Predators news, articles and features | żěè¶ĚĘÓƵ /topic/predators/ Science news and science articles from żěè¶ĚĘÓƵ Fri, 01 May 2026 15:10:28 +0000 en-US hourly 1 https://wordpress.org/?v=7.0.1 242057827 Why dinosaurs lived much more complex lives than we thought /article/2522448-why-dinosaurs-lived-much-more-complex-lives-than-we-thought/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Wed, 29 Apr 2026 15:00:22 +0000 /?post_type=article&p=2522448 2522448 Largest-ever octopus was great white shark of invertebrate predators /article/2524049-largest-ever-octopus-was-great-white-shark-of-invertebrate-predators/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Thu, 23 Apr 2026 18:00:12 +0000 /?post_type=article&p=2524049 A sketch of the giant octopus
A reconstruction of the giant octopus
Yohei Utsuki/Department of Earth and Planetary Sciences, Hokkaido University

While dinosaurs ruled the land, Cretaceous oceans were home to a fierce and enormous octopus species that may have reached up to 19 metres in length, rivalling the size of the largest predators of the time, including sharks and marine reptiles like plesiosaurs and mosasaurs.

These octopuses were active predators, says at Hokkaido University in Japan.

“They could be thought of as the orcas or great white sharks of the invertebrate world – large, intelligent and highly effective apex predators,” says Iba. “These were animals over 10 metres long, with long arms, powerful jaws capable of crushing hard structures and probably advanced behaviour.”

Iba and his colleagues looked at 27 large, fossilised octopus jaws dating to between 100 million and 72 million years that had been collected in Japan and Vancouver Island, Canada.

A dozen of the octopus jaws were new to science and were locked inside rocks, says Iba. They became visible only when the researchers used high-tech scanning equipment and “digital fossil mining” combined with artificial intelligence to fully image the octopus remains hidden in the stone.

The octopus jaw, also called the beak, is often the only part of the animal to survive as a fossil because it is made primarily of durable chitin, while the rest of the animal is soft-bodied.

Previously, it was thought that there were five species of octopus living in the Cretaceous Period, but the team found that, in fact, there were just two so far confirmed – Nanaimoteuthis jeletzkyi and N. haggarti.

“We realised early on that the jaws were unusually large,” says Iba. “In particular, the jaws of N. haggarti stood out even when compared with large modern cephalopods.”

However, he says, the full scale became clear only after the team estimated N. haggarti’s body size using the relationship between jaw size and the length of the mantle – the head-like structure above the arms – of modern, long-bodied finned octopuses. “That analysis showed that N. haggarti may have reached about 6.6 to 18.6 meters in total length,” says Iba. “Nanaimoteuthis haggarti may have been among the largest invertebrates in Earth’s history.”

at Flinders University, Australia, says he isn’t surprised by the findings, “as many creatures at this time went through gigantism – sharks, marine reptiles, ammonites – so the oceans were full of food for large predators”. But he says it is still a “gob-smacking” discovery. “Giant freaking killer octopi as apex predators were ruling the Cretaceous seas.”

size comparison Cretaceous predators
How the octopus sizes up against other marine predators of the Cretaceous
Yohei Utsuki/Department of Earth and Planetary Sciences, Hokkaido University

Superficially, the ancient octopuses resembled today’s giant squid (Architeuthis dux), which reach lengths of over 12 metres. Like the giant squid, the ancient octopuses were open-water swimmers. But Iba says they were very different animals.

Squids typically have eight arms plus two long tentacles for prey capture, he says, while octopuses have eight arms and rely heavily on them all to capture prey.

“Nanaimoteuthis likely used long, flexible arms to seize prey and then processed it with powerful jaws, rather than chasing prey in the same way as a squid,” he says.

The team also analysed the scarring and wear on the ancient jaws, suggesting that it provides evidence of extensive “processing of hard materials”, says Iba, most likely animals with hard structures, such as large bivalves, ammonites, crustaceans, fish and other cephalopods.

“It is tempting to imagine them attacking very large animals, but we must be cautious,” he says. “We do not have direct evidence, such as stomach contents or bite marks on vertebrate bones, showing that they preyed on marine reptiles or sharks.”

Fossils of the jaws of Nanaimoteuthis haggarti (top) and Nanaimoteuthis jeletzkyi (bottom)
Fossils of the jaws of Nanaimoteuthis haggarti (top) and N. jeletzkyi (bottom)
Hokkaido University

Another interesting find that the team has noted is that there is uneven wear of the jaws, possibly indicating “lateralisation”, which means favouring one side of the body over the other, behaviour that can imply intelligence – a trait for which modern octopuses are renowned.

In general, lateralisation is associated with increased brain complexity and more efficient information processing.

“In our fossils, asymmetric jaw wear suggests that these animals may have favoured one side during feeding,” says Iba. “This implies that they were not only physically powerful, but also behaviourally complex, with potentially individual behavioural tendencies.”

Journal reference:

Science

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The shocking fossils that show T. rex wasn’t the king of the dinosaurs /article/2519003-the-shocking-fossils-that-show-t-rex-wasnt-the-king-of-the-dinosaurs/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Tue, 24 Mar 2026 16:00:41 +0000 /?post_type=article&p=2519003 2519003 Watch a cuttlefish transform into a leaf and a coral to hunt its prey /article/2467711-watch-a-cuttlefish-transform-into-a-leaf-and-a-coral-to-hunt-its-prey/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Thu, 20 Feb 2025 12:00:47 +0000 /?post_type=article&p=2467711 2467711 Why sabre-toothed animals evolved again and again /article/2463406-why-sabre-toothed-animals-evolved-again-and-again/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Thu, 09 Jan 2025 16:00:46 +0000 /?post_type=article&p=2463406 The skull of a Smilodon, which were made up of saber-toothed cats
The skull of a saber-toothed tiger (Smilodon)
Steve Morton
Predators have evolved sabre teeth many times during the history of life – and we now have a better idea why these teeth develop as they do. Sabre teeth have very specific characteristics: they are exceptionally long, sharp canines that tend to be slightly flattened and curved, rather than rounded. Such teeth have independently evolved in different groups of mammals at least five times, and fossils of sabre-tooth predators have been found in North and South America, Europe and Asia. The teeth are first known to have appeared some 270 million years ago, in mammal-like reptiles called gorgonopsids. Another example is Thylacosmilus, which died out about 2.5 million years ago and was most closely related to marsupials. Sabre teeth were last seen in Smilodon, often called sabre-toothed tigers, which existed until about 10,000 years ago. To investigate why these teeth kept re-evolving, at the University of Bristol, UK, and her colleagues looked at the canines of 95 carnivorous mammal species, including 25 sabre-toothed ones. First, the researchers measured the shapes of the teeth to categorise and model them. Then they 3D-printed smaller versions of each tooth in metal and tested their performance in puncture tests, in which the teeth were mechanically pushed into gelatine blocks designed to mimic the density of animal tissue. This showed that the sabre teeth were able to puncture the block with up to 50 per cent less force than the other teeth could, says Pollock.
The researchers then assessed the tooth shape and puncture performance data using a measure called the Pareto rank ratio, which judged how optimal the teeth were for strength or puncturing. “A carnivore’s teeth have to be sharp and slender enough to allow the animal to pierce the flesh of their prey, but they also need to be blunt and robust enough to not break while an animal’s biting,” says Pollock. Animals like Smilodon had extremely long sabre teeth. “These teeth were probably popping up again and again because they represent an optimal design for puncture,” says Pollock. “They’re really good at puncturing, but that also means that they’re a little bit fragile.” For instance, the La Brea Tar Pits in California have lots of fossils of Smilodon, some with . Other sabre-toothed animals also had teeth that were the ideal shape for a slightly different job. The cat Dinofelis had squatter sabre teeth that balanced puncturing and strength more equally, says Pollock. The teeth of other sabre-toothed species sat between these optimal shapes, which might be why some of them didn’t last too long. “These kinds of things trade off,” says Pollock. “The aspects of shape that make a tooth good at one thing make it bad at the other.” One of the main hypotheses for why sabre-tooth species went extinct is that ecosystems were changing and the huge prey they are thought to have targeted, such as mammoths, were disappearing. The team’s puncture findings back this up. The giant teeth wouldn’t have been as effective for catching prey that were more like the size of a rabbit, and the risk of tooth breakage here may have increased, so the sabre-toothed animals would have been outcompeted by predators that are more effective at hunting such prey, like cats with smaller teeth, says Pollock. “As soon as the ecological or environmental conditions change, the highly specialised sabre-tooth predators were unable to adapt quickly enough and became extinct,” says at the University of Birmingham, UK. “I think that’s part of the reason why this sabre-tooth morphology hasn’t evolved again in the present – we don’t have the megafauna,” says at Des Moines University in Iowa. “The prey is not there.”
Journal reference:

Current Biology

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Earliest known sabre-toothed predator hunted 270 million years ago /article/2461006-earliest-known-sabre-toothed-predator-hunted-270-million-years-ago/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Tue, 17 Dec 2024 10:00:11 +0000 /?post_type=article&p=2461006
A reconstruction of the oldest known gorgonopsian
Henry Sutherland Sharpe

The oldest known sabre-toothed animal hunted large prey 270 million years ago – and its newly discovered remains could help us unravel how early mammal relatives became warm-blooded.

The first land-based predators typically hunted relatively small prey. But things changed about 273 million years ago, when an event known as Olson’s Extinction shook up ecosystems around the world. Afterwards, much larger terrestrial herbivores began appearing – and predators needed new weapons to dispatch such large prey, says at the Miquel Crusafont Catalan Institute of Palaeontology in Barcelona, Spain.

This might help explain why the fossilised partial skeleton of an ancient predator – which Fortuny and his colleagues have just discovered on the Spanish island of Mallorca – had sabre teeth. These fangs are better at injuring large prey, as opposed to grasping and holding smaller animals. “It was the first opportunity to have this type of tool to prey on herbivores,” says Fortuny.

Dating back an estimated 270 million years, the predator is the oldest known member of a group of meat-eaters known as the gorgonopsians, which all had sabre teeth. The largest gorgonopsians grew several metres in length and had canine teeth 15 centimetres long. The Mallorca gorgonopsian was smaller, with a body length of about a metre and canines that were just 5-centimetres long. Fortuny says the researchers are waiting until they have analysed the bones and teeth in more detail before they give the new gorgonopsian a name.

The ancient predator is significant for more than just its age. When it roamed Mallorca, the island was located in the tropics as part of a supercontinent called Pangaea, but all previously known gorgonopsian fossils come from areas of the world that were at high latitudes 270 million years ago. The new find suggests that the gorgonopsians actually originated nearer the equator.

It is possible that the adaptations they developed there – such as more energy-efficient movement and the ability to hunt large prey – also included the ability to control their body temperature. As a result, they could spread into cooler habitats away from the equator.

Understanding more about this process is important, says Fortuny, because the gorgonopsians belonged to the therapsids, an animal group that also includes mammals. “There’s a lot of discussion about the first steps in thermoregulation for this group,” he says.

Journal reference

Nature Communications

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Spiders use fireflies as flashing lures to catch more prey /article/2443703-spiders-use-fireflies-as-flashing-lures-to-catch-more-prey/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Mon, 19 Aug 2024 15:00:58 +0000 /?post_type=article&p=2443703
An orb-weaver spider wraps up its flashing prey
Xinhua Fu
Once orb-weaver spiders ensnare male fireflies in their webs, they turn the doomed insects into bait, using their telltale flashing to lure in more meals. at Huazhong Agricultural University in China noticed male fireflies (Abscondita terminalis), but no females of the species, often got stuck in the web of an orb-weaver spider (Araneus ventricosus), and he wondered if the male insects were being lured into the trap. Both males and females of this firefly species use flashing signals in courtship, and females’ light shows attract males to their location. So Fu and his colleagues investigated how the spiders might be exploiting this love language. In a stretch of farmland in Hubei Province, China, the team ran a series of experiments on 161 different webs, some with and some without spiders. The researchers placed a male firefly – some of which had their bright abdomens blacked out with ink – in each web. They found webs with both a spider and a freely flashing firefly attracted more male fireflies, compared to webs with no spiders present or with only non-flashing fireflies. Also, the male fireflies entangled in a spider-occupied web had an unusual flash signal. It looked more like that of females, with one pulse instead of two. But fireflies in an empty web flashed normally. This suggests the spiders are manipulating the male fireflies’ signals to mimic those of females, luring in other males searching for mates, says team member at Hubei University. Precisely how the spider alters its immobilised prey’s signals is still unknown, but the researchers have some ideas. “The spider’s venom or the bite itself may lead to changes in the ensnared males’ flashing pattern,” says Li. Li is interested in seeing if other firefly-eating spiders use a similar tactic. Other animals may use captured prey as lures by capitalising on different types of signals, he says, such as sounds or the release of pheromones. “[The findings] once again demonstrate that spiders are not passive foragers,” says at Macquarie University in Australia. “We are discovering more and more cases of highly complex and selective feeding techniques.”
Journal reference

Current Biology

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Sea slugs discovered working together to hunt in packs /article/2439768-sea-slugs-discovered-working-together-to-hunt-in-packs/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Wed, 17 Jul 2024 13:30:58 +0000 /?post_type=article&p=2439768 2439768 A bacterium switches from prey to predator when it gets cold /article/2413791-a-bacterium-switches-from-prey-to-predator-when-it-gets-cold/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Tue, 23 Jan 2024 19:00:59 +0000 /?post_type=article&p=2413791 2413791 Spotted salamander eggs hatch more easily if nibbled by predators /article/2390792-spotted-salamander-eggs-hatch-more-easily-if-nibbled-by-predators/?utm_campaign=RSS|NSNS&utm_content=predators&utm_medium=RSS&utm_source=NSNS Tue, 05 Sep 2023 20:44:24 +0000 /?post_type=article&p=2390792 2390792