In the latest YouTube short posted up on Everything Dinosaur’s YouTube channel we ask the question which Woolly Rhino model do you prefer? Are you a fan of the recently reintroduced Papo Woolly Rhinoceros or do you like the new for 2023 Mojo Fun Woolly Rhino figure?
Picture credit: Everything Dinosaur
The Woolly Rhino video is less than a minute in length. It shows the two Woolly Rhino models and asks which figure do you like best? The brief video has been posted up on Everything Dinosaur’s YouTube channel and also shared on the company’s social media posts.
The Papo Woolly Rhino was originally introduced back in 2013, it was launched at the same time as the Papo Carnotaurus figure. Whilst the Papo Carnotaurus is still in production, the Woolly Rhinoceros was withdrawn, and it went out of production. Papo reintroduced this figure this year (2023) it is the only prehistoric mammal to be added to the “Les Dinosaures” model range in 2023.
Picture credit: Everything Dinosaur
To view the range of Papo prehistoric animal figures available from Everything Dinosaur (Les Dinosaures): Papo Prehistoric Animal Models.
Ask the Audience
A spokesperson from Everything Dinosaur explained that the followers of Everything Dinosaur on social media tended to be well informed and knowledgeable about prehistoric animals. Team members were always happy to hear from customers and social media participants. They looked forward to receiving comments about these two Woolly Rhino models.
The Everything Dinosaur YouTube channel is jam-packed with model review videos and hints and tips for prehistoric animal model collectors. It has thousands of subscribers.
A newly published study suggests that the Cambrian predator Anomalocaris canadensis had grasping appendages that were too weak to crack trilobite exoskeletons.
The research examined the mechanical properties of the claw-like appendages of the Late Cambrian predator Anomalocaris canadensis. The study concluded that this marine carnivore was built for speed but was not strong enough to crack the exoskeletons of trilobites.
A Nektonic, Agile Hunter
Writing in the academic journal the Proceedings of the Royal Society Biology, the researchers led by Russell Bicknell (American Museum of Natural History), show that A. canadensis was weaker than previously thought. They postulate that Anomalocaris was a fast and agile swimmer. It was nektonic, catching soft prey such as jelly fish and early vertebrates in open water. The study further refutes the idea that this large predator hunted trilobites.
This Study Supports the Conclusions of Earlier Research
Earlier research (Christopher Nedin, 1999) focused on the ring-shaped mouthparts of Anomalocaris (the oral cone). Anomalocaris mouthparts were at first misidentified. The oral cone was once thought to represent a jellyfish and named Peytoia. The lack of wear on the mouthparts was highlighted suggesting that they did not they did not come into regular contact with mineralised trilobite exoskeletons. It was proposed these radiodonts probably fed on soft-bodied organisms.
Revising the Behaviour of Anomalocaris canadensis
It had been thought that Anomalocaris was responsible for some of the scarred and crushed trilobite specimens preserved in the fossil record.
Postdoctoral researcher Russell Bicknell commented:
“That didn’t sit right with me because trilobites have a very strong exoskeleton, which they essentially make out of rock, while this animal would have been mostly soft and squishy.”
Picture credit: Everything Dinosaur
The illustration (above) is based on the recently introduced CollectA Anomalocaris replica.
This study set out to investigate whether the pair of grasping appendages located on the head were capable of ripping apart a trilobite. Burgess Shale fossil material was used to create an accurate three-dimensional model of Anomalocaris canadensis.
Natural History Museum researcher and co-author of the paper, Greg Edgecombe explained:
“Having access to specimens with the entire body preserved in the fossils allowed us to understand the anatomy of the appendages in the context of the rest of the head and the trunk. We were able to get a better picture of Anomalocaris as a living organism.”
Compared to Extant Whip Scorpions and Whip Spiders
The scientists used modern predatory whip spiders and whip scorpions as analogues. The team demonstrated that the predator’s segmented appendages were able to grab prey and could both stretch and flex. Finite element analysis, a modelling technique used in engineering, was used to identify stresses and points where the appendage would have been under strain.
The team calculated that the appendages would have been damaged while grasping hard prey such as trilobites. The researchers also used computational fluid dynamics to place the three-dimensional model of Anomalocaris in a virtual current to predict the body position it would use while swimming.
Dr Imran Rahman (London Natural History Museum) stated:
“This study emphasises the great potential of modern computer modelling methods in palaeontology. By employing techniques more commonly used in other disciplines like engineering, we can test ideas about long-extinct animals like Anomalocaris.”
This is the first time this combination of biomechanical modelling techniques has been used together in a single study. A different view of Anomalocaris canadensis has emerged. The animal was probably nektonic. A speedy swimmer, chasing soft-bodied prey in the water column with its front appendages outstretched and forward-facing.
Bicknell remarked:
“Previous conceptions were that these animals would have seen the Burgess Shale fauna as a smorgasbord, going after anything they wanted to, but we are finding that the dynamics of the Cambrian food webs were probably much more complex that we once thought.”
Everything Dinosaur acknowledges the assistance of a media release from the London Natural History Museum in the compilation of this article.
The scientific paper: “Raptorial appendages of the Cambrian apex predator Anomalocaris canadensis are built for soft prey and speed” by Russell D. C. Bicknell, Michel Schmidt, Imran A. Rahman, Gregory D. Edgecombe, Susana Gutarra, Allison C. Daley, Roland R. Melzer, Stephen Wroe and John R. Paterson published in the Proceedings of the Royal Society B.
The oldest fossil “stomach stone” has been discovered at Kimmeridge Bay, Dorset on the famous “Jurassic Coast”. The baseball-sized fossil was found by the eminent palaeontologist Dr Steve Etches MBE. It is thought to be around 150 million years old. The fossil is at least 59 million years older than the previous oldest known fossilised stomach stone.
Fossil “Stomach Stone” – A Calculus
Dr Etches sought the opinions of other palaeontologists to see if he could learn more about this mystery object. It was initially dismissed as not being organic in nature. The consensus was that it had formed through geological processes. The stone was passed on to experienced fossil preparator Nigel Larkin who compared it to material in the collections of the Royal College of Surgeons, England, and the University College London (UCL) pathology collections.
It soon became clear the stone was a “calculus”. A “calculus” is a concretion, a collection of minerals that form in the body. These objects are found in many parts of the body, the kidneys, the bladder, the stomach the urinary tract and they have a very specific internal structure.
An Exceptional Fossil Discovery
Only a handful of calculi have been discovered in the fossil record. It is thought that more exist, but they have not been formally identified.
Nigel Larkin commented:
“I was fascinated by this very curious mystery object and was determined to discover what it was. Unless stomach stones are actually found preserved within a skeleton it is almost impossible to tell what sort of animal it might have formed inside.”
The size of the stomach stone and the location of its discovery (marine deposits) suggests that this object formed inside the body of a large marine reptile. The calculus could have come from a plesiosaur, an ichthyosaur, a pliosaur or perhaps a marine crocodile.
Dr Ivan Sansom, Senior Lecturer in Palaeobiology at the University of Birmingham, carried out microscopic analyses of the stone to determine the exact structure of the specimen and its mineral composition. Based on this analysis Dr Sansom concluded that this stone had formed in the gastro-intestinal tract. It was a fossil “stomach stone”.
The Only Calculus from the UK Fossil Record
The fossil “stomach stone” is estimated to be around 150 million years old (Late Jurassic). This discovery extends the range of known calculi in the fossil record by approximately 59 million years. It is the only fossil of its kind to have been found in the UK. It also confirms their occurrence in marine palaeoenvironments rather than just terrestrial deposits.
Everything Dinosaur acknowledges the assistance of a media release from the University of Reading in the compilation of this article.
The scientific paper: “The fossil record’s oldest known calculus (an enterolith of the gastrointestinal tract), from the Kimmeridge Clay Formation (Upper Jurassic), UK” by Nigel R. Larkin, Thomas Henton, Steve Etches, Adrian J. Wright, Tzu-Yu Chen, Laura L. Driscoll, Richard M. Shelton and Ivan J. Sansom published in the Proceedings of the Geologists’ Association.
Earlier this week Everything Dinosaur posted up on the company’s YouTube channel a Schleich Quetzalcoatlus video short. This brief video (it is under forty-five seconds long), demonstrates how the jointed wings of this pterosaur model work.
Shorts, or YouTube Shorts are easy to make and provide a quick way to engage your audience using video. They can be recorded straight from a smartphone if required. The video is less than sixty seconds in length and has a vertical format. They are great for getting across simple messages in an entertaining way.
The Schleich Quetzalcoatlus Video Short
In the Schleich Quetzalcoatlus video short, the figure is shown in a flying pose. It is quickly converted into a pterosaur resting pose. This is a novel design, and we congratulate the development team at Schleich for their innovative approach to flying reptile models.
A spokesperson from Everything Dinosaur commented:
“We have lost track of the number of Quetzalcoatlus figures that Schleich have developed. We think that a Quetzalcoatlus pterosaur has been in production at the company in one form or other for more than fifteen years. The new for 2023 figure is the first Schleich Quetzalcoatlus to have jointed wings.”
Visit Everything Dinosaur’s user-friendly and award-winning website: Everything Dinosaur.
Everything Dinosaur team members have taken a photograph of Mojo Fun prehistoric mammals. A figure collector enquired about these two recently introduced prehistoric mammal replicas. The photograph helps to highlight the stunning details captured in the two figures.
Mojo Fun had previously included a Woolly Mammoth within its “prehistoric and extinct” range of figures. The new Woolly Mammoth model is likely to replace their earlier figure. The Woolly Rhinoceros (Coelodonta antiquitatis) model is a new for 2023 release. It has already attracted widespread praise.
Picture credit: Everything Dinosaur
Mojo Fun Prehistoric Mammals
A spokesperson from Everything Dinosaur congratulated the design team.
The spokesperson added:
“These two Ice Age mammals are beautiful. Their shaggy coats have been skilfully modelled and there is much to admire in these two prehistoric mammal models.”
To visit the award-winning and user-friendly Everything Dinosaur website: Everything Dinosaur.
Suskityrannus hazelae illustrated as preparations are made for the arrival of Wave 2 of the Beasts of the Mesozoic tyrannosaur figures. Team members have ensured that this early Late Cretaceous tyrannosauroid has been illustrated as the fact sheet for this new figure is being written.
The Suskityrannus hazelae drawing will be converted into a scale drawing. This illustration will be incorporated into a fact sheet on this small theropod dinosaur.
The next shipment of Beasts of the Mesozoic articulated figures is expected to dock at Felixstowe at the end of July. The shipment will contain other, new Wave 2 theropods such as Proceratosaurus, Qianzhousaurus and Lythronax.
Named and described in 2019 (Nesbitt et al), this dinosaur is known from two fossil specimens. The fossils come from the Moreno Hill Formation of the Zuni Basin in New Mexico. The deposits associated with the tyrannosauroid fossils have been dated to around 92 million years ago.
Although known from fossil material representing juveniles, palaeontologists were able to make some startling conclusions. Suskityrannus hazelae, had the same general body shape and feet adapted to running (arctometatarsalian feet), as the later, much larger tyrannosaurs such as Albertosaurus, Gorgosaurus and Tyrannosaurus rex.
Suskityrannus hazelae Illustrated
A spokesperson from Everything Dinosaur commented:
“The Suskityrannus illustration is one of three new drawings that we have commissioned. These drawings will be used in the prehistoric animal fact sheets that we intend to write. Fact sheets are sent out with sales of prehistoric animal and dinosaur figures.”
Everything Dinosaur will post up in the near future a brief video that demonstrates how the new for 2023 Schleich Quetzalcoatlus wings work. Our plan is to produce a video short. It will be around 45 seconds long and the video will show how the Schleich Quetzalcoatlus can be posed either flying or resting.
Picture credit: Everything Dinosaur
The Schleich Quetzalcoatlus Wings
The new Schleich Quetzalcoatlus pterosaur model has jointed wings. There is a joint at each shoulder and a second joint where the manus (hand) on the pterosaur would have been. This permits collectors and fans of prehistoric animals to change the pose of their Quetzalcoatlus figure.
A spokesperson from Everything Dinosaur commented:
“Schleich is not known for producing highly accurate figures. Their target market is young fans of prehistoric animals and dinosaurs. The company has taken a novel approach to this pterosaur model and we congratulate the design team for their innovative design.”
Picture credit: Everything Dinosaur
The Schleich model range consists of a wider selection of prehistoric animal figures. A further five new dinosaur models were added to this range at the beginning of the year. The models are hand-painted and great for robust, creative play. Many of the models have points of articulation. This is the first Schleich Quetzalcoatlus model to have articulated wings.
The new for 2023 Schleich Quetzalcoatlus model has arrived in stock at Everything Dinosaur. This week has been exceptionally busy for Everything Dinosaur team members with new model deliveries from Papo, Mojo Fun and now Schleich.
Still, despite their busy schedule Everything Dinosaur team members manage to keep smiling.
Picture credit: Everything Dinosaur
Schleich Quetzalcoatlus Model
The colourful Schleich Quetzalcoatlus model has an innovative design. There are joints at the shoulders and at the hands which permits the wings to be bent. The figure can be posed in a resting position. Alternatively, the wings can be folded out to give the impression that this flying reptile is airborne,
Schleich has a long history of producing Quetzalcoatlus figures. Quetzalcoatlus featured in the original Schleich “Saurus” model series and also in the smaller Schleich dinosaurs range. This is the first Schleich pterosaur to be produced with articulated wings.
The model has a brightly coloured head. Palaeontologists think that pterosaurs had excellent colour vision.
A spokesperson from Everything Dinosaur commented:
“The head of the Quetzalcoatlus is a striking combination of crimson and purple. The colour scheme chosen by the design team at Schleich is quite inspired.”
The spokesperson added:
“The novel, folded wings provide plenty of options for creative, imaginative play.”
The new for 2023 Mojo Fun Woolly Rhino is in stock at Everything Dinosaur. Team members have been busy contacting all the customers who wanted to be informed about this prehistoric rhino’s arrival. The Woolly Rhino has been eagerly anticipated, it is a beautifully detailed replica of a Coelodonta antiquitatis.
Picture credit: Everything Dinosaur
The Woolly Rhinoceros (Coelodonta antiquitatis)
It is thought that this ancient rhinoceros evolved in Asia. During the Pleistocene Epoch it had an extensive range.
Fossils of Coelodonta antiquitatis have been found in the London area (Thames River gravels). The scientific name translates as “ancient hollow tooth”. The name derives from the animal’s teeth. Molars associated with this grazer of grasses and sedge have a distinctive cavity.
The Mojo Fun Woolly Rhinoceros model measures around 19 cm in length. Everything Dinosaur team members estimate the head height to be around 7 cm.
Picture credit: Everything Dinosaur
The Mojo Fun Woolly Rhino Model
A spokesperson from Everything Dinosaur commented:
“This is a spectacular replica of a Woolly Rhino. The model has a superb, tactile coat giving the impression of coarse hair. The two horns are carefully sculpted and even show signs of wear. Our congratulations to the design team at Mojo Fun.”
The last of the Woolly Rhinos are believed to have persisted in Siberia. The genus becoming extinct around 13,000 to 14,000 years ago. A research paper published in 2021 (Wang et al), postulated that some Woolly Rhinos could have survived into the Holocene, with the last of their kind dying out around 9,800 years ago. The conclusions of the study, which was based on the dating of environmental DNA, have been challenged. The environmental DNA could have originated from older sediments and subsequently redeposited into much younger strata.
The recently reintroduced Papo Archaeopteryx and Woolly Rhino models have arrived in stock at Everything Dinosaur. The two retired figures are available again. Team members have been busy contacting those customers about the reintroduction of these two prehistoric animal models.
Picture credit: Everything Dinosaur
The picture (above) shows the first of these two figures to be unpacked this morning. A shipment of Papo models arrived including the Papo Archaeopteryx and the Woolly Rhino.
A spokesperson from Everything Dinosaur stated:
“It is great to see these old friends again. We know that many collectors missed out on these two models when they were originally launched. These model fans have the opportunity to complete their Papo collections.”
The Papo Woolly Rhinoceros model was introduced in 2013. It was retired a few years later. The figure has proved popular with collectors. Numerous Woolly Rhino fossils have been found in France and Papo were keen to introduce models of animals reflected in the country’s own extensive fossil record. The Woolly Rhinoceros had a large, keeled front horn. This horn and the model’s shape reflected fossil evidence and the prehistoric drawings found in French caves.
Picture credit: Everything Dinosaur
Papo Archaeopteryx
The Papo “Urvogel” or Archaeopteryx was first introduced into the “Les Dinosaures” range back in 2014. This colourful theropod model was withdrawn in 2019. One of the ways in which manufacturers can engage with their customers is by reintroducing old favourites that had gone out of production. It also provides the manufacturer with a low-cost model. No mould making costs or development costs are associated with a reintroduced figure.
Picture credit: Everything Dinosaur
The Papo Archaeopteryx and Woolly Rhino Figures
Dinosaur fans and model collectors have already begun to speculate on what other recently retired Papo figures might be returned.
The spokesperson from Everything Dinosaur did confirm that discussions had taken place some years ago about the return of the iconic Papo standing T. rex model (green standing T. rex).