in Science Advances. The images show that instead of the plates sliding horizontally against each other, the Pacific plate is also colliding with and diving under the North American plate, in a process known as subduction. The friction created by subduction is what creates megathrust conditions, according to UBC professor and study co-author Michael Bostock. "For most of its length, the Queen Charlotte plate boundary is very much like the San Andreas fault — one plate is sliding by the other. But at the southern end, along the coast of Haida Gwaii and in particular southern Haida Gwaii, there is a component of convergence. So not only are they moving... side by side, but they're compressing each other." Bostock said the magnitude 7.7 Haida Gwaii earthquake of 2012 led scientists to understand there was a significant component of "under thrusting" or subduction along the fault line. The new research has now mapped it out in greater clarity. At approximately 300 kilometres long, the Queen Charlotte subduction zone is shorter than the 1,000-kilometre-long Cascadia subduction zone that runs from northern Vancouver Island to Northern California. The Cascadia subduction zone is where the "Big One" is expected — that being the oft-forecasted megathrust earthquake predicted to register magnitude 9 or higher. Experts believe it's just a matter of time before the Big One hits considering that stress between the subducting Juan de Fuca plate and the North American plate has been building up since its last major earthquake in the year 1700. In contrast, Bostock believes Haida Gwaii is not susceptible to a megathrust quake anytime soon. "In my opinion it's very unlikely we'd have another megathrust earthquake off Haida Gwaii within the next 100 years. We're not building stress up fast enough for us to have another one like we just experienced 12 years ago," he said. The western coast of Haida Gwaii has been the site of four earthquakes of 7.0 magnitude or more in the past century, including the largest in recorded Canadian history in 1949 that registered 8.1, according to Earthquakes Canada. University of Victoria professor and study co-author Kelin Wang said the new research helps understand and plan for a megathrust. "Certainly it will provide important input for our building codes and the type of ground shaking we would expect, also in terms of tsunami evacuation and preparedness," he said.
Time Magazine
2 days ago
- Time Magazine
Rebecca Young: TIME's Girls of the Year List
In the middle of winter, temperatures in the Scottish city of Glasgow can drop as low as 17 degrees Fahrenheit. For anybody unfortunate enough to be sleeping on the streets, those conditions could quickly become deadly. That fact was on Rebecca Young's mind when the schoolgirl, then 11 years old, was asked during a club at school to come up with an idea focused on helping people. Young's design—a solar-powered backpack with an electric blanket inside—ended up winning an engineering award in a U.K.-wide competition with 70,000 entrants. It wasn't just an idea: Young researched different types of solar panels, wiring, and batteries, and drew up a detailed blueprint. The engineering firm Thales, which sponsored the competition, subsequently manufactured 30 of the blankets which were distributed to a homeless shelter in Glasgow earlier this year, Young says. There are plans to make 120 more. 'I'm very proud,' says her mother Louise. The homelessness problem won't be solved with blankets alone, but for 12-year-old Young, the experience was a first taste of how engineering in practice. 'It helped me see a different aspect of engineering, and how it could actually help people,' she says. 'That definitely helped inspire me.'
