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8 08, 2020

Little Euparkeria into the Spotlight

By | August 8th, 2020|Adobe CS5, Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

A Fresh Look at Euparkeria

The fossilised remains of a little, lithe reptile that wandered South Africa during the Middle Triassic have come into the spotlight more than a hundred years after they were first scientifically described.  The fossils represent the taxon Euparkeria (pronounced Yoo-park-air-ree-ah) and they are regarded as highly significant in terms of plotting the evolution of tetrapods.  Formally named and described in 1913 (Robert Broom), Euparkeria is phylogenetically regarded as a basal member of the Archosauria.  As such, by studying the fossil remains of this animal, palaeontologists can gain a better understanding of the evolution of the archosaurs – a diverse group of tetrapods that includes the crocodilians, birds and of course, the dinosaurs.

A Life Reconstruction of Euparkeria (Euparkeria capensis)

Euparkeria life reconstruction

A life reconstruction of the basal archosauriform Euparkeria.

Picture Credit: Everything Dinosaur

Represented By More Than Ten Fossil Specimens

The fossils all come from a single locality, Aliwal North on the Eastern Cape and Free State Province boundary in South Africa.  The fossilised bones having been collected from a solitary stone quarry, adjacent to a small stream.  Measuring around sixty centimetres in length (the tail made up more than half the body length), Euparkeria is known from at least ten specimens.  This material was extensively reviewed in 1965, but over the last six decades or so, there have been huge advances in fossil bone imaging techniques and the researchers led by Roland B. Sookias (Museum für Naturkunde in Berlin), subjected Euparkeria material to CT scanning at the Evolutionary Studies Institute, University of the Witwatersrand, Johannesburg.

The Research Has Enabled Detailed Diagrams of the Skull of Euparkeria to be Compiled

Euparkeria capensis drawings of the skull.

Reconstruction of the skull and mandible of Euparkeria capensis.  Cranium (a) and right mandible (b) in right lateral view; (c) left mandible in medial view; and cranium in (d) dorsal, (e) ventral and (f) posterior view.

Picture Credit: Sookias et al (Royal Society Open Science)

Examining the Skull of Euparkeria

The CT scans enabled the scientists to describe the skull and jaw of Euparkeria in much greater detail than ever before.  Anatomical features previously unclear, are fully described for the first time.  The researchers were able to examine the palate, determine the number of teeth in the premaxilla (4 teeth in each premaxilla) and reconstruct the braincase.  The modular composition of the skull would have ensured that the cranium was quite flexible, adapted to coping with the stress of prey struggling in the jaws.

The study, published by the Royal Society Open Science, confirms Euparkeria as a major advance in tetrapod evolution and helps to place the crown Archosauria in greater context informing palaeontologists about the early stages of archosaur evolution.  Euparkeria most probably spent most of its time on all fours, a comparison of forelimb versus hindlimb length suggests that it was a facultative biped (usually walking on all fours but capable of walking as a biped when it needed to).  It was one of the first reptiles capable of running on just its hind legs.

Skull of Euparkeria capensis Specimen (SAM-PK-6047A) with Line Drawings

Fossil skull of Euparkeria with accompanying line drawings.

Skull of Euparkeria with accompanying line drawings.

Picture Credit: Sookias et al (Royal Society Open Science)

Euparkeria, which lived approximately 245 million years ago, shows a number of anatomical advances including an increase in brain size with improved senses, upright locomotion and a likely rapid metabolism placing this taxon in a pivotal position between ancestral diapsids the very first members of the Archosauria.

The scientific paper: “The craniomandibular anatomy of the early archosauriform Euparkeria capensis and the dawn of the archosaur skull” by Roland B. Sookias, David Dilkes, Gabriela Sobral, Roger M. H. Smith, Frederik P. Wolvaardt, Andrea B. Arcucci, Bhart-Anjan S. Bhullar and Ingmar Werneburg published by the Royal Society Open Science.

7 08, 2020

When Tanystropheus Becomes Two

By | August 7th, 2020|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

New Study Solves Mystery of Tanystropheus

A newly published scientific paper demonstrates that small specimens of Tanystropheus from the Middle Triassic Lagerstätte of Monte San Giorgio (Italy/Switzerland border), represent a separate species (Tanystropheus longobardicus) and that they co-existed with much larger examples of this genus (Tanystropheus hydroides).  Writing in the academic journal “Current Biology”, the researchers which include Olivier Rieppel (Field Museum in Chicago), postulate that the larger species was an aquatic ambush predator, whilst the smaller species fed on other types of prey.

Sophisticated Computer Models Developed from High Resolution CT Scans Identified the Two Species

New scientific paper identifies new species of Tanystropheus.

Computer model of CT scan showing a reconstructed skull of T. hydroides, line drawing and fossil material.  Skeletal size comparison and line drawing with close-up of bone growth rings associated with T. longobardicus.

Picture Credit: Spiekman et al (Current Biology)

Tanystropheus longobardicus Remains but Referencing Smaller Species

Tanystropheus represents one of the most bizarre of all the vertebrates known from the Mesozoic.  It is characterised by an extremely long and inflexible neck that is almost three times the length of its torso.  The palaeobiology of this reptile has remained contentious with a fully aquatic, semi-aquatic and entirely terrestrial lifestyle having been proposed since it was formally described back in 1852 (Hermann von Meyer).

An Illustration of the Bizarre Triassic Archosauromorph Tanystropheus

A drawing of Tanystropheus.

A drawing of the bizarre Triassic reptile Tanystropheus.

Picture Credit: Everything Dinosaur

The research team used high-resolution CT scans to construct three-dimensional computer generated models of fossil specimens that had been crushed and flattened.  The skulls that were constructed revealed that the larger specimens were anatomically very different from the skulls of the smaller specimens.  The smaller morphotype was known for having different shaped teeth when compared to the teeth of larger specimens from the same strata.  Historically, this had been interpreted as evidence for juveniles of T. longobardicus feeding on different types of prey compared to fully-grown adults.

Lead author of the paper, Stephan Spiekman (University of Zurich), explained:

“The power of CT scanning allows us to see details that are otherwise impossible to observe in fossils.  From a strongly crushed skull we have been able to reconstruct an almost complete 3-D skull, revealing crucial morphological details.”

The computer generated models permitted the team to conclude that two species of Tanystropheus co-existed in the Middle Triassic coastal ecosystem.   The larger species, which grew up to six metres long, has been named Tanystropheus hydroides, whilst the smaller species is retained as T. longobardicus.

A Crushed Skull and Examples of a Three-Dimensional Skull Map

Computer generated model of the holotype skull T. hydroides.

The skull of Tanystropheus hydroides (holotype material).  The different coloured portions represent different bones.

Picture Credit: Spiekman et al (Current Biology)

A Marine Predator

The study also revealed strong evidence that Tanystropheus hydroides was a marine predator.  The scans of the skull revealed that the nostrils were on top of the snout, rather like a crocodile’s.   The long, pointed teeth in the anterior portion of the jaw enabled it to grab and hold onto slippery prey, the teeth being described by the scientists as a “fish-trap type dentition”.   Both species were probably confined to coastal environments, the larger of the two species ambushing small fish whilst Tanystropheus longobardicus may have fed on shrimps and other  types of crustacean.  Although adapted to a marine habitat, both species probably had to return to land in order to lay eggs.

The co-occurrence of these two species of very different sizes and tooth morphology provides strong evidence for niche partitioning, highlighting the surprising versatility of the Tanystropheus bauplan and the complexity of Middle Triassic nearshore ecosystems.

Line Drawings Comparing the Skull and Bauplan of the Two Tanystropheus Species

Two different species of Tanystropheus identified.

Tanystropheus hydroides compared with Tanystropheus longobardicus  Skull illustrations (lateral, dorsal and ventral views), with a scale drawing (G).  T. longobardicus is represented by D-F, whilst T. hydroides is represented by A-C.

Picture Credit: Spiekman et al (Current Biology)

The scientific paper: “Aquatic Habits and Niche Partitioning in the Extraordinarily Long-Necked Triassic Reptile Tanystropheus” by Stephan N.F. Spiekman, James M. Neenan, Nicholas C. Fraser, Vincent Fernandez, Olivier Rieppel, Stefania Nosotti and Torsten M. Scheyer published in Current Biology.

4 08, 2020

Rare Malignant Cancer Diagnosed in Centrosaurus Bone

By | August 4th, 2020|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Bone Cancer (Osteosarcoma) Identified in Dinosaur Fibula

Scientists have identified a rare malignant cancer in the fossilised bone of a horned dinosaur.  Writing in “The Lancet Oncology”, the researchers report on the discovery and diagnosis of an osteosarcoma in the lower leg bone (fibula), of a Centrosaurus (Centrosaurus apertus).  This is the first time that an osteosarcoma has been found in the fossilised bones of a dinosaur.

An Osteosarcoma Identified in the Leg Bone of a Dinosaur (Centrosaurus apertus)

Malignant cancer identified in Centrosaurus fossil bone.

Malignant cancer identified in horned dinosaur leg bone.

Picture Credit: Royal Ontario Museum

What is an Osteosarcoma?

Osteosarcoma is a cancer that produces immature bone.  There are an estimated 3.4 million cases reported in the human population each year.  It mostly occurs in young people, under the age of 25 and there is some evidence to suggest that it is more prevalent in males.  In our species, osteosarcoma is associated with periods of rapid bone growth, to date the cause, genetic alterations, oncogenic events and evolutionary history of osteosarcoma are poorly understood.

The research team included scientists from the Royal Ontario Museum, McMaster University (Ontario) and the Okayama University of Science (Japan), along with numerous other specialists in pathology, molecular medicine, image resonance and oncology.  They subjected the leg bone to high-resolution computed tomography (CT) scans.  Thin sections were than prepared and examined under a microscope to assess the specimen at the bone-cellular level.  The investigators were able to reach a diagnosis of osteosarcoma, the first time such a diagnosis has been identified in a member of the Dinosauria.

Centrosaurus Life Reconstruction

An illustration of Centrosaurus.

Centrosaurus life reconstruction.

Picture Credit: Michael W. Skrepnick

Originally Believed to be a Healing Fracture

The Centrosaurus bone was found in 1989 in the Dinosaur Provincial Park (Alberta).  The badly malformed bone was thought to represent a healing fracture but it was decided to investigate its unusual morphology in order to better understand the pathology.

A Cast of the Deformed Bone (Fibula) of Centrosaurus

The malformed Centrosaurus dinosaur bone.

Evidence of a malignant tumour in a dinosaur bone.  A cast of the dinosaur bone showing the deformity

Picture Credit: Danielle Dufault (Royal Ontario Museum)

One of the co-authors of the paper, Rhianne Crowther (Trent University, Ontario), commented:

“Diagnosis of aggressive cancer like this in dinosaurs has been elusive and requires medical expertise and multiple levels of analysis to properly identify.  Here, we show the unmistakable signature of advanced bone cancer in 76-million-year-old horned dinosaur — the first of its kind.  It’s very exciting.”

Confirming the Diagnosis, Human Compared to a Dinosaur

To confirm the diagnosis of osteosarcoma, the bone was compared to a normal fibula from a Centrosaurus.  It was then compared to a human fibula with a confirmed case of osteosarcoma.  The Centrosaurus was an adult dinosaur and the cancer was at an advanced stage, suggesting that it probably invaded other organs and parts of its body.  The bone comes from an extensive monodominant Centrosaurus bonebed, so this dinosaur probably died with a large number of other animals in its herd during a catastrophic flood.

David Evans, a palaeontologist at the Royal Ontario Museum added:

“The shin bone shows aggressive cancer at an advanced stage.  The cancer would have had crippling effects on the individual and made it very vulnerable to the formidable tyrannosaur predators of the time.  The fact that this plant-eating dinosaur lived in a large, protective herd may have allowed it to survive longer than it normally would have with such a devastating disease.”

Seper Ekhtiari, an Orthopaedic Surgery Resident at McMaster University, who had also been involved in this study, stated:

“It is both fascinating and inspiring to see a similar multidisciplinary effort that we use in diagnosing and treating osteosarcoma in our patients leading to the first diagnosis of osteosarcoma in a dinosaur.  This discovery reminds us of the common biological links throughout the animal kingdom and reinforces the theory that osteosarcoma tends to affect bones when and where they are growing most rapidly.”

It is hoped that this research will establish a new standard for the diagnosis of unclear pathology in vertebrate fossils.  Forging links between pathology preserved in fossilised bones and human medicine will help scientists to gain a better understanding of the evolution and genetics of various diseases.

Everything Dinosaur acknowledges the assistance of a media release from the Royal Ontario Museum in the compilation of this article.

The scientific paper: “First case of osteosarcoma in a dinosaur: a multimodal diagnosis” by Seper Ekhtiari, Kentaro Chiba, Snezana Popovic, Rhianne Crowther, Gregory Wohl, Andy Kin On Wong, Darren H Tanke, Danielle M Dufault, Olivia D Geen, Naveen Parasu, Mark A Crowther and David C Evans published in The Lancet Oncology.

3 08, 2020

Scotland’s Own “Jurassic Park”

By | August 3rd, 2020|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Geology, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Jurassic Fossils from the Isle of Skye Globally Significant

The filming might have resumed for the next instalment in the “Jurassic Park/World” franchise last week, but in the scientific community there has been an important development in the study and protection of Scotland’s very own “Jurassic Park”.

Scientists from the University of Oxford, University College London, Birmingham University the University of Edinburgh and the National Museum of Scotland have published a new scientific paper that emphasises the importance of vertebrate fossils from the Isle of Skye.

The Isle of Skye is Heralded as One of the Most Important Places in the World for Middle Jurassic Vertebrate Fossils

Isle of Skye Sauropods.

The Isle of Skye (Bathonian faunal stage).  A newly published scientific paper heralds the vertebrate fossils from the Kilmaluag Formation on the Isle of Skye as “globally significant”.

Picture Credit: Jon Hoad

The Kilmaluag Formation

Outcrops of the Bathonian-aged Kilmaluag Formation on the Trotternish peninsula on the Isle of Skye hold vital information on how vertebrate life was evolving and changing around 167 million years ago.  The strata contain both body and trace fossils of numerous tetrapods including dinosaurs.  Since there are not that many highly fossiliferous sites around the world providing evidence of terrestrial ecosystems and biota from back in the Middle Jurassic, the Isle of Skye has long been recognised as a hugely significant.

The area was given greater legal protection last year, when the Scottish Government signed a Nature Conservation Order (NCO), to assist in the protection of the rare vertebrate fossils found in the area and to deter irresponsible fossil collecting on the island.

To read about the provision of the Nature Conservation Order: Legal Protection for Isle of Skye Fossil Sites.

In this new study, the researchers which include Scottish palaeontologist Elsa Panciroli, a research assistant in the department of Evolution and Palaeobiology at the University of Oxford, conclude that unlike other contemporaneous fossil localities from England, the strata of the Kilmaluag Formation provides partial skeletons, providing unprecedented insights and new data.  The research team state that this location has yielded predominantly small-bodied tetrapods including amphibians, many types of reptiles (including pterosaurs and dinosaurs) and non-mammalian cynodonts as well as early mammals.  An abundant fossil fish and invertebrate assemblage is also reported.

A Sauropod Track from the Isle of Skye

Sauropod track on the foreshore (Isle of Skye).

Sauropod track from the Isle of Skye.  The Trotternish peninsula provides both body and trace fossils, such as this sauropod track for example.

Picture Credit: Jon Hoad

The researchers provide a comprehensive overview of the Kilmaluag Formation, outlining the importance of its geology and the fossil discoveries made to date.  They also present evidence of several species that are being reported from the Isle of Skye for the first time.   The review places the vertebrate faunal assemblage in an international context and confirms the global significance of the region.  Although the dinosaurs grab all the headlines, the Kilmaluag Formation is most likely to provide important information with regards to the evolutionary history of early mammals, the Squamata (lizards and snakes) along with amphibians.

To read Everything Dinosaur’s blog post about damage to dinosaur footprints being reported: Dinosaur Footprints Damaged on the Isle of Skye.

The link between the fossil sites in Wyoming and the Isle of Skye: What have Wyoming and the Isle of Skye got in Common?

Evidence of Scottish Stegosaurs: Scottish Stegosaurs.

The scientific paper: “Diverse vertebrate assemblage of the Kilmaluag Formation (Bathonian, Middle Jurassic) of Skye, Scotland” by Elsa Panciroli, Roger B. J. Benson, Stig Walsh, Richard J. Butler, Tiago Andrade Castro, Marc E. H. Jones and Susan E. Evans published by The Royal Society of Edinburgh/Cambridge University Press.

31 07, 2020

Time to “Beef Up” Dilophosaurus

By | July 31st, 2020|Adobe CS5, Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Everything Dinosaur News and Updates, Everything Dinosaur videos, Main Page, Photos of Everything Dinosaur Products, Photos/Pictures of Fossils, Press Releases|0 Comments

Time to “Beef Up” Dilophosaurus wetherilli

A comprehensive review of the fossil material associated with the Early Jurassic crested theropod Dilophosaurus (D. wetherilli) has been published.  The consequences of this newly published paper for manufacturers of dinosaur models are profound.  It is likely that our view of “double crested lizard” will change and with the writing of this paper, all the Dilophosaurus figures and replicas are very probably all wrong!

It’s time to “beef up” Dilophosaurus and to stop depicting it as a lightly built, gracile, weak-jawed scavenger but to recognise that this dinosaur was an apex predator!

Everything Dinosaur team members have produced a short YouTube video that explains what has happened.

Time to “Beef Up” Dilophosaurus (D. wetherilli)

Video credit: Everything Dinosaur

All Dilophosaurus Dinosaur Models May be Wrong!

An analysis of the five most-complete Dilophosaurus specimens reveals that Dilophosaurus had stronger jaws than previously thought.  That distinctive notch between the premaxilla and the maxilla (the upper jaw bones), which is so carefully depicted in numerous replicas and figures, might be much less pronounced.  The original interpretation of the “kink” being put down to the fragmented and poor condition of the fossil material.  The shape of the upper jaws may be a result of taphonomy and it might not reflect the actual shape of the bones.

Lots of Dilophosaurus Dinosaur Models Feature in Everything Dinosaur’s Video

Wild Safari Dilophosaurus dinosaur model.

The Wild Safari Prehistoric World Dilophosaurus model came out in 2009 and it shows the characteristic anatomical traits formerly associated with this theropod dinosaur.

Picture Credit: Everything Dinosaur

Nasal and Lacrimal Bones Form the Crests

It is the nasal and lacrimal bones that form the famous crests.  This new paper suggests that these features were not thin and bony but the hollow, pneumatised cores were covered with keratin or keratinised skin making them much larger than previously thought.  Although their overall shape remains uncertain, these crests may have played a role in helping this large animal to lose heat.  Recently published research (Eastick et al), suggests that the casques of large, ground-dwelling birds such as cassowaries might act as thermal windows.  The casque on the top of the head of the cassowary could help this large bird to lose heat when it is very hot and restrict heat loss in cooler conditions.  At the time of publication (2019), it was proposed that these findings might have implications for the function of similar structures in avian and non-avian dinosaurs and that includes Dilophosaurus wetherilli.

Used for Display and Thermoregulation?

A new interpretation of Dilophosaurus wetherilli.

The new interpretation depicts Dilophosaurus as an apex predator which was very bird-like. Those crests could have played a role in thermoregulation.

Picture Credit: Everything Dinosaur (puppet of Dilophosaurus created by Brian Engh)

Everything Dinosaur’s YouTube video highlighting the scientific paper on Dilophosaurus that may change the way models of this dinosaur are made lasts for a fraction over eleven minutes.  It provides an overview of the recent paper and discusses how future Dilophosaurus dinosaur models might look.

To read Everything Dinosaur’s blog post about the newly published research reviewing the Dilophosaurus wetherilli fossil material: Beefing Up Dilophosaurus.

Everything Dinosaur’s YouTube channel contains over 175 dinosaur and prehistoric animal videos, including model reviews, tips and hints about prehistoric animal model collecting, new releases, fossil discoveries, updates and insider information.

Discover Everything Dinosaur on YouTube: Everything Dinosaur on YouTube.  We recommend that you subscribe to our YouTube channel.

Everything Dinosaur would like to acknowledge the help and support of University of Texas at Austin/Jackson School of Geosciences for their help in creating our YouTube video.

30 07, 2020

Vicious Prehistoric Owl from the Bighorn Basin

By | July 30th, 2020|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Primoptynx poliotauros – Large Owl that Hunted like a Hawk!

With the extinction of the non-avian dinosaurs some 66 million years ago, our mammalian ancestors diversified and thrived.  A large proportion of their predators had become extinct and this may have contributed to their success.  However, our furry friends were not to have everything go their way, as within a few million years other vertebrates, notably the birds had themselves diversified and begun to fill predatory niches in terrestrial ecosystems once occupied by less derived maniraptorans.

For example, a new species of large owl has been described from postcranial remains found in the Bighorn Basin of Wyoming.  This owl, which was approximately sixty centimetres tall, has particularly large and well developed talons on its hind and second toes.  Writing in the “Journal of Vertebrate Palaeonotology”, the research team responsible for describing the fossil material conclude that this large bird was a very dangerous threat to the numerous species of small and medium sized mammals within the ecosystem.  The owl has been named Primoptynx poliotauros.

The Fossil Remains of Primoptynx poliotauros Laid Out in Skeletal Position

Primoptynx poliotauros fossil material.

Primoptynx poliotauros fossil bones laid out in approximate skeletal position.  Note the scale bar of 10 cm.

Picture Credit: Senckenberg Research Institute/Tränkner

Big Owl with Big Talons

Lead author of the scientific paper, Dr Gerald Mayr, an ornithologist at the Senckenberg Research Institute and Natural History Museum Frankfurt commented:

“The fossil owl was about the size of a modern snowy owl (Bubo scandiacus).  However, it is clearly distinguished from all extant species by the different size of its talons. While in present-day owls the talons on all toes are approximately the same size, Primoptynx poliotauros has noticeably enlarged talons on its hind toe and second toe.”

The scientists postulate that as this prehistoric owl has a longer first and second toe, as seen in extant hawks and other members of the Accipitridae family, such as such as the Harpy eagle (H. harpyja), this suggests that P. poliotauros used its feet to dispatch prey items in a hawk-like manner, in contrast to extant owls that kill prey with their beak.

Co-author of the paper, Dr Thierry Smith (Royal Belgian Institute of Natural Sciences), explained:

“Owls today have four toes with claws of equal size to catch relatively small preys and kill them with the beak.  Primoptynx poliotauros has a longer first and second toe, as seen in hawks and other members of the family Accipitridae.  Those more developed toes are used to pin down prey, which are punctured by the talons.  So, it was an owl that hunted like a hawk on medium-sized mammals.”

From the Willwood Formation (Wyoming, USA)

The fossil material heralds from the Willwood Formation of the northern Bighorn Basin, Park County in Wyoming and the genus name is from the Latin for first “primus” and the “ptynx” for owl.  Although around 55 million years old, Primoptynx was not the “first owl”, there is evidence to suggest that these birds originated in the Cretaceous.

The fossils help to confirm the widespread and diverse species of owls that were present during the Eocene Epoch.  The success of owls (Strigiformes), runs in conjunction with the evolutionary development of placental mammals.  The later extinction of Primoptynx poliotauros and prehistoric proto-owls may have been due to the emergence of diurnal birds of prey in the Late Eocene.

Everything Dinosaur acknowledges the assistance of a media release from the Royal Belgian Institute of Natural Sciences in the compilation of this article.

The scientific paper: “Skeleton of a new owl from the early Eocene of North America (Aves, Strigiformes) with an accipitrid-like foot morphology” by Gerald Mayr, Philip D. Gingerich and Thierry Smith published in the Journal of Vertebrate Paleontology.

28 07, 2020

“Captain Hook” Dinosaur from Hell Creek

By | July 28th, 2020|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Trierarchuncus prairiensis – The Last Alvarezsaurid

A new species of alvarezsaurid dinosaur has been described from fragmentary remains consisting of a foot bone, a partial radius (arm bone) and three thumb claws which might represent a progressive size series.  The little dinosaur has been named Trierarchuncus prairiensis and the fossils come from the uppermost Maastrichtian Hell Creek Formation of Montana and demonstrate that these bizarre, little theropods survived until the very end of the Cretaceous.

A Life Reconstruction of the Newly Described Alvarezsaurid T. prairiensis

Life reconstruction Trierarchuncus prairiensis.

Trierarchuncus prairiensis life reconstruction.

Picture Credit: Badlands Dinosaur Museum (North Dakota) model created by Boban Filipovic

The Most Complete Alvarezsaurid Claw Described to Date

Writing in the journal “Cretaceous Research”, the research team that includes lead author Dr Denver Fowler (Badlands Dinosaur Museum), describe the three thumb claws (manual digit 1) which are of different sizes.  They conclude that these three claws probably represent a growth series and from this they can plot how the claw changed as the alvarezsaurid grew.  As Trierarchuncus matured, the thumb claw became more robust and roughened.  Blood vessel grooves on the manual ungual (claw) became more deeply embedded in the bone.  One claw, the middle-sized specimen, represents the most complete alvarezsaurid thumb claw described to date and it demonstrates that these claws were more curved than previously thought.  A powerful, strongly curved thumb claw would have helped this small dinosaur to rip into rotten wood in search of invertebrates.  It has also been suggested that alvarezsaurids evolved to exploit termites as a food source, that is, they exhibited termitophagy (specialised consumers of termites).  The single claw on each hand in association with strong forelimbs could have been used to tear apart termite nests.

A View of the Three Alvarezsaurid Fossil Claws (Proposed Ontogenetic Series)

Three claws ascribed to the genus Trierarchuncus.

The three claws described in the scientific paper form a possible growth series.  The most complete alvarezsaurid claw described to date can be seen in the middle.  Note the strongly curved and hook-like claw, if this is a growth series, then it has been suggested that the thumb claw became more strongly curved as the animal matured.

Picture Credit: Badlands Dinosaur Museum (North Dakota)

Inspired by Captain Hook!

The claws were the inspiration behind the dinosaur’s name.  The genus name comes from the Greek “trierarch”, a reference to the appointed officers responsible for a Greek warship, whilst “uncus” is the Latin for hook.  The trivial or species name honours the gentle, rolling prairies of eastern Montana where the fossils were found.  The name which is pronounced Try-er-arch-unk-cus pray-ree-en-sis  translates as “Captain Hook of the prairies”.  This is also a nod in the direction of the infamous “Captain Hook”, a fictional character, the nemesis of Peter Pan created by J. M. Barrie.

The Three Thumb Claws from the Alvarezsaurid in the Study

The three alvarezsaurid thumb claws showing a possible growth sequence.

Possible evidence of a growth series – alvarezsaurid manual unguals.  The human hand provides a scale, an adult Trierarchuncus was probably less than a metre in length.

Picture Credit: Badlands Dinosaur Museum (North Dakota)

Implications for the Taxonomy and Phylogeny of the Alvarezsauroidea

If the three claw specimens do indeed represent a growth series (an ontogenetic series), then this discovery could have far-reaching consequences for all those maniraptoran dinosaurs confined within the Alvarezsauroidea.  If the claws of these dinosaurs changed radically as the animal grew and matured, then supposedly unique features (autapomorphies), used to erect other alvarezsaurid genera might be unreliable.  These features might be attributed to the relatively young age of the dinosaur when it died, rather than representing a defining anatomical characteristic that can lead to the naming of a new species.

Views of the Thumb Claw Showing Curvature (MOR 6622 – Holotype Claw)

Trierarchuncus prairiensis thumb claw showing curvature.

Views of the most complete Trierarchuncus thumb claw showing curvature.  The  holotype claw MOR 6622.

Picture Credit: Badlands Dinosaur Museum (North Dakota)

The Youngest Known Alvarezsaurid

Stratigraphic data indicates that Trierarchuncus represents the youngest known alvarezsaurid.  Fossils associated with these types of theropod occur through most of the eighty-five metre thick Hell Creek Formation, with the uppermost specimen having been found within a few metres of the contact with the Palaeocene-aged Fort Union Formation.  It is likely that alvarezsaurids were present in North America throughout the Late Cretaceous and that they persisted until the extinction of the non-avian dinosaurs.

Evidence suggests that alvarezsaurids originated in Asia: Haplocheirus – Is it a bird?  No, it is a dinosaur.

Did alvarezsaurids eat eggs?  An article from 2018: Did Alvarezsaurids eat eggs?

The scientific paper: “Trierarchuncus prairiensis gen. et sp. nov., the last alvarezsaurid: Hell Creek Formation (uppermost Maastrichtian), Montana” by Denver W. Fowler, John P. Wilson, Elizabeth A. Freedman Fowler, Christopher R. Noto, Daniel Anduza and John R. Horner published in Cretaceous Research.

27 07, 2020

Microraptor Moulted Just Like Many Modern Birds

By | July 27th, 2020|Adobe CS5, Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Evidence of Sequential Moult Identified in Microraptor gui

A team of Israeli scientists in collaboration with colleagues from China have found evidence in the holotype specimen of Microraptor (M. gui) that this flying dinosaur sequentially moulted its feathers.  All living birds have to replace their feathers periodically in order to maintain their function, feathered dinosaurs underwent the same process to.  The way in which the feathers are shed and replaced provides palaeontologists with an opportunity to infer habits and behaviours about a long extinct animal.

The Holotype Fossil Material of Microraptor gui

Microraptor fossil.

Feathers are found preserved in many dinosaur fossils from China and a new study suggests that Microraptor sequentially moulted which has implications for the habit and behaviour of this volant dromaeosaurid.

Writing in the academic journal Current Biology, the scientists from the University of Haifa, the Society of Protection of Nature and the Jerusalem Bird Observatory (Israel), along with co-workers from the Chinese Academy of Sciences identified signs of sequential moulting on the fossilised wing of Microraptor gui.

Moulting Strategy Links to Habitat Selection and Flight Ability

Living birds generally moult their feathers in one of three main ways or strategies:

1).  A gradual direct replacement of all flight feathers in a slow moult with both wings showing similar stages of moult at the same time – referred to as sequential moulting.

2).  Simultaneous replacement of all the flight feathers – referred to as simultaneous moulting.

3).  A gradual, but not ordered moult in which feather replacement has no predictable sequence or direction – referred to as an irregular moult.

Different Moulting Strategies Identified in Extant Birds

Different strategies of feather moulting in living birds.

Examples of moult strategies in living birds.  Marbled godwit (Limosa fedoa) in (A) showing a gradual sequential moult.  The flightless cormorant (Nannopterum harrisi) during a non-sequential moult with both wings showing old, new and growing feathers without any order or symmetry.  The common loon (Gavia immer) after simultaneous shedding of all the wing’s feathers as part of a non-sequential simultaneous moult.  An African darter (Anhinga rufa) in (D) that is characterised by a non-sequential moult in which its flight feathers grow simultaneously.

Picture Credit: Kiat et al plus Gartner, Salmond, S. P. d’Entremont, Francey (Journal of Current Biology)

In total, the moulting strategies of 302 living bird species were studied, including active fliers and ground-dwelling birds incapable of powered flight.  These findings were than applied to the feather arrangement, composition and morphology as found in the wing of the Microraptor gui holotype specimen.  The researchers were unable to distinguish between simultaneous and irregular moulting (strategy 2 and 3), so they confined their study to a direct comparison between sequential moulting (strategy 1) and non-sequential moulting (strategies 2 and 3).

The moulting strategy adopted by a bird species impacts on their ability to fly and provides clues about their habitat.

For example,  those birds that spend much of their time in the air or live in habitats which are open with few hiding places to help them avoid predators, sequential moulting tends to be adopted.  This ensures that the birds can still fly even during moulting.  Birds that do not fly frequently, or that have access to plenty of hiding places in their habitat so that they can avoid detection by predators tend to shed a large number of feathers simultaneously and have a relatively rapid moult, typically no more than 2-3 weeks, but if they are a volant species their ability to fly is severely impeded during this time.

Implications for Microraptor

A detailed examination of the wing feathers preserved on the holotype specimen of Microraptor led the researchers to identify six feathers of differing sizes (a-g in the diagram below).  These feather lengths were in a sequence indicating that Microraptor moulted gradually and sequentially.

Evidence of Sequential Moulting in Microraptor (M. gui)

Sequential moulting in Microraptor.

The holotype specimen exhibits an active moult in the primaries (the arrow points to the moult-related wing gap).  The bottom right inset shows how the researchers identified seven primaries in the specimen’s wing, marked as P(a)–P(g).

Picture Credit: Kiat et al (Journal of Current Biology)

This suggests that Microraptor probably spent a considerable portion of each day in the air and that it needed to be able to fly to avoid predators and to forage for food.  Furthermore, Microraptor required this capability on a daily basis, including during the moulting process.

Wing Moult (Sequential Shedding) in Microraptor

Wing moult in Microraptor.

Illustration (A) shows fully grown primary feathers on the wing, whilst (B), shows light grey feathers which have yet to be shed.

Picture Credit: Kiat et al (Journal of Current Biology) with additional annotation by Everything Dinosaur

Microraptor is the earliest known feathered vertebrate to demonstrate sequential moulting and this suggests that this strategy is nested very deep within the Maniraptora lineage that led to the evolution of birds.  Microraptor likely maintained its flight ability throughout the entire year.  These findings support the hypothesis that Microraptor was a strong, capable flier.  The researchers conclude that flight was essential for either its daily foraging or escaping from predators and that sequential moulting is the outcome of evolutionary pressures to maintain flight capability throughout the entire annual cycle in both extant birds and non-avialan paravian dinosaurs from 120 million years ago.

Microraptor Probably Sequentially Moulted Which Infers it was a Strong Flier

The CollectA Deluxe Microraptor Model.

Showing the iridescent feathers and the bifurcated tailfan of the CollectA Deluxe Microraptor model.  New study of the Microraptor gui holotype suggests sequential moulting and from this it is inferred that flight was essential for either Microraptor’s daily foraging or to avoid predators.

Picture Credit: Everything Dinosaur

The scientific paper: “Sequential Molt in a Feathered Dinosaur and Implications for Early Paravian Ecology and Locomotion” by Yosef Kiat, Amir Balaban, Nir Sapir, Jingmai Kathleen O’Connor, Min Wang and Xing Xu published in the journal Current Biology.

25 07, 2020

Beefing Up Dilophosaurus

By | July 25th, 2020|Adobe CS5, Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Comprehensive Review of Dilophosaurus – Paints New Picture of Predator

Researchers from the University of Texas at Austin and the Petrified Forest National Park have published a comprehensive review of Dilophosaurus wetherilli fossil material and revealed that “double-crested lizard” had stronger jaws than previously thought.  Those famous skull crests turn out to be more robust as well.  Instead of being regarded as a delicately-jawed scavenger, this iconic dinosaur from the Early Jurassic of North America may have been an apex predator.

Previously Thought to be Quite Lightly Built with Delicate Jaws

Comparing Wild Safari dinosaur models.

Wild Safari Dinosaurs compared.  Dilophosaurus had been thought to be much more lightly built than other Jurassic theropods.  However, a comprehensive review of fossil material suggests that our perceptions regarding Dilophosaurus may have to change.

Picture Credit: Everything Dinosaur

Not a Member of the Ceratosauria Clade?

Writing in the “Journal of Palaeontology”, researchers Adam Marsh (University of Texas Austin) and Timothy Rowe (Division of Resource Management, Petrified Forest National Park, Arizona), conducted an extensive review and re-examination of all the know specimens of Dilophosaurus wetherilli and concluded that this large-bodied theropod was probably not a member of the Ceratosauria or indeed, the Coelophysoidea, but was a stem-averostran theropod, a member of the Averostra clade.  As such, D. wetherilli shows a phylogenetic relationship with Cryolophosaurus ellioti which is known from the Early Jurassic of Antarctica and Zupaysaurus rougieri, fossils of which come from the Late Triassic of Argentina.

The Review Included A Reassessment of the Holotype Skull Material

Dilophosaurus wetherilli holotype material.

Dilophosaurus wetherilli holotype specimen (UCMP 37302): (1–4) articulated right side of the skull and line drawings.  Plus (5, 6) nasolacrimal crest, (7, 8) left postorbital, (9, 10) left lacrimal, (11, 12) left quadratojugal, and (13, 14) left squamosal in (1, 2, 5, 7, 9, 11, 13) lateral and (3, 4, 6, 8, 10, 12, 14) medial view.

Picture Credit: Marsh et al (Journal of Palaeontology)

Dilophosaurus wetherilli

With an estimated body length of around six metres, D. wetherilli is one of the largest terrestrial predators known from the Early Jurassic of North America.  Despite extensive study of the fossil material and this dinosaur’s on-going popularity with the public due to its depiction as a venom-spitting, frilled dinosaur in the first “Jurassic Park” film released in 1993, much of the animal’s skeleton, anatomy, ontogeny and taxonomic relationship with other members of the Theropoda remains unknown.

Using fossils collected from the middle and lower portions of the Kayenta Formation (Navajo Nation, northern Arizona), the scientists comprehensively reviewed the holotype cranial material (UCMP 37302).  In addition, previously undescribed specimens were analysed and it was concluded that the fossils represent a single species, a large, crested theropod within the Kayenta Formation.   This suggests that Dilophosaurus, as a species, persisted for a long time – several million years.

Dilophosaurus Fossil Finds in the Navajo Nation

Dilophosaurus fossil finds (location and stratigraphcial map).

Localities from which Dilophosaurus wetherilli (Welles, Reference Welles 1954) has been collected in northern Arizona.  The shaded region in the north-eastern corner of the state represents the Navajo Nation.  The inset stratigraphic column idealizes the section near Tuba City and Gold Spring, Arizona.  The dark green unit underlying the Kayenta Formation represents the Moenave Formation and the Wingate Sandstone in the western and eastern half of the Navajo Nation, respectively.  Outcrop area modified from Cooley et al (1969). 

Picture Credit: Marsh et al (Journal of Palaeontology)

It is noted that many anatomical characteristics of the skeleton are more derived when compared to Late Triassic theropods, adaptations to a larger body size and a more robust macropredatory habit.

An Articulated Hindlimb Assigned to D. wetherilli 

Dilophosaurus wetherilli articulated right hindlimb.

Dilophosaurus wetherilli referred specimen (TMM 43646-1): articulated right hindlimb.

Picture Credit: Marsh et al (Journal of Palaeontology)

Dilophosaurus an Apex Predator

Previous research had suggested that Dilophosaurus had weak jaws and this may have influenced how this dinosaur was depicted in the “Jurassic Park” franchise.  This review identified areas of attachment for powerful jaw muscles and that the skeleton was pneumatised (air pockets) and these structures would have helped to both lighten and strengthen the skull.  The authors state that whilst Dilophosaurus could catch small animals and even catch fish in the fluvial environment with which its fossils are associated, the robust upper jaw and strong grasping hands suggest that it was equipped to tackle far larger prey.

The idea of Dilophosaurus being a much more powerful and dangerous animal is supported by the discovery of partially articulated specimens of the early sauropodomorph Sarahsaurus (S. aurifontanalis) containing large bite marks alongside shed teeth and a skeleton of Dilophosaurus wetherilli within the same quarry as reported by Rowe et al in 2011.

A Dilophosaurus Braincase

During the comprehensive review, the researchers were able to assign to the Dilophosaurus genus a number of other specimens that had come from the Kayenta Formation, including a remarkably-well preserved small braincase from a juvenile.

Commenting on their fortuitous find Dr Marsh stated:

“In the midst of the analysis, we discovered that a small braincase in the Jackson School’s collections belonged to a Dilophosaurus wetherilli.  We realised that it wasn’t a new type of dinosaur, but a juvenile Dilophosaurus wetherilli, which is really cool.”

The More Robust Rebor Figures Introduced in 2019 May Represent a More Accurate Depiction of Dilophosaurus wetherilli

Rebor Dilophosaurus models "Green Day" and "Oasis"

The Rebor Dilophosaurus replicas “Green Day” and “Oasis”.  A new study suggests that the jaws and bony crests of Dilophosaurus wetherilli were more robust than previously thought.

Picture Credit: Everything Dinosaur

The strong jaws coupled with the powerful forelimbs suggests that Dilophosaurus was an active predator rather than a scavenger.  It seems that many palaeontologists perceptions regarding Dilophosaurus wetherilli will have to be reconsidered, science as well as the film industry might have got this dinosaur all wrong.

The scientific paper: “A comprehensive anatomical and phylogenetic evaluation of Dilophosaurus wetherilli (Dinosauria, Theropoda) with descriptions of new specimens from the Kayenta Formation of northern Arizona” by Adam D. Marsh and Timothy B. Rowe published in the Journal of Palaeontology.

23 07, 2020

Scientific Paper on Hummingbird-sized Dinosaur Retracted

By | July 23rd, 2020|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, Palaeontological articles, Photos/Pictures of Fossils|0 Comments

Scientific Paper on Oculudentavis khaungraae Retracted

On March the 11th (2020), a scientific paper was published in the academic journal “Nature” highlighting another remarkable discovery found in an amber nodule from northern Myanmar.  The Cretaceous-aged amber had already provided some astonishing information on the forest biota close to a coastline from around 100 million years ago.  An ammonite shell entombed in the ancient tree resin for example, then there was the remains of a tiny baby snake (Xiaophis myanmarensis), fossilised frogs and a whole range of insects, plant and pollen fossils, not to mention preserved remains of enantiornithine birds and a partial feathered tail from a dinosaur.  Everything Dinosaur had covered these discoveries within this blog, but this new paper, written by Xing et al concerned something truly breath-taking… the title of the paper summed it up nicely – “Hummingbird-sized dinosaur from the Cretaceous period of Myanmar”.

A Tiny Fossilised Skull – The Skull of a Maniraptoran?

Oculudentavis khaungraae skull in amber.

Tiny fossil skull preserved in amber (Oculudentavis khaungraae).

Picture Credit: Lida Xing et al

Something Tiny But Very Big

The research team, comprised of scientists from the China University of Geosciences, the Natural History Museum of Los Angeles County (USA), the Royal Saskatchewan Museum (Canada) and the Chinese Academy of Sciences, described an amazingly well-preserved tiny fossil skull with very bird-like features but miniscule teeth present in its jaws.  The tiny specimen, less than 1.5 cm long was thought to represent the smallest dinosaur known to science.  The animal was named Oculudentavis khaungraae, the genus name means “eye tooth bird” in recognition of its enormous eyes and unusual characteristic of having some of the upper teeth located directly under the eye socket.

Computer Generated Image of the Bird-like Skull (O. khaungraae)

Oculudentavis khaungraae computer generated image of the skull.

Oculudentavis khaungraae computer generated image of the skull (left lateral view).  The genus name translates as “eye tooth bird”, whilst the trivial name honours the person who donated the amber nodule to a museum (Hupoge Amber Museum).

Picture Credit: Xing et al (Nature)

Oculudentavis khaungraae was documented as representing the smallest dinosaur and compared to the smallest extant avian dinosaur Mellisuga helenae, the bee hummingbird.

However, in what we at Everything Dinosaur think is an unprecedented development, the scientific paper announcing this amazing discovery has, this week, been retracted.

A statement on the “Nature” website reads:

“We, the authors, are retracting this Article [the March 11th paper] to prevent inaccurate information from remaining in the literature.  Although the description of Oculudentavis khaungraae remains accurate, a new unpublished specimen casts doubts upon our hypothesis regarding the phylogenetic position of HPG-15-3.

The specimen number HPG-15-3, is the holotype cranial material currently in the collection of the Hupoge Amber Museum in China.

A Controversial Scientific Paper

Shortly after the scientific paper’s publication, a number of academics challenged the conclusions drawn and criticised the authors for their taxonomic assessment which relates to Oculudentavis khaungraae being classified as “bird-like” and placed within the Avialae, a clade that includes elements of the Maniraptora (some theropod dinosaurs and birds).  It was suggested that the phylogenetic assessment carried out was too biased towards resolving the placement of Oculudentavis as a bird or a very closely related dinosaur, rather than considering other data sets that might resolve its position elsewhere.  The “bird-like” skull is found in a number of lizards (examples of convergent evolution), several authors commented that the possibility of O. khaungraae being a lizard was discounted too quickly by the paper’s authors.

Everything Dinosaur reported these concerns and doubts in a follow up article to the original post about the scientific paper on March 15th (2020): Casting Doubt over Oculudentavis.

Can a Binomial Name be Obliterated?

It is rare for a scientific paper to be retracted, but occasionally this happens.  Papers can be retracted for any of a number of reasons, but normally a retraction occurs when serious questions surrounding its veracity are identified.  For example, a paper published in 1998 in the medical journal the “Lancet” by Wakefield et al reporting a link between the MMR vaccination and autism was retracted in 2012 following an extensive investigation.  The British Medical Journal (BMJ), put out a press release stating that following the investigation it had been concluded that the paper implying a link between the MMR jab and autism was an “an elaborate fraud.”

Dr Fiona Godlee, BMJ Editor in Chief stated at the time:

“The MMR scare was based not on bad science but on a deliberate fraud” and that such “clear evidence of falsification of data should now close the door on this damaging vaccine scare.”

The scientific binomial name Oculudentavis khaungraae is now in limbo.  It is a matter of record that the taxon name exists, but with the withdrawal of the paper, we at Everything Dinosaur are not sure what will happen.  It probably falls within the remit of the International Commission on Zoological Nomenclature (ICZN), to produce a ruling on how to treat this taxon.  This development does not undermine the astonishing fossil discoveries being made as researchers study amber from Myanmar, it might help to bring into focus some of the ethical issues associated with the commercial mining and use of funds, but scientific reporting is essentially built on trust.  Fossils have been frequently misidentified , as new evidence emerges so ideas, theories and hypotheses evolve and develop.  Normally, scientists correct their findings in subsequent papers, to have a scientific paper retracted is highly unusual.

Oculudentavis khaungraae – A Taxon in Limbo

Oculudentavis - is this an invalidated taxon?

The validity of the taxon is in limbo after scientific paper was retracted.

Picture Credit: Han Zhixin with additional annotation by Everything Dinosaur

We shall await developments…

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