The “Scunthorpe Pliosaur” – What is it?  When and Where Did it Live?  What it May Have Eaten and Lived Alongside

A few weeks ago, we set young palaeontologist Thomas a challenge, could he research and write an article for posting up onto the Everything Dinosaur blog.  Thomas has taken up our offer and here is the first of his articles, it provides information on a prehistoric animal close to Thomas’s  heart the “Scunthorpe Pliosaur”.

The “Scunthorpe Pliosaur”, a specimen announced earlier this year, was a large plesiosauroid belonging to the family Pliosauridae and is related to the better known pliosaurs such as Pliosaurus and Liopleurodon in fact, it may have lived alongside and directly competed with these two better-known pliosaurs at some point.  It has been estimated at 8 metres long.

The “Scunthorpe Pliosaur” on Display at North Lincolnshire Museum

Rose Nicholson from North Lincolnshire Museum, palaeontologist Richard Forrest and Darren Withers from Stamford and District Geological Society with the “Scunthorpe Pliosaur”.

Picture Credit: North Lincolnshire Museum

When and Where Did it Live and Where was it Found?

The “Scunthorpe Pliosaur” lived around 160 to 155 million years ago in what is now north Lincolnshire (England).  These fossils date from the Late Jurassic and the United Kingdom 160 million years ago was a very mysterious place.  Whilst marine fauna is decently represented in the fossil record, there is still much science does not know about the seas from this time and this new specimen may help open up a new window into that mysterious world.  The terrestrial fauna on the other hand, is poorly represented and full of mystery with one of the only described theropods being the British Metriacanthosaurus from Dorset (a close relative of Sinraptor from China).  The pliosaur specimen was recovered from a CEMEX quarry.

Partially Excavated Fossils at the Excavation Site

Ribs and a vertebra in situ.

Picture Credit: Yorkshire Geological Society

What Did it Live With and What Might it Have Eaten?

Inhabiting the seas alongside the “Scunthorpe Pliosaur” were other pliosaurs, plesiosaurs, turtles, fish, ichthyosaurs, squid, ammonites, marine crocodiles, sharks and more.  Some of these animals include the pliosaurs Liopleurodon, Simolestes and Pliosaurus which would have competed with it and the plesiosaurs Cryptocleidus and Colymbosaurus which could have been prey of the pliosaur especially the latter plesiosaur’s young.

Palaeontologist Richard Forrest Holding a Fossil Tooth

Richard Forrest holding a pliosaur tooth.

Picture Credit: North Lincolnshire Museum

Looking at the “Scunthorpe Pliosaur’s” dentition, the known teeth of this pliosaur are reminiscent of teeth associated with Pliosaurus (Pliosaurus brachydeirus),  a species which has been found in Lincolnshire.  From this comparison, it can be concluded that the Scunthorpe individual possibly preyed upon other marine reptiles and other large marine fauna.  Stomach content of related pliosaurs and bite marks left by them on their prey show that pliosaurs like the Scunthorpe specimen would have been hunting a wide range of hard bodied marine prey from large ammonites to plesiosaurs and ichthyosaurs, however, they wouldn’t have shied away from preying on softer bodied animals.

Like most pliosaurs, the “Scunthorpe Pliosaur” probably had a very powerful sense of smell, good eyesight, acute hearing and a powerful bite, all necessary adaptations for a hunting pliosaur to have in order to hunt effectively.

Holding a Fossilised Pliosaur Tooth

Holding a fossil tooth.

Picture Credit David Haber

The ecology at the time would have consisted of kelp forests, reefs, coastal shallows and a steep pelagic drop-off that plummets into a benthic zone.  Pliosaurs such as Liopleurodon, Pliosaurus and the “Scunthorpe Pliosaur” probably used these drop-off points as ambush spots to strike unsuspecting prey from below.

When attacking prey, Pliosaurs would have come up from below like white sharks and either rammed or bitten prey in one massive disabling blow to the prey item to prevent it’s escape.   In conclusion, the “Scunthorpe Pliosaur “was a large pliosaur which could have occupied the apex predator niche in its warm, shallow coastal ecosystem hunting all manners of prey from fish and squid to marine reptiles using sight, hearing and smell to track down its prey and applying similar hunting strategies to modern Great Whites to secure and catch that prey.  This discovery is an important one as it opens up a window into a little known area of the Late Jurassic British seas and helps palaeontologists piece together that ancient ecosystem over 155 million years ago.

Holding the Ancient History of North Lincolnshire

History in your hands, part of the fossilised skeleton.

Picture Credit: The Stamford and District Geological Society Facebook page

Our thanks to Thomas for compiling this article on the “Scunthorpe Pliosaur”.

The Sauropodomorph Ngwevu intloko “Hiding in Plain Sight”

The fossilised remains of a dinosaur that once roamed South Africa some 200 million years ago and that had lain mislabelled in a university vault for three decades has been identified as an entirely new species of dinosaur, a discovery that helps to demonstrate that ecosystems that developed shortly after the end-Triassic extinction event were much more specious than previously thought.

A View of the Skull of the Newly Described Sauropodomorpha N. intloko in the University of Witwatersrand Collection

The skull of the newly described South African sauropodomorph Ngwevu intloko.

Picture Credit: Kimberley Chapelle (University of Witwatersrand)

Ngwevu intloko

The dinosaur has been named Ngwevu intloko and it was PhD student Kimberley Chapelle (University of Witwatersrand), whilst working with her supervisors mapping the extensive fossil material associated with Massospondylus (M. carinatus), that first realised that the well-preserved skull and postcranial remains could represent a new species.  Hundreds of fossils including several nearly complete skulls have been ascribed to Massospondylus (M. carinatus), since it was described by Richard Owen (later Sir Richard Owen) in 1854.  The skull (specimen number BP/1/4779), had been part of the University of Witwatersrand vertebrate fossil collection for years, but it had been thought that this was just an unusual example of this species.

Co-author of the scientific paper, which has been published in the journal PeerJ, Professor Paul Barrett of the Natural History Museum, London explained:

“This is a new dinosaur that has been hiding in plain sight.  The specimen has been in the collections in Johannesburg for about thirty years and lots of other scientists have already looked at it.  But they all thought that it was simply an odd example of Massospondylus.”

Views of BP/1/4779 – The Skull of Ngwevu intloko

Views of the skull of Ngwevu intloko.  Views of BP/1/4779 in (A) right lateral view, (B) dorsal view and (C) left lateral view.  Scale bar = 1 cm.

Picture Credit: Kimberley Chapelle (University of Witwatersrand)

A Diverse Sauropodomorpha Fauna of South Africa During the Early Jurassic

Using a variety of techniques including computerised tomography (CT) scans and three-dimensional bone mapping, the team identified a total of sixteen cranial and six postcranial characteristics that supported the establishment of a new dinosaur species.  Deformation due to the fossilisation process and ontogeny were ruled out as the basis of these traits, thus leading to the conclusion that these fossils did not represent Massospondylus, but a different, albeit related dinosaur.  Ngwevu was a bipedal omnivore with a small head, long neck and a robust, chunky body.  It is estimated to have reached a length of about three metres or so.  Analysis of bone cross sections indicate that the specimen would have been about ten years old when it died.

A Life Reconstruction of N. intloko

A drawing of Ngwevu intloko (based on Lufengosaurus).

Picture Credit: Everything Dinosaur

Up until recently, Massospondylus (M. carinatus) was thought to be the only sauropodomorph represented by fossil material from the Lower Jurassic upper Elliot and Clarens formations of southern Africa, but there are now known to have been several different genera present, some of which were to eventually give rise to the huge sauropods of the Late Jurassic.  Scientists are now starting to take a closer look at many of the supposed Massospondylus specimens, believing there to be much more variation than first thought.

Sauropodomorpha from the Elliot Formation include:

• Antetonitrus ingenipes
• Massospondylus kaalae
• Aardonyx celestae
• Ignavusaurus rachelis
• Arcusaurus pereirabdalorum
• Pulanesaura eocollum
• Ledumahadi mafube to read an article about the naming and scientific description of L. mafube: New Giant Dinosaur from South Africa

This new research, helping to support the idea that there were many different types of sauropodomorphs in this part of Gondwana during the Early Jurassic, will help scientists to better understand how ecosystems recovered after the end-Triassic extinction event.

A Three-dimensional Digital Reconstruction of the Skull

A digital reconstruction of the skull of Ngwevu intloko.

Picture Credit: Kimberley Chapelle (University of Witwatersrand)

Professor Paul Barrett commented:

“This new species is interesting, because we thought previously that there was really only one type of sauropodomorph living in South Africa at this time.  We now know there were actually six or seven of these dinosaurs in this area, as well as a variety of other dinosaurs from less common groups.  It means that their ecology was much more complex that we used to think.  Some of these other sauropodomorphs were like Massospondylus, but a few were close to the origins of true sauropods, if not true sauropods themselves.”

This research shows the value of revisiting specimens in museum collections, as many news species are probably sitting unnoticed in cabinets around the world, an example of dinosaurs “hiding in plain sight”.

The scientific paper: “Ngwevu intloko: a new early sauropodomorph dinosaur from the Lower Jurassic Elliot Formation of South Africa and comments on the cranial ontogeny in Massospondylus carinatus” by Kimberley E.J. Chapelle​, Paul M. Barrett, Jennifer Botha and Jonah N. Choiniere published in PeerJ.