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Bolivian Fossil Site Captures Thousands of Cretaceous Dinosaur Footprints, Tail Marks, and Swim Trails

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The Carreras Pampas archaeological site within Bolivia’s Toro Toro National Park has documented 1,321 tracks and 289 isolated footprints, totaling 16,600 theropod dinosaur footprints. Additionally, 280 swim tracks have been identified, amounting to 1,378 swim tracks in total. Some of the tracks include tail traces.

Dinosaur footprints at the Carreras Pampas Stadium in Bolivia’s Toro Toro National Park. Image credit: Esperante et al., doi: 10.1371/journal.pone.0335973.

Bolivia boasts one of the most comprehensive and diverse records of dinosaur footprints globally, covering the Triassic, Jurassic, and Cretaceous periods.

Despite the abundance of track sites, there has been limited scientific research published.

A recent study led by paleontologist Raul Esperante from the Institute of Geosciences, along with his colleagues, has documented an extraordinary variety of dinosaur footprints at the Carreras Pampas site in Toro Toro National Park.

In nine different study areas, the research team uncovered 16,600 footprints left by three-toed theropod dinosaurs from the late Cretaceous.

These footprints vary in size from small (less than 10 cm) to large (over 30 cm) and capture a range of dinosaur behaviors, including running, swimming, tail dragging, and abrupt turns.

“The waist height of most (80%) of the trackmakers was between 65 cm and 1.15 meters, with a significant portion measuring between 75 cm and 1.05 meters,” stated the paleontologist.

“Interestingly, very few trackmakers exceeded 1.25 meters in height.”

The majority of these footprints are oriented approximately northwest to southeast, and the sediments retain ripple marks, indicating that these dinosaurs traversed ancient shorelines.

“The Carreras Pampas track set a new world record for the number of individual dinosaur footprints, continuous tracks, tail marks, and swimming marks,” the researchers noted.

“This exceptional frequency suggests it was a heavily trafficked area, and the parallel alignment of some footprints may imply groups of dinosaurs traveled together.”

“Numerous more footprints at this site and other locations in Bolivia remain to be studied,” they added.

“This site offers a remarkable glimpse into the region’s past. It reveals not only how many dinosaurs inhabited the area but also their behaviors during migration.”

“It’s truly incredible to work here, as the ground is covered with dinosaur footprints wherever you look.”

The team’s findings were published in the online journal PLoS ONE.

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R. Esperante et al. 2025. Morphology, preservation, and taphonomy of dinosaur footprints, tail prints, and swim tracks in the world’s largest athletic arena: Carreras Pampas, Toro Toro National Park, Bolivia (Upper Cretaceous). PLoS One 20 (12): e0335973; doi: 10.1371/journal.pone.0335973

Source: www.sci.news

This Chilling Snake Uses Its Spider-Like Tail as Lure in Captivating Photo

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The spider-tailed viper embodies the essence of two widely feared creatures: arachnophobia (the fear of spiders) and ophidiophobia (the fear of snakes).

Imagine the only scenario where you might confront both fears: donning a clown costume (a fear of heights) and dangling from a high ledge (another fear of heights).

Nevertheless, this scenario is improbable. The spider-tailed viper typically resides in the rocky crevices of the Zagros Mountains, straddling the borders of Iraq and Iran.

Its name derives from its extraordinary tail, which mimics a spider with a swollen tip adorned with elongated “leggy” scales.

The first documented specimen was captured in 1968 and preserved in formaldehyde. When researchers from the Field Museum of Natural History in Chicago examined it two years later, they initially mistook it for a Persian horned snake, which is prevalent in the Middle East.

Initially, the spider-like appendage on the snake’s tail was thought to be a spider that inadvertently ended up in the jar. However, further examination revealed that the peculiar ornament was actually part of the snake’s tail.

The significance of this unusual anatomical feature remained ambiguous, with speculation about it being a rare anomaly linked to a parasite or tumor.

Watch a snake hunt in this clip from the BBC documentary Seven Worlds, One Planet.

In 2003, a second specimen was discovered in a damaged state, yet still exhibiting the same tail’s adornment.

The snake was identified as a new species, Pseudocerastes uralachnoides, which translates to “false horn with a spider-like tail,” sparking curiosity among researchers about whether this reptile uses its tail as a lure.

While it may sound peculiar, numerous predators utilize parts of their bodies to draw in prey. For instance, monkfish develop bioluminescent lures protruding from their heads.

The tufted wobbegong shark boasts a caudal fin that resembles a fish. Additionally, over 50 snake species are known to employ a technique called caudal luring, where they wag their tails to entice prey.

The tail of the spider-tailed viper mimics a spider to lure its prey – Credit: reptiles4all via Getty

What makes the spider-tailed viper exceptional is that it is the only species known to have evolved a “caboose” that closely resembles a large arachnid.

It took thirty years for scientists to ultimately validate their hypothesis about its caudal luring technique. They set up camp in the arid mountains of Ilam province in western Iran and captured footage of six successful spider-tailed viper hunts, all occurring…

During these hunts, the snake wagged its spider-like tail, capturing the attention of nearby birds. As the birds approached, the snake struck and injected venom, resulting in the bird’s swift demise. Minutes later, the bird was consumed whole.

Spring marks peak hunting season, coinciding with birds nesting and feeding their young. However, juvenile spider-tailed vipers must adopt different hunting methods.

These young snakes hatch without their distinctive “spider butt” and develop it as they grow. Until reaching maturity, they are believed to prey on small mammals and amphibians.

The lesson here: if you’re trekking through the Zagros Mountains and spot a peculiar-looking spider, it’s best to keep your distance.

We don’t fully understand the effects of snake venom on humans, so you may want to avoid that curiosity altogether.

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Source: www.sciencefocus.com

Unveiling the Reality of Borneo’s “Vampire Squirrel” and Its Enormous Tail

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Ever find yourself gazing at adorable things until they start to seem a bit creepy? Think of garden gnomes, baby dolls, kids dressed as princesses, and all cats. Well, there’s one more addition to this peculiar list.

The tufted ground squirrel (Rheithrosciurus macrotis) may appear cute with its bright eyes and bushy tail, but the Dayak hunters of Borneo view it as a cold-blooded killer.

This ruthless rodent, nicknamed “Vampire Alice,” is infamous for allegedly flipping deer onto their backs, using its razor-sharp teeth to sever their jugular veins, causing the animals to bleed out.

Those who discovered the remains of a deer in the woods suspect that the squirrel returns to the scene to feast on the deer’s heart, liver, and stomach.

In villages bordering the forest, tufted ground squirrels are also known to prey on domestic chickens and consume their hearts and livers.

The squirrel gained notoriety in 2014 thanks to a paper written by 15-year-old Emily Meyard, titled Academic Paper, which revealed folk tales about animals with a bloodthirsty reputation.

The paper was published in Taprobanica: Journal of Biodiversity in Asia and has since made these once-overlooked creatures go viral. Articles have been written, videos shared, perhaps making Beatrix Potter reconsider her legacy.

In 2015, footage of one caught on camera went viral for the first time, however, it did not catch any herbivores in the act.

Instead, they were seen foraging in Gunungparun National Park in West Kalimantan, where action from the killer critter remained elusive, but new revelations emerged.

The tufted ground squirrel shares its native Borneo habitat with Prevost’s squirrel, a fluffy creature with a black, reddish-brown, and white coat that prefers life among the trees. – Credit: Richard McManus via Getty

In 2020, researchers discovered that the unusual teeth of these squirrels—long incisors with intricate ridges—are adapted for cracking open tough nuts.

Tufted ground squirrels are highly specialized seed predators, with a strong preference for canarium tree nuts.

It turns out the perception of tufted ground squirrels as fearsome creatures is a misconception. They truly have bright eyes and fluffy tails.

In fact, their bushy tails are among the largest proportionally of any mammal, being 30% larger than their bodies.

The reason for this unusual trait remains uncertain. Since they spend most of their time on the forest floor seeking food, it’s not for warmth, as it rarely gets cold in Borneo.

This could be related to attracting mates, deterring predators, or perhaps serving a mysterious form of camouflage. Their tail, which features a charcoal hue with frosty accents, helps them blend into the forest floor.

Regardless, I’ve stopped disparaging tufted ground squirrels and have learned to appreciate them as genuinely fascinating creatures.

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Source: www.sciencefocus.com

Interstellar Comet 3i/Atlas Exhibits Expanding Tail and Broad Coma

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Astronomers utilized a Gemini Multi-Object Spectrometer (GMO) at the Gemini South Telescope, part of the NSF’s International Gemini Observatory in the Chilean Andes, to capture new multi-color images of the interstellar comet 3i/Atlas.

This image of 3i/Atlas was captured by the Gemini Multi-Object Spectrograph (GMO) on August 27, 2025 at the Gemini South Telescope. Image credit: International Gemini Observatory / NSF / AURA / Shadow The Scientist / J. Miller Array / M. M. Rodriguez, nsf/crask of rects Anchorage & Noirlab/M. Zamani, NSF’s Noirlab.

3i/Atlas was identified on July 1, 2025, by a NASA-supported Atlas (Asteroid Ground Shock Last Alert System) Survey Telescope in Riojartad, Chile.

The comet is anticipated to approach the Sun at a distance of 1.4 AU (210 million km, or 130 million miles) around October 30, 2025.

The latest images from Gemini/GMOS reveal a broad coma and tail extending roughly 1/120th of a degree across the sky, away from the Sun.

These features appear significantly more pronounced compared to earlier images of the comet, indicating that 3i/Atlas is becoming increasingly active as it traverses the inner solar system.

Recent observations also imply that the dust and ice from the comet closely resemble those of solar comets, suggesting a commonality in the processes that govern the formation of planetary systems around other stars.

“As 3i/Atlas journeys back into the depths of interstellar space, these images serve as both scientific milestones and enigmatic clues,” states Dr. Karen Meech, an astronomer from the Institute of Astronomy at the University of Hawaii.

“They remind us that our solar system is merely a fragment of a vast, dynamic galaxy, where even transient visitors can leave a lasting impact.”

Alongside capturing a stunning image, the primary scientific aim of the observation session was to obtain the comet’s spectrum, which corresponds to the wavelengths of the emitted light.

The resulting spectra provide critical insights into the composition and chemistry of the comet, enabling scientists to understand its changes as it navigates through the solar system.

“The main goal was to observe the color of the comet to glean information about the composition and size of the coma dust particles, as well as to obtain the spectrum for direct chemical analysis,” noted Dr. Mace.

“We were thrilled to witness the growth of the comet’s tail and to see our first hints of chemistry from the spectrum, indicating particle changes since earlier Gemini observations.”

“These observations yield both awe-inspiring visuals and invaluable scientific data,” asserts Dr. Bryce Bolin, a researcher at Eureka Scientific.

“Each interstellar comet acts as a messenger from another stellar system, and by examining its light and color, we can begin to appreciate the diversity of worlds beyond our own.”

Source: www.sci.news

The ancient creature boasted “goblin-like” teeth and a customizable tail.

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Artistic reconstruction of Borguamondor

Karen Townsend

An extinct creature uncovered in North America offers fresh insights into the region’s life around 75 million years ago.

The creature has been described as “looking like a goblin jumping out of a rock,” according to Hank Woolley of the Los Angeles County Natural History Museum. This species, known as Monstaurus, is part of a group of reptiles that thrived during the late Cretaceous period. Woolley notes it could have been “around 3 to 4 feet from tail to tip.” “Best to stay away,” he warns.

Woolley named the species Borguamondor. The first part of the name derives from a Lord of the Rings character, while the second part is inspired by an invented Elvish word, referring to its bone armor — a trait shared with its relatives, modern Gira Monsters (Healoderma Sumpectum).

Remarkably preserved fossils were found in Utah two decades ago by Joseph Sertich. Initially, the Smithsonian Tropical Research Institute believed it was a prehistoric lizard. Sertich recalls, “I found a collection of scattered bones in a low, flat sandy area,” including the skull, vertebrae, jawbone, and parts of a hip bone.

Sertich encouraged Woolley to investigate the fossils at the museum in 2022. B. Amondor represents an extinct species of lizard known as the Monstaurus. They found evidence that some could shed their tails when injured, making it the oldest known example of this defensive strategy that modern lizards employ.

bones belonging to Borguamondor

Utah Natural History Museum/Bureau of Land Management

According to researchers, B. Amondor dined on small mammals, frogs, snakes, insects, and “things not primarily plants,” even considering dinosaur eggs as part of its “round-length” diet. Its habitat was likely a wetland ecosystem, quite hot and humid, resembling the modern-day U.S. Gulf Coast rather than the arid landscape we see today.

Randall Nydam from Midwest University in Illinois, though not involved in this research, emphasizes the cautionary aspect of the story, reflecting on the vulnerabilities of such formidable “monsters,” both ancient and modern. “We must also acknowledge that they are long gone,” he states, “vanished due to changing circumstances.”

Continuing the dialogue about B. Amondor, Sertich believes people should broaden their understanding of these creatures. “Imagining North America’s primal tropical forests should portray nightmare lizard-hunting dinosaurs navigating the underbrush and scaling trees,” he suggests.

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Source: www.newscientist.com

The long, prehensile tail of the extinct North American porcupine

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New World porcupines originated in South America and dispersed into North America between 4 and 3 million years ago. Today, prehensile tail porcupines live in the tropical forests of Central and South America. In contrast, North American porcupine (Erethizon Dorsatum) It is thought to be adapted to temperate forests at higher latitudes, with a larger body, shorter tail, and a diet that includes bark. paper Published in this week's journal Current BiologyPalaeontologists have described functionally important features of the skeleton of an extinct porcupine. Erethizon PoeriThe oldest nearly complete porcupine skeleton recorded in North America, discovered in Florida from the Early Pleistocene.

North American porcupines differ from their southern counterparts in that they have more fur, a shorter tail, and a larger build.

Porcupines are a type of rodent whose ancestors probably originated in Africa more than 30 million years ago.

Their descendants subsequently migrated overland to parts of Asia and Europe, but the journey to South America is a particularly defining event in mammalian history.

They probably crossed the Atlantic Ocean on rafts at a time when Africa and South America were much closer than they are today.

They were the first rodents to set foot on the continent, where they evolved into familiar groups such as guinea pigs, chinchillas, capybaras, and porcupines.

Some were gigantic – lumbering, mouse-like creatures up to five feet long, with tiny brains and weighing less than a plum – and a close relative of the extinct capybara that grew to the size of a cow.

Porcupines have evolved to remain relatively small and adapt to life in the trees of the lush tropical rainforests of South America.

Now they move through the tree canopy using long fingers with blunt, sickle-shaped claws perfectly angled to grip branches.

Many birds have long, prehensile tails that can support their body weight and help them climb trees and pick fruit.

Despite its impressive track record of migration, South America was a dead end for millions of years.

North and South America are separated by a vast ocean passage with rapids, which most animals could not cross, with a few notable exceptions.

Beginning about 5 million years ago, the Isthmus of Panama rose above sea level, separating the Pacific and Atlantic oceans.

Millions of years later, this land bridge would become the equivalent of an ancient, congested highway, allowing traffic to flow in both directions.

Prehistoric elephants, sabre-toothed tigers, jaguars, llamas, peccaries, deer, skunks and bears migrated from North America to South America.

Also joining us on the reverse journey were four species of ground sloths, an oversized armadillo, fearsome birds, capybaras and even marsupials.

The two groups had radically different fates. The mammals that migrated south did relatively well, and many successfully colonized their new tropical environments and have survived to the present day. But the lineages that moved north into colder environments almost entirely went extinct. Only three species remain today: the giant armadillo, the Virginia opossum, and the North American porcupine.

South American porcupines have a formidable coat of hollow, overlapping quills that provide considerable defense but little in the way of thermoregulation.

North American porcupines replaced this with a mixture of insulating hairs and long, needle-like hairs that they erect when they sense danger. They also had to change their diet, which led to a change in the shape of their jaws.

“When their favorite foods disappear in the winter, they'll nibble at tree bark and eat the soft tissue underneath. It's not the tastiest food, but it’s better than nothing,” says Natasha Vitek, a research scientist at the Florida Museum of Natural History.

“This type of feeding appears to have been selected for a particular jaw structure that enhances the ability to grind teeth.”

“They also lost their tails, which they used to prehensile. North American porcupines still love climbing trees, but it’s not their forte.”

“Museum specimens often show signs of healed fractures, likely caused by falls from trees.”

In the new study, Vitek and his colleagues examined an exceptionally well-preserved skeleton of an extinct species of porcupine from Florida, US.

“It's very unusual to find a fossil skeleton like this, which includes not only the skull and jaw, but also many other bones from other parts of the body,” said Dr. Jonathan Block, curator of vertebrate paleontology at the Florida Museum of Natural History.

“This will give us a more complete picture of how extinct mammals interacted with their environment.”

“We quickly realized that it was different from modern North American porcupines in that it had a specialized tail for grasping branches.”

The researchers were confident that by comparing the fossil skeleton with modern porcupine bones they could pinpoint its identity.

“The results were surprising: the fossil lacked the reinforced jaws for gnawing at bark, but had a tail adapted for prehensile functions, making it more similar to South American porcupines,” Vitek said.

“But other features, such as the shape of the middle ear bones and the shape of the lower front and back teeth, bore stronger similarities to North American porcupines.”

When all the data was combined, the analyses consistently gave the same answer.

Fossils Erethizon Poeriis an extinct species of North American porcupine, and this group has a long history that likely began before the formation of the Isthmus of Panama.

But questions remain about how many species in this group once existed and why they became extinct.

“One of the things our study leaves unresolved is whether these extinct species were the direct ancestors of today’s living North American porcupines,” Vitek said.

“It’s possible that porcupines have invaded temperate zones twice — once along the Gulf Coast and once in the West — but we’re not there yet.”

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Natasha S. Vitek othersAn extinct North American porcupine with a South American tail. Current BiologyPublished online May 27, 2024; doi: 10.1016/j.cub.2024.04.069

Source: www.sci.news

Bloodstains at crime scene reveal forensic evidence from tail

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Recent research published in fluid physics Scientists at Boston University and the University of Utah have introduced a new aspect of bloodstain analysis. This study focused on the “tail” of the bloodstain, which could provide additional information about the blood droplet’s size, velocity, and impact angle. These discoveries represent a major advance in forensic science, with implications for crime scene reconstruction and verification of eyewitness testimony.

New research in forensic science has revealed that the “tail” of a bloodstain provides important information about the origin of the blood droplet, enhancing crime scene analysis and evidence interpretation.

Forensic science has taken the public imagination by storm, as evidenced by the abundance of “true crime” media over the past decade or so. Evidence such as blood left at a crime scene can now reveal key information for investigating and understanding the circumstances of a crime, and scientific methods can help interpret that information. , now almost everyone knows.

in fluid physicsA group of scientists from Boston University and the University of Utah have demonstrated in AIP Publishing how bloodstains can yield even more valuable details than those typically collected by detectives, forensic scientists, and crime scene investigators. The researchers studied how these “tails” form by examining protrusions that deviate from the boundaries of oval bloodstains.

“These protrusions are typically only used to figure out the direction in which the droplet has moved, and are otherwise ignored,” says author James Byrd.

Within a few milliseconds, tiny droplets of blood impact the solid surface, forming the shape of a stain. Of particular interest is a protrusion that occurs on the right side and deviates from the boundaries of the oval stain.Credit: James C. Byrd

In fact, previous studies have mainly focused on large blood droplets that fall vertically onto flat or inclined surfaces, where gravity can distort the shape of the tail and make it difficult to see. In contrast, the new study involved a series of high-speed experiments in which droplets of human blood, less than a millimeter in diameter, were bombarded with horizontal surfaces at different angles.

“We showed that the precise flow that determines the length of the tail is different from the flow that is responsible for the size and shape of the oval part of the stain,” Bird said. “In other words, the tail length contains additional, independent information that helps analysts reconstruct where the blood drop actually came from.”

Indeed, the tail length may reflect information about the size, impact velocity, and impact angle of the blood droplet that formed the stain. Measuring multiple blood stains within a stain pattern allows the trajectory of the droplet to be traced back to its presumed origin.

Although their analysis only used horizontal planes to examine impact velocity dynamics, Byrd and colleagues hope this will spark further research focusing on the tail length of bloodstain patterns. Masu. They believe that incorporating tail length into standard bloodstain analysis will provide more robust evidence information.

“Knowing the origin of bloodstains at a crime scene can help detectives determine whether the victim was standing or sitting, and corroborate or challenge eyewitness testimony,” Byrd said. said.

Reference: “Bloodstain Tail: Asymmetry helps reconstruct oblique shocks” by Garam Lee, Daniel Attinger, Kenneth F. Martin, Samira Shiri, and James C. Byrd, November 2023 21st of the month fluid physics.
DOI: 10.1063/5.0170124

Source: scitechdaily.com