Tag Archives: hatching

Did Oviraptors Rely on Sunlight for Egg Hatching?

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Recent studies reveal that bird-like oviraptorids couldn’t rely solely on body heat for egg incubation. Instead, they utilized both body warmth and sunlight in semi-open nests.

The artist’s impression of Huananzaurus ganjoensis. Image credit: Chuang Zhao.

“Our research indicates that variations in oviraptor hatching strategies are linked to the positioning of adults and eggs,” stated Dr. Tzu-Ruei Yang, a paleontologist at the National Museum of Natural Science, Taiwan.

“We also estimated the hatching efficiency of Oviraptor, which is significantly lower than that of contemporary birds,” added Chun Yu Su, a researcher at Washington High School.

In this investigation, scientists simulated brooding behaviors similar to those of bears. The dinosaur Haeyuannia Fungi, part of the Oviraptoridae family, thrived in present-day China during the late Cretaceous period, approximately 70 to 66 million years ago.

This species is estimated to have reached around 1.5 meters in length and weighed about 20 kilograms, constructing semi-open nests made of multiple egg rings.

During the hatching process, Oviraptor’s model consisted of Styrofoam and wood for structural support, along with cotton, foam paper, and cloth for soft tissue representation.

The eggs were crafted from casting resin, and two clutches were used in the study, organized in double rings to emulate authentic oviraptor nests.

“Reconstructing oviraptor hatching accurately presents significant challenges,” noted Hsu.

“For instance, oviraptor eggs differ substantially from those of modern species, prompting us to create resin eggs that closely mimic the real thing.”

Artist rendition of oviraptorosaurus, hadrosaurus, and tyrannosaurus from the late Cretaceous period of central China. Image credit: Institute of Vertebrate Paleontology and Paleoanthropology, Chinese Academy of Sciences.

When exploring how the presence of adult incubators and varying environmental conditions impacted hatching patterns, researchers found that in cooler temperatures where adults participated, egg temperatures in the outer rings could fluctuate by up to 6 degrees Celsius. This resulted in asynchronous hatching, where eggs hatched at different times within a single nest.

In warm environments, the temperature difference between outer ring eggs was only 0.6 degrees Celsius, indicating that oviraptors in warmer climates exhibited distinct asynchronous hatching due to their ability to harness solar heat more effectively.

“It’s unlikely that larger dinosaurs would have remained stationary while incubating eggs. They probably relied on solar heat or warmth from the soil, much like turtles,” Yang explained.

“Given that Oviraptor’s nests are exposed to the air, solar heat played a more crucial role than soil heat in incubation.”

The researchers further compared Oviraptor’s hatching efficiency with that of modern avians.

Typically, contemporary birds use thermoregulatory contact hatching, where the adult directly incubates the eggs, transferring heat.

This method requires three essential conditions: direct contact with all eggs, acting as the primary heat source, and maintaining temperatures within a narrow range—criteria that Oviraptor did not fulfill.

“It’s possible that Oviraptor was incapable of thermoregulatory contact incubation like present-day birds,” Hsu remarked.

“Instead, these dinosaurs might have depended on both adult incubation and sunlight, a strategy that is less efficient than modern avian hatching methods.”

“However, this blend of parental care and ambient heat sources, which could be related to the shift from buried to semi-open nests, isn’t necessarily a disadvantage.”

Dr. Yang clarified, “Modern birds are not inherently superior at incubation.” He explained, “The incubation strategies of oviraptors and modern birds differ significantly, each suited to their environments.”

There’s no categorical ‘good’ or ‘bad’ in these methods; rather, their effectiveness is context-dependent.

The findings were published in Frontiers of Ecology and Evolution.

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Su Chunyu et al. 2026. Realistic heat transfer in clutches reveals that oviraptorid dinosaurs have lower hatching efficiency than modern birds. Front. Ecol. Evol. 14; doi: 10.3389/fevo.2026.1351288

Source: www.sci.news

Baby Palace Took Flight Immediately After Hatching, But Crashed in the Storm

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Artist’s impressions of a pterodactyl hatchling battling a tropical storm

Rudolf Hima

The young pterodactyl appeared to have taken flight just days post-hatching, yet some individuals suffered broken wings during a turbulent storm that struck their lagoon habitat.

This immature pterodactyl possessed an adult-like wing configuration, showcasing strength and aerodynamic traits conducive to flight. However, paleontologists have long questioned whether newly hatched individuals were capable of flying.

At the Solnhofen site in southern Germany, countless plant fossils are trapped in limestone. During an examination using ultraviolet light at Haassov’s Museum Bergel, David Unwin and Robert Smith from the University of Leicester, UK, identified a fractured wing of a Pterodactylus antiquus specimen. They soon discovered another hatchling exhibiting the same wing fracture.

“We were astounded,” stated Unwin. “We are not easily shocked. Under UV light, it practically leapt out of the rock. Our immediate reaction was, ‘Bloody hell!’

Unwin and his team estimated that these two specimens, both measuring just 20 cm and still in their growth phase, lived around 150 million years ago, approximately two million years apart. At that time, the location was part of an archipelago, featuring numerous islands and saltwater lagoons, where intense tropical cyclones occasionally triggered rapid underwater landslides that helped preserve fossilized remains.

The hatchling’s bones exhibited a healthy structure without signs of rotation or healing, apart from clean, angled breaks in the humerus (the upper arm bones supporting the wings). These injuries resemble the typical wing damage that adult birds and bats sustain when navigating through oceanic storms.

Juvenile Pterodactylus antiquus skeletons from Solnhofen, Germany

University of Leicester

“The most plausible explanation for these unfortunate pterosaurs with fractured wings is that they were airborne during the incident,” Unwin notes.

“In calm conditions, they could potentially float, but turbulent, wave-driven surfaces would cause them to sink.”

These findings bring valuable evidence to the long-standing debate regarding flight capabilities in hatchling pterosaurs, according to researchers.

“I don’t believe they hatched and simply leapt into the air,” Unwin stated. “However, they were likely airborne almost immediately post-hatching. This is one reason why these very young specimens are represented in the fossil record today.”

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Source: www.newscientist.com

Stingrays Rescued from Extinction through Successful Captive Hatching

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Newly hatched stingray

Jason Semmens/University of Tasmania

One of the world's most endangered marine fish has been saved from extinction thanks to researchers who caught specimens in the wild and helped breed them in captivity.

Stingray (Zearajah Mageana) is found only in Port Macquarie, on the extremely isolated and rugged southwest coast of the Australian island of Tasmania, a region that is naturally low in oxygen, making it difficult for fish to thrive, but this is exacerbated by human impacts, particularly the alteration of river flows by salmon farming and hydroelectric dams.

Jason Semmens A researcher from the University of Tasmania said that while no one knows the exact population of these rays, there has been a dramatic decline, with their numbers halving between 2014 and 2021. He said the population may now be just over 1,000, and what's most worrying is that the majority of the rays are adults, meaning the young have not yet reached maturity.

As a marine heatwave raged in this area off the southeast coast of Australia last year, Semmens and his colleagues decided to make a bold intervention to save the rays from extinction.

In December 2023, the team collected 50 eggs, more than half of which hatched in captivity. They also collected four adult insects, two of which died within two weeks. The two surviving females were kept separately, so the team was shocked when the remaining female laid eggs.

That's because rays can store sperm and fertilize the eggs, Semmens says. “On average, rays lay two eggs every four days,” he says. “We've seen over 100 eggs laid by rays, and the majority of them appear to be viable.”

To maximise the genetic diversity of the captive-raised young, the team is considering capturing other, already-fertilised females to obtain eggs and then releasing them back into the wild.

But the team members David MorenoResearchers from the University of Tasmania said captive breeding was not a complete solution and they were also working to solve environmental issues at Port Macquarie, including experimenting with pumping oxygen into the water.

There is no quick fix, and even if captive-bred individuals could be released straight away, it would take four to five years for them to mature and be able to contribute to the population.

If recovery efforts fail, the cost will be huge: “This would be the first extinction of a ray or shark species in modern history,” Moreno says, “so this is a really big red line.”

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Source: www.newscientist.com