The New York Times described the stunning behavior over 100 years ago.
A barn owl’s ability to hunt by hearing alone relies on exquisite variations in the structure of its feathers.Routine checkups for humans are usually straightforward. The doctor tells you what to do, and unless you’re a squirming baby or terrified of needles, you pretty much follow instructions.
But what happens when the patient is a giant yellow-orange eel with sharp teeth? Things get a bit slippery. At the New England Aquarium, experts need to follow a complicated process in order to get Thomas, a green moray eel (Gymnothorax funebris), ready for his yearly checkup.
The first step consists of retrieving Thomas from the aquarium’s giant ocean tank. Divers get him into a plastic barrel.Thomas and the barrel are then submerged into a different water tank with powdered anesthetic water, Melissa Joblon, New England Aquarium’s director of animal health, tells Popular Science.
“We have to be really cautious to make sure that he’s fully anesthetized before we handle him because they can be dangerous,” she adds, “and they’re very slippery and can kind of slither away if we’re not really careful.”
Once Thomas is essentially knocked out, the team lifts him from his sedation bin and onto a rack. They then flush water—with more of the anesthesia agent—which allows him to continue breathing.
The medical exam is preventative care, meaning the team is on the lookout for any health issues to catch them before they become serious. The session includes a physical exam, bloodwork, a full ultrasound, and an electrocardiogram. The team is essentially investigating the eel’s outsides and insides.
“We do full routine annual exams on the majority of the animals that live at the aquarium, similar to bringing your cat or dog to a vet once a year,” Joblon explains.
Thomas is probably 18 to 21 years old, but he was a juvenile when the New England Aquarium took him in. A pet owner donated him after wisely deciding that they couldn’t care for the eel anymore—Thomas was becoming too big. Green moray eels are, after all, among the largest morays—they can be eight feet long.
Here’s to making sure Thomas eels good.
The post Thomas the moray eel goes to the doctor appeared first on Popular Science.
A unique turtle is officially getting a second chance at life in the big blue. Last month we reported on a special resident at the Georgia Sea Turtle Center in Jekyll Island, Georgia: a first-generation hybrid sea turtle, the child of a Loggerhead sea turtle father (Caretta caretta) and a Kemp’s ridley sea turtle (Lepidochelys kempii) mother. Nicknamed Earl Grey, the reptile-turned-celebrity has returned to the wild.
This Hannah Montana of turtles was slated to be released on Wednesday, but on Tuesday the Georgia Sea Turtle Center announced a change of plans because of “some unexpected pre-release complications.” Luckily, these complications must have been resolved. He was sent on his way Thursday morning, only one a day behind schedule.
“Yesterday evening, veterinarians at the Georgia Sea Turtle Center determined that the best course of action for Earl Grey’s well-being and successful transition back into the ocean was to conduct a private release,” according to a George Sea Turtle Center spokesperson.
The turtle was rescued from a beach in Brewster, Massachusetts, where it was stranded and cold-stunned. The turtle’s mixed background was revealed by genetic testing after the Loggerhead ridley (or Kemp’s Loggerhead?) arrived at the turtle center. Hybrid animals are natural, but we don’t know how many wild hybrid sea turtles there are. Most hybrid animals are only confirmed with genetic testing.
“From an evolutionary perspective, hybridization could be one of many ways genetic diversity is introduced into a population,” Jaynie L. Gaskin, Georgia Sea Turtle Center director, told Popular Science in April. “We encourage other rehabilitation facilities to consider genetic testing for any suspected hybrid sea turtles, as there may be more individuals than we currently realize!”
In a Facebook video, the turtle center highlights the traits that the rare hybrid sea turtle inherited from each species, including a hook-shaped beak of a Kemp’s ridley (the mother) and the colors of a Loggerhead (the father). A combination of, in their words, the “best of both worlds.” .
Stay warm, E.G.!
The post Rare hybrid sea turtle released back into the ocean after rescue appeared first on Popular Science.
For decades, scientists have known that Earth’s magnetic field helps migratory birds and homing pigeons navigate. Just how our feathered friends sense the invisible sphere around the Earth, however, has been less clear.
At least part of the answer appears to be hiding inside a seemingly random organ. Immune cells inside pigeon livers called macrophages are sensitive to the planet’s magnetic field. These cells function like an internal compass, according to a new study published today in the journal Science.
Macrophages destroy old red blood cells, which makes them accumulate iron. The iron makes the macrophages superparamagnetic, a kind of magnetism that takes place in particular nanoparticles. The nanoparticles can then be magnetized if a magnetic field is applied to them.
“When pigeons fly, the nanoparticles align with the magnetic field and become ‘magnetized,’” Clivia Lisowski, a co-author of the study and a post-doctoral researcher in Immunology at the University of Bonn, tells Popular Science. “Like that, pigeons can sense Earth’s magnetic field.”
To understand how these particles help the pigeons navigate, Lisowski and her team tracked down where magnetic cells are in pigeons’ bodies. Because the liver and spleen store significant quantities of iron, researchers thought these might be good candidate organs. The liver had a significantly stronger magnetic response than any of the other tissues in the study, according to study co-author Ulf Wiedwald, an expert in nanoscience at the University of Duisburg-Essen in Germany,
From there they homed in on macrophages, and put these important immune cells to the test. They studied pigeons that were trained to fly back to their aviary in Konstanz, Germany, from over 12.4 miles away. Pigeons whose macrophages had been removed got lost when the weather was overcast. But when the sun was out, the pigeons reached the aviary, probably with the aid of solar cues.
The findings show how the birds employ magnetic sensing to find their way, as well as the sun’s orientation.
“Our study has implications for both the immune research landscape as well as for research on animal navigation or magnetoreception, respectively. For animal navigation it’s a new concept of how animals sense/perceive Earth’s magnetic field,” Lisowski says. “We think that this ferrimagnetic mechanism can actually explain how birds migrating at night, or sharks or bats or other animals migrating in dark environments can perceive Earth´s magnetic field.”
The team also found that the iron-rich macrophages are close to nerve fibers, indicating that magnetic information can get to the brain via this route. Ultimately, this shows how important interdisciplinary research, involving immunologists, behavioral biologists, and physicists, carries significance for more than just birds.
As for the immune system, Lisowski explains that to accomplish its different fuctions—such as defending our bodies from pathogens and healing wounds—it has to sense the environment.
“Our finding that the immune system can also sense the Earth´s magnetic field is a complete new layer in this concept of ‘immuno-sensation’ and opens the door to new research,” Lisowski explains.
The post Pigeons use their livers to sense Earth’s magnetic field appeared first on Popular Science.
Sunburn and mosquito bites go together in the summer like a hot dog and ketchup. To keep from becoming a mosquito buffet, most of us turn to bug sprays with DEET. An acronym built from its scientific identification (diethyltoluamide), DEET was developed for the United States Army in 1946 and entered civilian use in 1957. It is generally considered safe when used as directed.
However, mosquitoes can learn to associate the repellant with food. They may even become attracted to it. The findings are detailed in a study published today in the Journal of Experimental Biology.
“If someone applies DEET and the concentration fades over time, but a mosquito still manages to feed, the insect may begin associating that smell with a reward,” Clément Vinauger, a study co-author and biochemist at Virginia Tech, said in a statement. “That’s a possibility we should take seriously when we think about how repellents are used in the real world.”
Like it or not, Earth’s over 3,500 known mosquito species are pretty smart and an evolutionary wonder. They use sensory information to find hosts and can adapt to changing environments.
In previous studies, Vinauger’s team has shown that the insects remember and avoid hosts who swat them away, can combine smell and vision to precisely track humans, and even gravitate toward and away from the smell of certain soaps.
“Mosquitoes are remarkable at processing information about their environment,” Vinauger said. “What we are trying to understand is not only how they detect us, but how their brains interpret those cues and turn them into behavior.”
In this new study, the team focused on the yellow fever mosquito (Aedes aegypti). This species spreads several diseases to tens of millions of people each year, including dengue fever, Zika, yellow fever, and chikungunya.
The team trained mosquitoes using a form of Pavlovian conditioning. Often called “Pavlov’s dogs,” this training method developed by neurologist and physiologist Ivan Pavlov in the early 20th century was used to teach dogs to associate the sound of a bell ringing with food.
The mosquitoes were restrained behind a piece of fabric mesh. They then offered the mosquitoes a bag of warm blood (yum) that was just out of the insects’ reach to see how enthusiastically the insects stabbed at it with their proboscises. As expected, the mosquitoes were interested in the blood, particularly when the team rewarded them by lowering the bag within reach. Things changed a bit once DEET entered the experiment. When the team offered the insects blood when surrounded by the scent of DEET, they initially stayed away from the potential feast.
To see if they could be trained to associate that smell with the dinner bell, the team fed the mosquitoes warm blood for 20 seconds, squirting the scent of DEET into the enclosure in the final 10 seconds of dining. They repeated the procedure three more times before noting how the mosquitoes responded to only the scent of DEET. In this trial, over 60 percent of mosquitoes tried to bite when they smelled DEET.
To examine further, the mosquitoes were given a choice between two human hands. The hand belonged to study co-author Ayelén Nally of the University of Buenos Aires. One of Nally’s hands was coated with DEET at normal concentrations and the other was bare. The untrained mosquitoes avoided the DEET-treated hand, while the trained mosquitoes were drawn to it.
Interestingly, the mosquitoes could form that same association when sugar, instead of blood, was used as the reward.
According to the team, they are seeing how the mosquito’s brain can rewrite its response based on their experiences. What they have learned matters just as much as what a chemical like DEET does.
“If mosquitoes are repeatedly exposed to DEET, it becomes less effective as a repellent,” study co-author Claudio Lazzari from University of Tours in France added.
Importantly, this does not mean you should stop using DEET completely. It is still one of the most effective ways to keep the dangerous insects away, particularly where mosquito-borne disease is common.
“If you’re in tropical regions where disease risk is real, you should use it,” Vinauger said. “Instead of applying a lot at once, you may want to reapply regularly so it’s always active and providing continuous protection.”
Treated clothing may also be a challenge since DEET concentrations in fabric decline over time. Additional study to understand their behavior is crucial for public health as mosquito-borne illnesses increase due to climate change.
“We need to understand how mosquitoes keep outsmarting our control strategies,” Vinauger concluded. “And that takes understanding how they work—at the molecular level, the neural level, the behavioral level.”
The post Mosquitoes can learn that DEET means dinner is served appeared first on Popular Science.
On April 21, a baby horse was born at the Wildlife Conservation Society’s Bronx Zoo in New York City. But it wasn’t just any foal that came into the world—this newest resident of the Big Apple is a Przewalski’s horse (Equus ferus przewalskii), an endangered species that has been pulled back from the brink of extinction.
Przewalski’s horses look more like a mule than your average horse. For starters, their mane sticks up straight into the air and they don’t have a forelock (horse bangs, basically). Przewalski’s horses are also short, light brown, and—excuse the necessary slang—exceptionally chonky. They also have a really thick neck.
They are also referred to as the Mongolian wild horse, and they are the only truly wild horse species left, according to the International Union for Conservation of Nature (IUCN). Though the species used to exist across Asia and Europe, their numbers plummeted so much that at one point they were deemed Extinct in the Wild.
“The Bronx Zoo has played a pivotal role in the conservation of Przewalski’s horse,” the Bronx Zoo wrote in a statement announcing the birth. “Through breeding programs aimed at maintaining a genetically diverse population of the species and through reintroduction efforts, zoo-bred Przewalski’s horses were successfully returned to their native grasslands in China in 1989 and in Mongolia beginning in 1992.”
Przewalski’s horses now live in Mongolia, China, and Kazakhstan, as well as in zoos. Rather shockingly, the entire extant population (which researchers estimate is less than 2,000 individuals) descends from only 12 horses.
In Mongolia, the Wildlife Conservation Society supports Protected Areas with wild horses. As for the Bronx Zoo, the foal is part of a herd. Visitors can see it from the Wild Asia Monorail, where the adorable baby is sure to develop a colt (young male horse) following.
The post Rare Przewalski’s horse born in New York appeared first on Popular Science.
Previously, we reported on the birth of a baby western lowland gorilla (Gorilla gorilla gorilla) at Seattle’s Woodland Park Zoo on May 18. His mother Jamani was one of two pregnant western lowland gorillas bearing children from the same father, a silverback gorilla named Nadaya. Since Olympia was due around the same time, we spent the long weekend waiting anxiously for news.
The Woodland Park Zoo’s announcement arrived last night. The baby was born on May 24—five dates past the due date. To bring her baby into the world, the medical team that usually works on humans performed an emergency C-section on Olympia. The procedure is incredibly rare for gorillas, with less than a dozen recorded gorilla C-sections.
“Over the weekend, the decision to proceed with emergency delivery was due to low fluid and intermittent low baby heart rate (found by us with the Butterfly) and critical behavioral information from the keepers team that suggested delayed/paused labor, with confirmation of ruptured membranes (bag of water) by the Team Gorilla OB physicians,” Sachita Shah, emergency physician and VP of Global Health at medical equipment manufacturer Butterfly Network, tells Popular Science. In a previous interview, Shah said that ultrasounds of gorilla fetuses look very similar to ultrasounds of human fetuses.
Butterfly is an all-in-one ultrasound probe that the gorilla care team has been using to monitor the pregnancies. Once the baby came out, “I used The Butterfly throughout the neonatal resuscitation to keep a close eye on the baby’s heart rate as our vital sign so we were able to ensure the safe point to transition from neonatal resuscitation to post natal care,” Shah adds.
Whether for humans or gorillas, a C-section is a major operation, and Olympia rested without the baby for the first night after the birth. But the newborn wasn’t far away—a gorilla keeper and veterinary technician took care of the baby in a den next to Olympia’s, so she was able to see, hear, and smell it. Both Olympia and the baby boy are now back with their gorilla troop, though Jamani is taking care of Olympia’s newborn as well as her own baby boy.
“So far Olympia’s baby is doing well and maintaining a healthy body temperature. While Olympia recovers from the C-section, our plan is to allow Jamani to continue caring for Olympia’s son while also caring for her own son as long as both infants remain healthy, which is our priority,” Martin Ramirez, Curator of Mammalogy at Woodland Park Zoo, explained in a blog post. “Once Olympia shows signs of being ready for her baby, we’ll move forward with plans to reunite them.”
It remains to be seen what the mother-son duo will look like. However, western lowland gorillas are critically endangered, so the important thing is that both remain healthy.
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Everyone who has ever owned a hamster knows the sound: the small, relentless squeak of the exercise wheel, usually starting around two in the morning.
As you watch your cute furball running toward no destination whatsoever, you might wonder: What’s going on here? Is little Hammy acting out of restlessness or boredom?
For decades, scientists assumed it was exactly that: a neurosis, an artifact of captivity, the hamster equivalent of doing push-ups in prison.
But in 2014, researcher Johanna Meijer conducted a study that suggested a less depressing scenario. When wild mice came across a wheel in their natural habitat, they got on the wheel and ran—sometimes for up to 18 minutes at a stretch.
So if it’s not boredom or neurosis (wild mice surely have plenty of more important tasks than wheel running), what is it?
Dr. Theodore Garland Jr., a professor of biology at UC Riverside, has spent more than 30 years trying to figure that out.
“There’s still a lot of controversy about what, exactly, wheel running means to an organism,” Garland says. “What is it? What is the organism trying to do?”
In Meijer’s 2014 study, published in Proceedings of the Royal Society B, she and her colleagues placed exercise wheels in two different locations: a green urban area and a dune area not accessible to the public. For more than three years, they recorded wildlife activity at both locations.
They found that wild mice closely mirrored the behavior of their cage-dwelling counterparts. At both locations, the mice frequently ran on the wheels—often for lengths of time equal to the “workout” durations of captive mice.
Although food was initially used to attract animals to the wheel, the researchers found that wheel running continued even after the food was removed. This suggests that the animals not only ran voluntarily on the wheel, but did so without any external reward.
The wheels attracted more than just mice, too. Shrews, frogs, and even slugs were recorded using the equipment (a few snails were excluded from the study due to “haphazard” movements on the wheel). But wild mice used the wheel far more than another animal, accounting for 88 percent of all wheel runners.
So, why do rodents specifically enjoy a run to nowhere? Are slugs simply less committed to their cardio?
According to Garland, rodents are simply built for it—bigger home ranges, faster metabolisms, and the aerobic capacity to sustain speed over distance.
“A toad isn’t going to be running 10 kilometers in a day,” Garland says. “Whereas a chipmunk could be.”
But that’s only part of the story. The more interesting question is why any animal would choose to do it at all.
According to Garland, the drive to run on wheels among free-ranging animals is not fully understood, but the behavior is likely tied to the reward centers of the brain.
“Dopamine is viewed as the final common denominator,” Garland says, referencing the neurotransmitter that delivers a sense of pleasure to the brain’s reward system. Similar to a human working out at the gym, mice get a dopamine boost every time they run on their trusty wheel.
In Garland’s own lab, mice placed in larger, rat-sized wheels will sometimes slow down mid-run and rather than jumping off as the wheel keeps spinning, complete a full 360, and keep going. It serves no obvious purpose. It looks, for all the world, like a bit of acrobatics, as if the little mouse is creating its very own roller coaster.
“I’m hesitant to use the ‘F-word’ about lower vertebrates,” he says, “but it’s hard to ignore the idea that they’re getting some sort of pleasure or enjoyment out of it.”
The reward system may explain the drive, but Garland sees something even more elemental at work—something similar to the “zoomies” dogs and other young animals get.
A baby horse, Garland notes, will sometimes just tear around a field for no apparent reason—solo, unprompted, burning energy for the sheer joy of it. “We used to call it nip-norting,” he says, “just going crazy, even without another individual to egg it on.”
Rodents’ love of running on wheels might even have implications for humans. Some of Garland’s work suggests that, when introduced at a young age, wheel running can become a lifelong habit.
In his study, Garland found that mice given access to a running wheel immediately after weaning, at just three weeks old, ran significantly more as adults.
“It’s got to be something up here,” Garland says, indicating the brain. “Their reward system has been permanently tweaked.”
Whatever it is keeping these little guys running, an early start seems to predict an ongoing practice. The implications, Garland believes, extend well beyond mice. For instance, cutting physical education from school curricula, he says, could be “a huge public policy disaster,” leading to adults who aren’t used to exercising.
“If you’re a kid who never gets to play basketball or tennis,” he says, “and then you get to college, and your friends are playing pickup games, it’s probably not even on your radar to do that kind of thing.”
Of course, none of this is on your hamster’s radar at all. They’re just galloping away, keeping you awake with the endless rotation of their squeaky wheel. But all that running can also lead to some good: Recently, a resourceful young YouTuber rigged his brother’s hamster wheel to charge his phone.
But no need to worry—the clever teen isn’t exploiting the toil of a joyless captive. Hammy, it seems, is just doing what comes naturally.
In Ask Us Anything, Popular Science answers your most outlandish, mind-burning questions, from the everyday things you’ve always wondered to the bizarre things you never thought to ask. Have something you’ve always wanted to know? Ask us.
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If you’ve ever shared a bed with your child, you know the pain of flailing limbs at 3am. Bald eagle parents can relate.
Jackie and Shadow‘s 2026 eaglets, Sandy and Luna, have reach near-adult size, which has made sharing the nest bowl at night a difficult task. Viewers of the eagles’ 24/7 livestream have noticed that the parents no longer sleep right next to the young pair, instead resting on a nearby branch while the chicks doze at night.
“While it looks like she just needs a break from the kids, one of the most practical reasons is space management,” Friends of Big Bear Valley (FOBBV), the non-profit behind the livecam, explains. “By the time the chicks are 6 to 7 weeks old, they are nearly adult-sized. If you’ve ever tried to share a bed with someone who flails, kicks, and unexpectedly opens a 6-foot wingspan in the middle of the night, you would know exactly why Mama moves out!”
To us humans, sleeping in a cozy nest likely seems more comfortable than catching zzzzzs while standing, but we don’t have bird legs. Bald eagles roost on branches thanks to a natural adaptation called a tendon locking mechanism. This mechanism allows the majestic birds to clamp onto a branch or prey without needing to constantly flex their muscles. By doing so, the birds conserve energy and reduce fatigue—think about how weak your puny human legs would feel after standing all night.
Mama Jackie still remains close to Sandy and Luna to watch for predators, but also far enough away to avoid random talon jabs.
It’s been another roller coaster nesting season for Jackie and Shadow, a pair of internet-famous bald eagle parents living in San Bernardino National Forest in Southern California. After two of their eggs were destroyed by ravens in January, Jackie and Shadow laid two new eggs that have successfully hatched.
Chick 1 hatched on April 4 at 9:33 p.m. PDT, while Chick 2 followed on April 5 at 8:30 a.m. Their large nest in Big Bear Valley east of Los Angeles is livestreamed 24 hours a day by nonprofit Friends of Big Bear Valley (FOBBV) and has captivated millions.
On May 1, FOBBV announced the chicks’ names: Sandy and Luna.
Chicks usually stay in the nest until 10 to 14 weeks of age. This year’s chicks will likely fledge sometime between mid-June and mid-July.
Before leaving the nest, the chicks face threats from other birds of prey, including hawks, ravens, other eagles, and owls. Inclement weather can also present challenges for the chicks. In 2025, a March snowstorm resulted in the death of one of Jackie and Shadow’s three chicks.
During fledging, only 70 percent of eaglets survive. One of the greatest threats is from cars that can injure or kill the birds while they scavenge for food on roadkill.
The pair first got together in 2018 and successfully raised chicks in 2019 and 2022. However, their eggs failed to hatch in 2023 and 2024. Only 50 percent of eagle eggs successfully hatch, so this pair has already beaten the odds.
In 2025, Jackie laid three eggs that all hatched in early March. On March 13, a strong snowstorm dumped up to two feet of snow and battered the nest with strong winds. Only two of the chicks were visible on the live cam when the storm passed by the next morning. FOBBV later confirmed the passing of one of the chicks. The two surviving chicks were later named Sunny and Gizmo after 54,000 names were submitted by fans.
Young eagles usually fledge–or leave the nest and fly–when they can flatten their wings and have feathers capable of flight. This typically occurs when the birds hit 10 to 14 weeks of age. Males also tend to take their first flight a little sooner than females.
According to FOBBV, fledglings from Southern California have been spotted as far south as Baja California, as far north as British Columbia, and as far east as Yellowstone National Park.
About 70 percent of bald eagles survive the fledgling stage. FOBBV does not tag their eagles, so it’s not possible to follow the chicks’ journeys after they flee the nest.
Yes. Environmental groups are currently fundraising $10 million to protect Jackie and Shadow’s foraging area from development. Learn more at SaveMoonCamp.org.
The post Jackie and Shadow’s chicks no longer sleep with mom in the nest bowl appeared first on Popular Science.
Animals are not the only stinky living things on this planet. The putrid corpse flower blooms with the stench of rotting flesh, as does the lesser-known (but equally pungent) Bulbophyllum phalaenopsis. Then there is the elegant stinkhorn (Mutinus elegans), a fungus known for its phallic appearance and spores that give off the odor of rotting meat.
Also called the devil’s dipstick, elegant stinkhorns are found across most of eastern North America, particularly from spring to the earliest days of winter. It has also been found in parts of Europe and Asia. They typically prefer temperate climates and looser soils, springing up in gardens, mulch beds, forests, and wood debris during warm and wet weather. They can grow to about four to six inches tall, and a mature mushroom will only last a day or two before subsiding.
All of that stench comes from the dark and slimy coating on the mushroom’s tip called the gleba, and it serves an important purpose. The fungi uses this dark and stinky spore mass to get the flies and other insects buzzing. Once they get a whiff of that rotten flesh smell, they will land on the stinkhorn and get covered in spores. As the bugs fly away, they spread the stinkhorn’s spores far and wide, so that more stinkhorn can pop up elsewhere.
During the Victorian era, their penis-like appearance was reportedly distressing to some ladies. According to one story, naturalist Charles Darwin’s daughter Henrietta (or Etty), was openly combative towards the elegant stinkhorn. She would roam the woods armed with a spear, following her nose to the offensive mushrooms. Her niece recalled that Etty would find the fungi and “poke his putrid carcass into her basket.” After cleansing the territory, Etty would then secretly burn it to protect “the morals of the maids.”
If you encounter this bizarre fungus in the wild like Etty Darwin, don’t worry. Beyond offending your nostrils, it is not poisonous or dangerous to your health. But you still probably shouldn’t eat it anyway.
The post This phallic fungus also smells like rotting flesh appeared first on Popular Science.
When Sachita Shah sent her cardiologist brother an ultrasound of her patient’s heart, he was very confused. The heart was huge, and the left ventricle incredibly muscular. His confusion was warranted, as the ultrasound was not of a human heart. It belonged to another primate—a gorilla. Shah, emergency physician and VP of Global Health at medical equipment manufacturer Butterfly Network, tells Popular Science that if she had shown an ultrasound of a gorilla fetus to a radiologist, they would have assumed it was a human baby.
Shah is on the gorilla care team currently looking after Jamani and Olympia, two western lowland gorillas (Gorilla gorilla gorilla) mothers at Woodland Park Zoo in Seattle, Washington. Jamani gave birth on Monday May 18, and Olympia is expected to deliver her new baby imminently. Shah and her colleagues’s work involves conducting ultrasounds of Jamani and Olympia’s baby bump—though now probably just Olympia’s—to keep an eye on the baby’s growth and position.
“We got a really pretty baby face,” Shah says, speaking of the ultrasounds. “We could see nose and lips and fetal breathing movements and heartbeat and drinking fluid, opening mouth and swallowing. For all intents and purposes, it was very much the same [as a human baby].”
The endangered gorilla mothers were trained to take part in the exams and procedures conducted by the gorilla care team, and they could choose whether to participate or not. The gorillas put their bellies against the edge of the enclosure for the scan (and received snacks), where there is a small opening through which the care team can reach through with the ultrasound probe.
As such, the zoo needed a small and portable imaging device. That’s where Butterfly Network and their all-in-one ultrasound probe came in.
“When you think of an ultrasound, you might think of a big cart with lots of different probes—a different probe if you wanted to do a pregnancy scan, or a heart scan, or a pediatric scan might have a tiny probe,” Shah says.
Instead, the Butterfly probe they use at Woodland Park Zoo is a handheld ultrasound that plugs into a smart phone. It is around as big as an electric shaver, and it functions with a number of different softwares for either veterinarian or human health use. Notably, an app allows the team to use it for different types of scans—from a pregnant gorilla to a child’s lungs—that would traditionally require distinct probes and machines.
Shah and her colleagues also used the Butterfly ultrasound device to scan the heart of Nadaya, the silverback gorilla father of both babies. In fact, the heart ultrasound Shah sent to her brother belonged to Nadaya. They used human software for that scan, even though their vet software is optimized for fur. Fortunately, Nadaya’s chest isn’t very furry.
Shah, who has gone through a pregnancy herself, was most moved by working with the gorilla mothers.
“We could tell the baby’s head had dropped and we thought, ‘oh man, she must be so uncomfortable.’ And she was waddling and walking a little differently. I was like, ‘oh, I remember that, girl.’ It was just amazing to remember that we’re all connected in that way,” she says.
Western lowland gorillas are critically endangered, so babies are always excellent news.
UPDATE May 27 8:19 a.m EDT
On Sunday, May 24, at 1:44 p.m. PDT, Olympia’s baby was delivered by an emergency C-section performed by a medical team who typically works on humans. This 5.4-pund boy is the western lowland gorilla’s second baby.
The post Pregnant gorillas undergo ultrasounds and the results might look familiar appeared first on Popular Science.
Small as a grain of rice, polka-dotted, and everything nice. These are some of the ingredients that come together to make Thecacera sesama, a newly identified species of sea slug, or nudibranch, found swimming in Taiwan.
“Taiwanese divers call it ‘sesame’ in Chinese and it is also small like a sesame seed, hence the name,” researchers explain in a statement. Indeed, T. sesama is less than 0.12 inches long. The tiny bugger is also translucent and speckled black and yellow, and Ho-Yeung Chan “accidentally discovered” it while diving in 2019.
Chan is a researcher at the National Taiwan Ocean University’s Institute of Marine Biology and Center of Excellence for the Oceans, but was an undergraduate student when he made the discovery. Chan didn’t realize he’d found a previously unknown species until after he’d spoken with sea slug identification expert Hsini Lin via Facebook. Chan is now lead author of a recently published ZooKeys study officially introducing T. sesama to the world.
The new sea slug seems to enjoy a simple life. It displays just four main actions: feeding, searching, mating, and laying eggs on bryozoans. Also known as moss animals, bryozoans are a group of small aquatic invertebrates. The bryozoan that hosts T. sesama might also be a previously unknown species.
While you might assume that the most difficult aspect of researching T. sesama is its miniscule size, the hardest part of the study for the team was the explosive weather of Taiwan’s Keelung coast. The island as a whole often has summer typhoons and large waves in the winter monsoon season, during which the sea is frequently colder than 60.8 degrees Fahrenheit.
With these challenging conditions, researchers can only dive to investigate sea slugs for around a third of the year. The narrow window means that spotting the sesame-sized slugs is completely a toss-up.
“Nudibranchs are one of the key players in the marine food web,” the team explained. “They are extremely colourful and can be spotted on coral reef ecosystems. However, many nudibranchs are very small in size and are extremely difficult to spot underwater with the naked eye.”
Chan and colleagues believe that Taiwan’s marine environment is probably home to many other unknown tiny species. It remains to be seen what new strange creature will emerge from the island’s turbulent waters.
The post Seed-size sea slug looks like an everything bagel appeared first on Popular Science.
In March, we reported on a wild bobcat that had been hit and dragged by a car, who also got her head stuck in the car’s grill. As if things could get any worse, the wild feline arrived at Raven Ridge Wildlife Center in Pennsylvania on a Sunday, and the nearby veterinary practice was closed. But thanks to two lucky acquaintances, a mobile x-ray machine was brought in, revealing that the bobcat had broken two legs.
Thanks in part to the fact that her bone fractures were clean breaks, her team decided to risk a surgery. The next morning, two surgeons operated on the bobcat contemporaneously. After the operation, Tracie Young, director of the Raven Ridge Wildlife Center, told Popular Science that she was doing “fantastic” and “starting to act like a bobcat.”
In her great misfortune, the cat has been rather lucky—and it seems like the luck is holding. Two striking coincidences have now come together to get her a custom-made cage for her rehabilitation.
“After two months of recovery, the bobcat now needs to be moved outside for exercise and to begin building muscle tone,” the wildlife center wrote on social media. “We had to devise a safe and creative way to get her outdoors, necessitating the construction of special caging. We determined that a custom dog kennel would be the only viable option.”
However, the problems were twofold: time and money. The dog kennel builders the wildlife center contacted needed at least eight months to build the rehab cage, and the project would cost thousands of dollars. But then Raven Ridge’s photographer Dawn called her neighbor Glen for suggestions, who turned out to be the owner of a kennel-building business and could build the kennel in two weeks.
And if you think that’s enough of a coincidence, it gets even better. The very day construction commenced, Raven Ridge Wildlife Center received a letter with a generous donation. A woman named Raven Minervino has passed away, and her husband wrote that she had consistently supported the wildlife center. After she died, her husband had asked that rather than getting flowers, people make donations in her memory. The letter had a donation in her memory large enough to pay for the custom bobcat cage.
“Thanks to all this support, we successfully moved the bobcat to the new enclosure, where she is now exploring, exercising, and much happier,” reads the social media post. Raven Ridge plans to (or perhaps already has) put a plaque in Minervino’s memory on the cage.
Both of the bobcat’s broken legs have healed, and since having the custom cage, she has put on ten pounds, bringing her to the much healthier total of 19 pounds. Adult female bobcats weigh approximately 15 to 20 pounds on average
The post Bobcat that survived being hit by a car gets a custom-built kennel appeared first on Popular Science.
The spring’s hottest show is not on any streaming service. It’s the internet’s many live bird cams. Viewers can watch new life emerge, dramatic flights, plenty of eating, and more, all from the comfort of home. The Cornell Lab Bird Cams from Cornell University features birds from around the world, from delicate hummingbirds in South America to the wise-looking barred owls nesting in a backyard in Indiana.
“Our viewers tell us that watching the cams is a life changing experience: an unprecedented learning experience that they liken to virtual field trips or field biology in their living room,” the organization writes. “We’re excited to continue sharing and learning with the community as we watch the world of birds together.”
Below are a few of this season’s highlights, in no particular order.
On the morning of April 30, a mother barred owl brought a flying squirrel to her chicks, Artemis and Apollo, for breakfast. In the video, the squirrel’s patagium is visible. This special membrane connects the front and hind legs, allowing it to glide long distances between trees and separating it from other squirrel species.
For some birds, it’s all about the plants. This rufous-tailed hummingbird stops by the Panama Fruit Feeder Cam for a sip of nectar. This hummingbird species is commonly found in Central America and is known for its reddish tail and bright pink bill. Most hummingbirds are migratory, but there are easy ways to attract hummingbirds to your yard.
To greet the new day, a 20-day-old royal albatross chick opens wide and flaps its tiny wing nubs. This 24-hour live stream shows a northern royal albatross nest during the breeding season at Pukekura/Taiaroa Head on the southeast tip of New Zealand’s South Island. The world’s oldest known bird happens to be a Laysan albatross who nests about 4,393 north of New Zealand on the Midway Atoll.
In this compilation, this year’s owlets from the Wild Birds Unlimited Barred Owl Cam sleep, investigate the camera, and bob their heads. Technically called “motion parallax,” owls bob their heads to compensate for the fact that their eyes are fixed in their eye sockets. It helps them create a better view of their surroundings. Owlets use head bobbing to learn how to coordinate their sight with their hearing.
A keel-billed toucan was spotted eating a banana in the tropical trees of Panama. Toucans eat bananas by tossing pieces of the fruit into the air and swallowing them whole. Keel-billed toucans mostly eat bananas and are vital seed dispersers for fruiting trees in their habitat. The Panama Hummingbird Feeder Cam is about 35 miles north of Panama City in a vibrant tropical rainforest on top of Semaphore Hill within Soberanía National Park.
Since anything can happen in a rainforest, more than just birds pop up on a birdcam. While a gecko was lounging on the hummingbird feeder cam, a moth tried to join in. After the insect and reptile stare at each other for a bit, the gecko tries to grab the moth, but the moth escapes.
The post 6 bird cam highlights to celebrate nesting season appeared first on Popular Science.
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