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The fossilized skeleton known as the Mukawa Dragon was declared to be a new species of dinosaur on September 6 and officially given the scientific name Kamuysaurus japonicus.

The skeletal remains were discovered near the town of Mukawa in Hokkaido. Measuring roughly eight meters in total length, it is the largest full skeleton dinosaur fossil found to date in Japan.

Previously, common opinion held that only fragments of dinosaur skeletons were to be found in-country. With the discovery of this Kamuysaurus japonicus skeleton, the opinion of researchers has undergone a massive change and a new era for Japanese dinosaur research has been ushered in.

The Biggest ‘God Lizard’ in Japan

Actually, the partial tail of a Mukawa Dragon was discovered by a local amateur paleontologist in 2003. It came from a soil stratum that dated back to the Late Mesozoic Cretaceous Period, approximately 72 million years ago. Since this soil layer was at that time underwater, it was originally thought that the fossil belonged to a long-necked marine reptile.

Eight years later, it was identified as a dinosaur. However, it was only in 2017, after a full-scale dig, that researchers were astounded to find that this was the largest complete dinosaur skeleton yet discovered in Japan.

Professor Yoshitsugu Kobayashi of Hokkaido University, who is researching the find, characterizes it as “Japan’s representative in the ranks of dinosaur fossils.”

The fossil in question is that of an adult dinosaur judged to have been over nine years old at its time of death. Over 80% of its entire original length has been recovered.

After in-depth research, scientists judged the animal to be a new species, based on special features, such as narrow forelegs and the degree of tilt of the neural spikes on its spine. An article detailing the new scientific classification was carried in Scientific Reports — a publication of the British journal Nature — on September 5, 2019. That made it the eighth new species of dinosaur discovered in Japan.

When selecting its scientific name the scientists thought it only right to use the term kamuy, which means “god” in the language of the indigenous Ainu, since it was discovered in Hokkaido. Saurus and japonicus are Latin, meaning “lizard” and “Japanese” respectively. So, a direct translation would be “God Lizard of Japan.” The “Deity of Japanese Dinosaurs” seems more appropriate.

A Contemporary of the Fierce Tyrannosaurus

Researchers are unsure of the sex of the Kamuysaurus fossil in question or whether it walked on two legs or four. They say that it is also possible that it sported a flattish crest on its head.

The new species is considered one of the hadrosaurid duck-billed herbivore dinosaurs that lived near the sea. It is believed that the carcass of the animal was washed offshore and then sank to the bottom of the ocean. Living on the eastern extremity of East Asia some 84 million years ago, this species appears to have evolved independently.

Kobayashi believes that the discovery of Kamuysaurus japonicus will have a major impact on future dinosaur research. Many dinosaur fossils have been discovered from land-based soil strata, but those from ocean strata are few worldwide. Scientists hope that research on the new species will shed light on the coastal conditions during the period when it lived.

In addition, since Kamuysaurus was a contemporary of the world’s most powerful dinosaur Tyrannosaurus and the horned Triceratops, Kobayashi said, “We will be able to generate data concerning this heyday of the dinosaurs from here in Japan.”

Up until now, Japan’s dinosaur research had involved comparing specimens with full skeletons dug up overseas. So Japanese paleontologists have had to request help from abroad.

“In the future, the opposite will be true,” Kobayashi said. “Research will take place overseas in countries like China and Russia with Kamuysaurus as the standard.”

Japan’s Discoveries in 18 Prefectures

Although purely coincidental, Kamuysaurus was given its scientific name on September 6, exactly one year after the large magnitude 7 earthquake struck the eastern Iburi region of Hokkaido. Yoshiyuki Takenaka, mayor of Mukawa, said, “With our town trying to recover, we can’t help but feel that the Mukawa Dragon being resurrected from the past and getting a scientific name was destined to be.”

Despite the species’ fancy new Latin moniker, it would appear locals still refer to it as the Mukawa Dragon.

With the discovery of dinosaur fossils in various locations in Japan in recent years, Japan has come to be recognized as a dinosaur kingdom in its own right. If dinosaur eggs are counted, then discoveries have taken place in 18 different prefectures.

Nevertheless, for the most part the discoveries consist of small fossilized fragments, such as teeth and backbones. The Mukawa find of a nearly complete Kamuysauris skeleton is the largest such discovery in Japan to date and of the utmost importance for Asia as a whole.

“There was a preconception that Japan would only produce fragmentary fossils, such as those we had found up to now,” Kobayashi explained. “We’ll now continue to excavate, knowing that we might find complete specimens.”

Source: https://japan-forward.com

It's not yet known whether the live-action film about the dino will be a gritty take on the children's TV icon.

Daniel Kaluuya is best known for roles in Marvel's Black Panther and horror film Get Out, but now he's turning his acting skills to TV mascot Barney, the happy purple T-rex who sang about friendship. The dino is getting own movie, according to Variety. 

Most of us remember Barney from his children's TV series Barney & Friends, which ran on PBS from 1992 to 2009. If you grew up watching him, you might have fond memories of Barney dancing and singing to catchy songs about kindness and love. 

If you were an adult during that time, you might have found those same Barney songs annoying because insipid lyrics like "I love you, you love me" never got out of your head. Even Kaluuya commented about Barney's polarizing effect. 

"Barney was a ubiquitous figure in many of our childhoods, then he disappeared into the shadows, left misunderstood," Kaluuya said in a statement. "We're excited to explore this compelling modern-day hero and see if his message of 'I love you, you love me' can stand the test of time."

With Kaluuya on board, it's fun to speculate what the film will be about. Is it a straight-up movie starring Barney as the main character? Or will it be about the actor David Joyner who portrayed Barney on Barney & Friends, but then later ran a tantric sex business? (No really, he did.)

Right now, it's anybody's guess. But Mattel Films producer Robbie Brenner gave another clue that this won't be a typical Barney kind of movie.

"Working with Daniel Kaluuya will enable us to take a completely new approach to Barney that will surprise audiences and subvert expectations," Brenner said in a statement Friday. "The project will speak to the nostalgia of the brand in a way that will resonate with adults, while entertaining today's kids." 

Some on social media wondered what the movie will end up looking like. 

Netflix's Rim of the World screenwriter Zack Stentz (who is not connected to the Barney film) suggested a stylized story about the fans themselves.

"Prediction: the movie will be a Christopher Robin/gentler Drop Dead Fred-thing where the lead character is a thirties millennial embarrassed that he used to love Barney and reconnects with the big purple guy to symbolize the innocence and open-heartedness he had lost touch with," Stentz tweeted. 

Then there's the suggestion Barney would make a perfect horror film like Get Out, or even a gritty reboot like Joker.

No additional cast information, director choice or release date have been announced and Mattel Films did not immediately respond to a request for a comment. 

Source: www.cnet.com

The She’s Gotta Have It Netflix series actress has scored a leading role in Universal/Amblin’s Jurassic World 3. 

DeWanda Wise joins the already announced cast that includes Chris Pratt, Bryce Dallas Howard, Mamoudou Anthie and original franchise stars Sam Neill, Laura Dern and Jeff Goldblum. Deadline exclusively broke the news about the returns of the Jurassic Park trio.

Colin Trevorrow directs off a script he co-wrote with Emily Carmichael. Their screenplay is based on a story by Trevorrow and Derek Connolly, who wrote the previous two Jurassic World chapters. Steven Spielberg and Trevorrow are EPs, Frank Marshall and Pat Crowley are producing.

Jurassic World 3 stomps into theaters on June 11, 2021.

Variety first had the news.

Source: https://deadline.com

Deadline is reporting that Mamoudou Athie (Sorry for Your Loss) will star in a lead role in Jurassic World 3 from Universal Pictures and Amblin Entertainment.

Athie, whose credits also include The Get Down, The Circle, and The Detour, will join returning cast members Chris Pratt and Bryce Dallas Howard, as well as original Jurassic Park stars Laura Dern, Sam Neill, and Jeff Goldblum.

RELATED: Joseph Mazzello and Ariana Richards Open to Returning to Jurassic Park

Steven Spielberg and Colin Trevorrow return to executive produce Universal Pictures and Amblin Entertainment’s Jurassic World 3, with Trevorrow once again directing the next chapter in one of the biggest franchises in the history of cinema. Producers Frank Marshall and Pat Crowley once again partner with Spielberg and Trevorrow in leading the filmmakers for this installment.

Joining the Jurassic team for the first time is Emily Carmichael (Pacific Rim Uprising, The Black Hole), who will craft the Jurassic World 3 screenplay with Trevorrow. They will work off a story by Derek Connolly and Trevorrow, who together co-wrote Jurassic World and Jurassic World: Fallen Kingdom.

RELATED: Neill, Dern, Goldblum Confirmed to Return for Jurassic World 3!

Source: www.comingsoon.net

A fossil site in Canada has yielded the best-preserved specimen of the dromaeosaurid dinosaur Saurornitholestes langstoni ever found.

First scientifically described in 1978, Saurornitholestes langstoni is a carnivorous feathered dinosaur within the family Dromaeosauridae (also known as raptors).

It lived approximately 76 million years ago (Cretaceous period) in what is now North America.

The species was previously known from fragmentary remains and was long thought to be so closely related to Velociraptor from Mongolia that some paleontologists called it Velociraptor langstoni.

The new, almost complete skeleton of Saurornitholestes langstoni was discovered by Clive Coy from the University of Alberta in Dinosaur Provincial Park in 2014.

The specimen was remarkably complete and exquisitely preserved, with all the bones (except for the tail) preserved in life position.

“Because of their small size and delicate bones, small meat-eating dinosaur skeletons are exceptionally rare in the fossil record,” said Dr. David Evans, a researcher in the Department of Natural History at the Royal Ontario Museum and the Department of Ecology & Evolutionary Biology at the University of Toronto.

“The new skeleton is by far the most complete and best-preserved raptor skeleton ever found in North America. It’s a scientific goldmine.”

Dr. Evans and his colleague, University of Alberta’s Professor Philip Currie, analyzed the new specimen and found that Saurornitholestes langstoni had a shorter and deeper skull than Velociraptor.

At the front of the skull’s mouth, they also discovered a flat tooth with long ridges, which was likely used for preening feathers. The same tooth has since been identified in Velociraptor and other dromaeosaurids.

The team also established a distinction between dromaeosaurids in North America and Asia.

“The new anatomical information we have clearly shows that the North American dromaeosaurids are a separate lineage from the Asian dromaeosaurids, although they do have a common ancestor,” Professor Currie said.

“This changes our understanding of intercontinental movements of these animals and ultimately will help us understand their evolution.”

The team’s paper was published in the journal Anatomical Record.

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Philip J. Currie & David C. Evans. Cranial Anatomy of New Specimens of Saurornitholestes langstoni (Dinosauria, Theropoda, Dromaeosauridae) from the Dinosaur Park Formation (Campanian) of Alberta. Anatomical Record, published online September 9, 2019; doi: 10.1002/ar.24241

Source: www.sci-news.com

Different groups of gigantic dinosaurs had different thermoregulatory strategies to help moderate brain temperatures in the face of high heat loads, according to new research from the Ohio University’s Heritage College of Osteopathic Medicine.

“Small dinosaurs could have just run into the shade to cool off, but for giant dinosaurs, the potential for overheating was literally inescapable,” said Professor Lawrence Witmer, co-author of the study.

“They must have had special mechanisms to control brain temperature, but what were they?”

Professor Witmer and his colleague, Dr. Ruger Porter, looked to the modern-day relatives of dinosaurs, birds and reptiles, where studies indeed showed that evaporation of moisture in the nose, mouth, and eyes cooled the blood on its way to the brain.

Using a technique that allows arteries and veins to show up in CT scans, they were able to trace blood flow from the sites of evaporative cooling to the brain. They also precisely measured the bony canals and grooves that conveyed the blood vessels.

“The handy thing about blood vessels is that they basically write their presence into the bones,” said Dr. Porter, lead author of the study.

“The bony canals and grooves that we see in modern-day birds and reptiles are our link to the dinosaur fossils.”

“We can use this bony evidence to restore the patterns of blood flow in extinct dinosaurs and hopefully get a glimpse into their thermal physiology and how they dealt with heat.”

The researchers looked at bony canal sizes in the dinosaurs to assess the relative importance of the different sites of evaporative cooling based on how much blood was flowing through them.

A key factor turned out to be body size. Smaller dinosaurs such as the goat-sized pachycephalosaur Stegoceras had a very balanced vascular pattern with no single cooling region being particularly emphasized.

“That makes physiological sense because smaller dinosaurs have less of a problem with overheating,” Dr. Porter said.

“But giants like sauropods and ankylosaurs increased blood flow to particular cooling regions of the head far beyond what was necessary to simply nourish the tissues.”

This unbalanced vascular pattern allowed the thermal strategies of large dinosaurs to be more focused, emphasizing one or more cooling regions.

But although sauropods like Diplodocus and Camarasaurus and ankylosaurs like Euoplocephalus all had unbalanced vascular patterns emphasizing certain cooling regions, they still differed.

Sauropods emphasized both the nasal cavity and mouth as cooling regions whereas ankylosaurs only emphasized the nose.

“It’s possible that sauropods were so large — often weighing dozens of tons — that they needed to recruit the mouth as a cooling region in times of heat stress. Panting sauropods may have been a common sight,” Dr. Porter said.

One problem that the scientists encountered was that many of the theropod dinosaurs — such as the 10-ton T. rex — were also gigantic, but the quantitative analysis showed that they had a balanced vascular pattern, like the small-bodied dinosaurs.

“This finding had us scratching our heads until we noticed the obvious difference — theropods like Majungasaurus and T. rex had a huge air sinus in their snouts,” Professor Witmer said.

Looking closer, the team discovered bony evidence that this antorbital air sinus was richly supplied with blood vessels.

Profeesor Witmer had previously shown that air circulated through the antorbital air sinus like a bellows pump every time the animal opened and closed its mouth.

“Boom! An actively ventilated, highly vascular sinus meant that we had another potential cooling region. Theropod dinosaurs solved the same problem… but in a different way,” he said.

The findings appear in the journal Anatomical Record.

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Wm. Ruger Porter & Lawrence M. Witmer. Vascular Patterns in the Heads of Dinosaurs: Evidence for Blood Vessels, Sites of Thermal Exchange, and Their Role in Physiological Thermoregulatory Strategies. Anatomical Record, published online October 16, 2019; doi: 10.1002/ar.24234

Source: www.sci-news.com

Fossils of ancient arthropods discovered in linear formation may indicate a collective behaviour either in response to environmental cues or as part of seasonal reproductive migration. The findings, which are published in Scientific Reports, suggest that group behaviours comparable to those of modern animals existed as early as 480 million years ago.

Collective and social behaviour is known to have evolved through natural selection over millions of years and modern arthropods provide numerous examples, such as the migratory chains of caterpillars, ants or spiny lobsters. Yet, the origins and early history of collective behaviour has remained largely unknown.

Jean Vannier and colleagues described several linear clusters of Ampyx priscus, a trilobite arthropod from the lower Ordovician period (ca 480 Million years ago) of Morocco. The trilobites, which were between 16 and 22 millimetres long, had a stout spine at the front of their bodies and a pair of very long spines at the back. In each cluster of trilobite fossils examined by the authors, individuals were arranged in a line, with the front of their bodies facing in the same direction, maintaining contact via their spines. The authors suggest that, given the scale of the patterns seen, this consistent linearity and directionality is unlikely to be the result of passive transportation or accumulation by currents. Instead, it is more likely that Ampyx was killed suddenly while travelling, for example by being buried rapidly by sediment during a storm.

The authors suggest that Ampyx probably migrated in groups and used their long projecting spines to maintain a single-row formation by physical contact, as they moved along the seafloor. This may have been a stress response to disturbance of their environment by storms, detected by motion and touch sensors, which motivated Ampyx to migrate to quieter and deeper waters. A comparable behaviour is seen in present-day spiny lobsters. Alternatively, the pattern may have been the result of a seasonal reproductive behaviour involving the migration of sexually mature individuals to spawning grounds. Knowing that Ampyx was blind, the authors hypothesize that the trilobites may have coordinated using sensory stimulation via spines and chemicals.

The discovery shows that a 480-million-year-old arthropod may have used its neural complexity to develop a temporary collective behaviour.

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Article and author details

Collective behaviour in 480-million-year-old trilobite arthropods from Morocco

Corresponding authors:

Jean Vannier
The University of Lyon, Lyon, France

DOI

10.1038/s41598-019-51012-3

Online paper

https://www.nature.com/articles/s41598-019-51012-3

Source: www.eurekalert.org

The third installment in the blockbuster Jurassic World franchise is set to begin shooting in February of next year, with a projected release date of June, 2021, according to a recent Forbes interview with producer Frank Marshall. According to Marshall, the untitled Jurassic World 3 is already in pre-production in London’s famous Pinewood Studios.

Marshall’s wife and longtime collaborator, Lucasfilm president Kathleen Kennedy, produced the original Jurassic Park series with Steven Spielberg. Marshall himself joined the series on Jurassic World. Altogether, the Jurassic films have grossed just a shade under $5 billion dollars since the original was released in 1993.

The third film will see the return of original Jurassic World director Colin Trevorrow, who recently surprised Jurassic World fans with an eight-minute short film titled Battle at Big Rock. The short, which takes place one year after the events of Jurassic World: Fallen Kingdom, depicts a family doing battle with a bunch of wild dinosaurs, and was largely well-received. If the short was any indication of what Jurassic World 3 is going to be like, it stands to be the most interesting addition to the Jurassic franchise since the shirtless Jeff Goldblum scene.

Recently, Collider revealed that Goldblum would be appearing in the third Jurassic World film, alongside his original Jurassic Park costars Sam Neill and Laura Dern.

If 2021 is too long to wait for your dinosaur fix, you can catch the Jurassic World Live Tour, an arena show boasting an original story and impressive special effects, as it travels through major cities for the next several months.

Source: https://collider.com

"I’m very excited to see how it will all weave together," the actress adds.

Laura Dern's had an amazing year. Not only has the actress attracted Oscar buzz for a phenomenal performance in Marriage Story, but her forthcoming movie Little Women has the internet excited to see Greta Gerwig's follow-up to Lady Bird. Also on Dern's horizon is the recently announced Jurassic World 3.

Dern will reprise her most famous character, Jurassic Park’s paleobotanist Dr. Ellie Sattler, in the movie, which is due to begin filming next year. Sitting down with our sister publication Total Film, Dern spoke about the sequel. "I’m very excited to see how it will all weave together," she says, "but I know it’s a deep intent both of [director] Colin [Trevorrow] and the entire tribe, including Steven Spielberg, to pay homage to the original and where the franchise has gone from there. The idea of bringing back the original cast, in a really beautiful way, it sounds amazing… the idea of being back with Sam [Neill] and Jeff [Goldblum] sounds like a dream."

At least she won’t have to keep as many secrets as she did two years ago, when she appeared in Star Wars: The Last Jedi. "I was shooting Big Little Lies, but couldn’t say anything about it; I was doing Star Wars and couldn’t tell anyone I was in it; and I was shooting Twin Peaks and I couldn’t couldn’t tell anyone I was in it… I had to be very careful even with my own children at the very beginning, with Star Wars." She was the "most boring interview ever", at least for a while. "I’m sure I’m about to be boring again. At least people know I might be working with dinosaurs in the future, but I’m sure I won’t be able to say anything more than that!"

Source: www.gamesradar.com

A new species of prehistoric stingray with an exceptional anatomy, which greatly differs from living species, has been identified from fossils found in Italy.

“Stingrays (order Myliobatiformes) are a very diverse group of cartilaginous fishes comprising more than 360 extant species arranged in 11 families,” explained Dr. Giuseppe Marrama, a paleontologist with the Institute of Paleontology at the University of Vienna, and colleagues.

“They are known for their venomous and serrated tail stings, which they use against other predatory fish, and occasionally against humans. They have a rounded or wing-like pectoral disc and a long, whip-like tail that carries one or more serrated and venomous stings.”

“Fossil remains of stingrays are very common, especially their isolated teeth. Complete skeletons, however, exist only from a few extinct species coming from particular fossil sites.”

“Among these, the rich fossil site near Bolca in northeastern Italy is one of the best known.”

Dr. Marrama and co-authors found three nearly complete specimens of a previously unknown stingray species at the Bolca site.

Named Lessiniabatis aenigmatica, the creature lived some 50 million years ago (Eocene epoch) in the waters of the western Tethys Ocean.

It had a flattened body and a pectoral disc ovoid in shape. What is striking is the absence of sting and the extremely short tail, which was not long as in the other stingrays and didn’t protrude posteriorly to the disc.

This unique body plan is unknown in other extinct or living species of stingrays.

“More than 70% of the organisms, such as dinosaurs, marine reptiles, several mammal groups, numerous birds, fish and invertebrates, disappeared during the fifth largest extinction event in the Earth’s history that occurred about 66 million years ago at the end of the Cretaceous period,” the researchers said.

“In marine environments, the time after this event is characterized by the emergence and diversification of new species and entire groups of bony and cartilaginous fishes (sharks and rays), which reoccupied the ecological niches left vacant by the extinction’s victims.”

“From this perspective, the emergence of a new body plan in a 50-million-year-old stingray such as Lessiniabatis aenigmatica is particularly intriguing when viewed in the context of simultaneous, extensive diversification and emergence of new anatomical features within several fish groups, during the recovery of the life after the end-Cretaceous extinction event,” Dr. Marrama said.

A paper on the discovery is published in the journal Scientific Reports.

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Giuseppe Marramà et al. 2019. A bizarre Eocene dasyatoid batomorph (Elasmobranchii, Myliobatiformes) from the Bolca Lagerstätte (Italy) reveals a new, extinct body plan for stingrays. Scientific Reports 9, article number: 14087; doi: 10.1038/s41598-019-50544-y

Source: www.sci-news.com