2011 | Everything Dinosaur Blog

22 04, 2011

Jurassic Park with Amazing Spider Webs

By Mike|2024-04-21T09:54:32+01:00April 22nd, 2011|Dinosaur and Prehistoric Animal News Stories, Main Page|0 Comments

Jurassic Aged Fossil Proves some Orb Spiders are “Living Fossils”

China may be a hotbed for dinosaur and other vertebrate fossils, but the beautifully formed fossil of an invertebrate, a spider has grabbed the spotlight in the last few days. Spiders are members of the Arthropoda, invertebrates with eight legs and although they have been known since Carboniferous times, the fossil record for these creatures is extremely poor as their soft body parts do not normally get preserved. The spider fossil is exquisitely preserved.

With a leg span exceeding ten centimetres this new spider species was no tiny bug, if it produced large circular webs like its modern descendants it may have ensnared dragonflies and perhaps the occasional baby pterosaur. Scientists have proposed that this fossil is one of the largest arachnid specimens known from the fossil record. It has been named Nephila jurassica.

Nephila jurassica

A research team of Kansas University and Capital Normal University (Beijing, China) said the spider belongs to the living genus Nephila, or golden orb-weavers. An extremely long range for any animal genus, the Nephilids are example of what many people refer to as “living fossils”. Nephilids are the largest web-weaving spiders alive today (body length up to 5 cm, leg span 15 cm) and are common to the tropical and subtropical regions today.

This suggests that the palaeoclimate of Daohugou, China, where the specimen was found, was probably similarly warm and humid during the Jurassic. True, global temperatures in the Jurassic were much higher than today, so perhaps the warm, humid forests of this part of China teemed with life, including large spiders spinning their webs with the aim of catching an unwary flying creature.

The Fossil Spider (left) Compared to an Extant Orb-Weaver Spider (right)

Picture credit: University of Kansas Biodiversity Institute

In the image above, the figure on the left is of a fossil female golden orb-weaver spider (Nephila jurassica) from the Middle Jurassic of China. The body length about 1 inch, front legs about 2.5 inches (= leg span more than 5 inches). Next to it is an image of a living female golden orb-weaver spider (Nephila pilipes), in Queensland, Australia, on her golden orb web. It is about the same size as the fossil specimen.

Spider Fossil

Nephila spider females weave some of the largest orb webs known (up to 1.5 metres in diameter) with distinctive gold-coloured silk to catch a wide variety of medium-sized to large insects, but occasionally bats and birds as by-catches, so the possibility of a Jurassic Nephilid catching a small pterosaur, perhaps something like an Anurognathus, with a body length not much bigger than the fossil spider is intriguing. Typically, an orb-weaver spider first weaves a non-sticky spiral with space for sticky spirals in between.

Unlike most other orb-weaving spiders, Nephila do not remove the non-sticky spirals after weaving the sticky spirals. This results in a ‘manuscript paper’ effect when the orb is seen in the sunlight, because the sticky spirals reflect the light while the non-sticky spirals do not, thus resembling musical staves.

This fossil finding provides evidence that golden orb-webs were being woven and capturing medium to large insects in Jurassic times, and predation by these spiders would have played an important role in the natural selection of contemporaneous insects.

Orb spiders are common throughout the Old and New Worlds, whilst working in Kenya one of the Everything Dinosaur team members, took a photograph of a substantial spiders web that has been built outside their first floor hotel room. The picture below shows the orb spider and the macabre remains of some of the unfortunate insects that has blundered their way into this silken trap during the night.

An Impressive Orb Spider Web (Kenya)

Large web of Orb spider. Picture credit: Everything Dinosaur

Picture credit: Everything Dinosaur

The research was published in the online edition of Biology Letters. Paul A. Selden, Gulf-Hedberg Distinguished Professor at Kansas University and Director of the Palaeontological Institute, as well as ChungKun Shih and Dong Ren, professors from Capital Normal University, Beijing, produced the research paper.

Visit Everything Dinosaur’s website: Everything Dinosaur.

21 04, 2011

Review of the New “Prehistoric Times” (Spring 2011)

By Mike|2024-04-21T09:58:55+01:00April 21st, 2011|Everything Dinosaur News and Updates, Magazine Reviews, Main Page|2 Comments

A Review of “Prehistoric Times” Magazine (Issue 97)

The latest edition of the magazine known as “Prehistoric Times” has just arrived in the office and what a bumper edition it is. The front cover shows the rather gory features of an Acrocanthosaurus (theropod dinosaur), as drawn by that talented artist Ricardo Delgado, an interview with Ricardo is featured and his work on the “Age of Reptiles” story series is discussed. Two often neglected but much admired prehistoric animals are in this magazine.

Firstly, there is Plateosaurus, that leviathan from the Triassic, Phil Hore provides an update on the latest research and information on this member of the Sauropodomorpha. The second prehistoric animal featured, it is really a group rather than a spotlight on a single genus – is the champosaurs (Champosaurus), long lasting members of the Choristodera, with their crocodilian-like appearance.

“Prehistoric Times”

Gregory S. Paul sets out the latest scientific work on the azhdarchids (giant pterosaurs) and asks the question – were these reptiles bigger than giraffes? The latest palaeontology news is dealt with in depth (anything that we at Everything Dinosaur have not reported on is covered here), and there is a special section on the genus Giraffatitan.

The Front Cover of “Prehistoric Times” (Issue 97)

Picture credit: Everything Dinosaur

The magazine includes lots and lots of contributions from readers, the latest dinosaur and prehistoric animal models plus book reviews and a special feature on how to model a Giganotosaurus.

To visit the “Prehistoric Times” website: “Prehistoric Times”.

One article we enjoyed reading in particular, was the spread on the Museu de Paleontologia de Marilla, in Brazil. Dinosauria are truly a world-wide phenomenon – great pictures and plenty of information about this museum in Sao Paulo state.

20 04, 2011

World’s Oldest Evidence of Toothache Revealed by New Research

By Mike|2024-04-18T21:50:09+01:00April 20th, 2011|Animal News Stories, Dinosaur and Prehistoric Animal News Stories, Main Page, Palaeontological articles|1 Comment

Dentists Had Not Evolved in the Palaeozoic

A team of North American palaeontologists have discovered the world’s oldest case of toothache in the fossilised jaws of an ancient reptile that lived in the Permian geological period. Computerised tomography has revealed the tell-tale signs of an extensive abscess on the lower jaw of this unfortunate creature, the infection probably led to this reptile loosing a lot of its teeth. The fossil provides evidence of dental caries in an omnivore and reminds our species (also omnivores) to look after our teeth.

Oldest Evidence of Toothache

The fossil is from a reptile known as Labidosaurus hamatus (lipped lizard), from the Lower Permian of the United States (holotype material for this species found in the Arroyo Formation of Baylor County, Texas), this one metre long reptile, was formally named and described in 1896 by that eminent American palaeontologist Edward Drinker Cope (1840-1897).

When the research team, led by Robert Reisz (Chair of the Dept. of Biology at the University of Toronto Mississauga) undertook a CT scan of the fossilised lower jaw of this anapsid reptile, they discovered evidence of a substantial infection that has caused the loss of several teeth. The upper jaw (premaxilla) of these primitive reptiles was hooked, it had a distinct kink in it, the scientists discovered that once the jaw bones in question were studied, a sorry tale of tooth decay and tooth loss was revealed.

Palaeontologists Can Tell a Lot from a Single Tooth

Palaeontologist can tell a lot from a single tooth, in this case a tooth of a pterosaur from Morocco. Picture credit: Robert

Diagrams show several views and scans of the fossilised jawbone revealing substantial tooth loss and the site of a nasty infection (abscess) in the bone.

Infection in the Jaw

The team’s analysis, which is written up in the scientific journal “Naturwissenschaften” shows the advantages and disadvantages of various evolved solutions when it comes to dentition (teeth). These reptiles had adapted to life on land, and in doing so had given up the more primitive dental pattern of having teeth that were loosely attached to the jaw and continuously replaced, as is seen today in sharks for example.

Scientists believe that these types of reptiles were predominantly plant-eaters, but also partial to the occasional insect or small creature that they could catch – essentially omnivores. The change to a more vegetarian diet led to the evolution of stronger teeth more firmly attached to the jaws. Better, stronger, teeth led to more efficient biting and some grinding of plant matter in the mouth prior to swallowing. These processes would have helped these creatures extract more nutrition from the food they ate. However, a drawback to this was that infections and tooth decay in more semi-permanent teeth was likely to occur.

Dr Reisz and his team suggest that as these teeth were worn, dental nerves would have been exposed to bacterial infection and tooth loss was more likely, than in those animals such as many diapsid reptiles (including dinosaurs) that shed worn teeth and rapidly replaced them with new ones erupting from the jaw bones.

These findings may have a parallel with the evolution of mammals, including our own species. Mammalian jaws are relatively simple, when compared to the jaws of many reptiles. The mammal lower jaw is made up of one single bone the dentary, they are synapsids, named after an opening in the skull bones behind the orbit (eye). This synapsid hole may have evolved to provide new attachment sites for jaw muscles as these creatures evolved a more effective and powerful bite. Reptiles such as L. hamatus are members of the anapsid type. They have no skull openings behind the eye socket. The earliest reptiles were anapsid forms, they are represented today by the Chelonians (turtles and tortoises etc). With a more simple jawbone, complex teeth evolved to enable synapsids to process food efficiently. Such an evolutionary investment in tooth design, probably meant a trade off – they could not be so easily shed and replaced, as in diapsid reptiles for instance.

Dr Reisz commented:

“Our findings suggest that our own human system of having just two sets of teeth, baby and permanent, although of obvious advantage because of its ability to chew and process many different types of food, is more susceptible to infection than that of our distant ancestors that had a continuous cycle of tooth replacement.”

Different evolutionary solutions to handling tough land plants as food may have had an impact on reptile diversity, this would have affected those descendants of reptiles, the birds, who incidentally lost all their teeth in an adaptation to powered flight, and the mammals including us humans.

If you don’t want to end up with dental caries and an infected mouth best to take the advice of your dentist, after all, there were no dentists around in the Palaeozoic to assist poor Labidosaurus.

For replicas and models of prehistoric animals from the Permian: CollectA Age of Dinosaurs Popular Models.

19 04, 2011

Mystery Object Time – What is This?

By Mike|2023-01-17T21:16:33+00:00April 19th, 2011|Everything Dinosaur News and Updates, Main Page|0 Comments

Do we need a Cryptozoologist?

Lots of different jobs today, plenty of variety when you work for Everything Dinosaur. The usual book keeping, order packing, product testing and such like, but a couple of staff members got the chance to spend part of the day out of the office and warehouse out and about running a few chores. With the wonderful weather that the majority of the UK is enjoying at the moment, it was a very pleasant afternoon. However, one of the jobs that had to be done was to get a vehicle repaired – nothing too serious just a tear in the decal/vinyl covering made by school children and their inquisitive fingers prodding things that they should not prod.

Everything Dinosaur

To get a patch of vinyl created from the original artwork of the vehicle livery was a quite complicated and time consuming process. We had to send pictures of the damaged area to the signage company so that they could try to get as close a match as possible. This resulted in some very unusual jpeg attachments going back and to with emails throughout the day, strange orange pictures, close up shots of the livery of the van in question. The tear was first covered in clear vinyl, in a bid to help keep moisture out of the rip, this section was then photographed so that the artwork team could get an idea of the size of the repair and the colour artwork needed.

An example is reproduced below:

Unidentified Dinosaur Object (UDO) at Everything Dinosaur

Picture credit: Everything Dinosaur

A bizarre looking object, definitely dinosaur related but which dinosaur and which part?

The answer is revealed when we include the entire artwork piece in a picture, the tear had occurred in the mouth of the T. rex on the back doors of our van.

Everything Dinosaur – Mystery Object Revealed

The back doors of our “dino van”.

Picture credit: Everything Dinosaur

So the mystery object was a close up of the business end of a Tyrannosaurus rex. Look out for further puzzles and updates on the Everything Dinosaur Blog.

For dinosaur models, games and toys: Everything Dinosaur.

18 04, 2011

March of the Dinosaurs on ITV 1

By Mike|2023-01-17T21:13:34+00:00April 18th, 2011|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page, TV Reviews|0 Comments

Great Dinosaur Animation Coming to UK Terrestrial Television

March of the Dinosaurs, a two hour long documentary that tells the story of how some Cretaceous dinosaurs migrated hundreds of miles to exploit the rich feeding grounds of the far north, whilst other dinosaurs made the north and its freezing, dark winters their permanent home, is making its premiere on terrestrial television on Easter Saturday.

March of the Dinosaurs

The programme will be shown at 5pm on Saturday, April 23rd, clashing with the new series of Doctor Who (a deliberate ploy we think). The programmes is based on real scientific evidence that some types of dinosaurs migrated vast distances to exploit food reserves whilst others made the far north of America their permanent residence.

The story of the migration (an Edmontosaurus herd) is narrated by Stephen Fry. It is a feature length animation that shows how dinosaurs lived more than seventy million years ago in the Arctic Circle. To read about the research work that the programme is based upon: Dinosaurs of the Arctic.

Although the Arctic was warmer than it is today, much warmer in fact (during the Cretaceous there was no permanent ice at either the North or South poles), as winter sets in the high latitude means that the days become very short and in the middle of winter the land is in total darkness. Plants die back, temperatures fall dramatically and the dinosaurs face a choice stay put or migrate south.

The programme follows the story of two young dinosaurs – Scar, a young vegetarian Edmontosaurus who hatched in the spring, and Patch, a young male feathered, raptor-like Troodon. As a carnivore, Patch has fed all summer on baby Edmontosaurus. Unfortunately for him his favourite food is shortly going to be heading south.

Troodon like Patch are equipped to cope through the winter and the film follows his stay in the harsh North. It will be survival of the fittest as they fight for the remaining food in the permanent darkness. Everyone and everything is fair game. Such scenarios are scene with extant animals today, such as the Arctic Fox which enjoys a time of plenty when the migrating birds arrive and nest, but the foxes face leaner times when the birds leave.

For Scar, his summer playground becomes a winter killing field as enemies patrol the darkness. The Gorgosaurus, a nine metre long relative of Tyrannosaurus rex, is the apex predator and the programme speculates on whether this theropod was a nocturnal hunter. A new research paper has just been published that examined the orbits of dinosaur skulls for clues as to whether some meat-eating dinosaurs were nocturnal or diurnal, dromaeosaurs such as the troodontids may have been nocturnal hunters according to this new study.

The herd of Edmontosaurus must march south to avoid the worst of the winter weather, with little to eat their only option is to migrate in search of food.

An Illustration of an Edmontosaurus (Duck-billed dinosaur)

Picture credit: Everything Dinosaur

After one week the migrating herds have reached the edge of the Arctic forest but the open landscape is a hostile new world and Scar faces the new challenge of being exposed to snow.

After the Edmontosaurus have been moving south for almost a month, starvation and exhaustion are taking their toll. To Scar the herd has always meant safety, but the weaker ones begin to collapse and die around him, ending their lives as meat on the open plains.

Sounds like a fascinating documentary, one that is being shown on Easter Saturday at 5pm in the United Kingdom (London may be an hour later), but probably repeated over the next few days, a great treat for the Easter holidays.

For models and replicas of many of the dinosaurs featured in the programme, including Edmontosaurus (whilst stocks last): CollectA Deluxe Scale Prehistoric Animal Models.

17 04, 2011

Not all Tadpoles are the Same (Observing Tadpoles in our Unique Office Pond)

By Mike|2024-04-21T12:28:35+01:00April 17th, 2011|Educational Activities, Everything Dinosaur News and Updates, Main Page|0 Comments

Differences in Tadpoles – Trying not to get Caught Out by Anthropomorphism

The weekend has brought a number of staff members into the Everything Dinosaur offices, to do the various chores that we have been assigned. However, we still get plenty of time to sit outside in the sun during our coffee breaks and to observe the many hundreds of tadpoles in the office pond. As Sir David Attenborough observed in his latest episode of the excellent Radio 4 series “Life Stories”, some animals are easier to distinguish from others of their species. Humpback whales for example, when they dive, their large, crescent shaped tail flukes often rise clear of the water. The undersides of these tails are white with black markings. Each whale has distinct tail markings and when these are photographed they can be used to help identify that individual whale if it is spotted in the future. From these simple observations scientists have been able to build up a comprehensive picture of the voyages made by individual whales of different species.

Looking for differences in our tadpole population is somewhat more tricky, but not impossible. Although the animals were hatched within just a few days of each other their variation is remarkable and in only a few minutes, a number of identifying characteristics can be determined. For example, at first glance the tadpoles all seem to be the same colour, but this is not so, some are darker than others, some are black, some are more a shade of brown.

Not All Tadpoles Are The Same

Frog spawn in the office pond.

Picture credit: Everything Dinosaur

Tadpoles

The tadpoles are all the same species – The Common Frog (Rana temporaria), but even after two weeks differences can be observed in the population. Identifying individuals without intruding too much (by marking them for example), is complicated by these animal’s rapid growth rate, after all, those that survive will undergo a dramatic metamorphosis in a few weeks. But certainly, differences between individuals in terms of their size, growth rate, colouration, body length, degree of fluking on the tail can all be made out.

Genetically, all these tadpoles will be slightly different – this is a result of the way in which they were produced – with two parents providing genetic material to the offspring. Although, we wish to try to avoid being accused of anthropomorphism individuals may have different behaviours. It might be too much to regard these as different personalities and to label tadpoles as introverts and extroverts as individuals may behave in contrasting ways to others of their kind. For instance, those tadpoles that are the strongest swimmers have been observed swimming across open stretches of water, perhaps seeking food resources that they can exploit. Other tadpoles, not as well developed as their siblings remain in the same part of the pond for long periods. Their growth may be restricted as they are less mobile and therefore less able to find food than some of their counterparts.

Interestingly, mobility in tadpoles residing in our office pond was in previous years we suspect, likely to lead to those tadpoles actively swimming in open water to be predated upon. There used to be a population of water boatman in the pond. These aggressive invertebrates would attack and eat any tadpoles that they could catch. As the water boatman were nektonic (swimming actively in the water column), they were more likely to predate those tadpoles that ventured into open water without cover. This year, however, we have not observed a single water boatman in the pond. We suspect that the cold winter killed off our population. There is now an absence of nektonic predators of tadpoles in the pond. The removal of a predator may enable more tadpoles to metamorphosise and make it to the froglet stage and this environmental change could favour those “bolder” nektonic individuals who venture out into open water. This subtle change in the predator/prey balance could have an effect on tadpole numbers surviving and influence the type of tadpole “personality” likely to survive into the summer.

We shall continue to observe with fascination.

In the meantime, visit Everything Dinosaur’s website: Everything Dinosaur.

16 04, 2011

Canadian Fossil Discovery Centre being Filmed Once Again

By Mike|2023-01-17T21:09:10+00:00April 16th, 2011|Dinosaur Fans, Main Page|0 Comments

Canadian Fossil Discovery Centre gets ready for “Reign of the Dinosaurs”

The Canadian Fossil Discovery Centre is preparing to host a film crew from the Discovery Channel again, for the second time in less than a year. On Monday, April 18th a Discovery Channel crew will arrive at the centre (CFDC) to film content for an upcoming TV series titled “Reign of the Dinosaurs.”

Canadian Fossil Discovery Centre

The purpose behind the visit of the Discovery Channel is to build the scientific components behind what is primarily an animated story on ancient mosasaurs and sharks. This is the first time that the CFDC is being sought by a major media network to solidify the scientific components behind its wonderfully imaginative stories. An expert in fossil videography is being brought in from the United States specifically for this project.

“Typically what’s occurred in these instances is that the Hollywood story tellers have referenced the marine reptile fossil collection that is present in the Kansas area” explains curator Anita Janzic. “It is a great honour to be sought by the international media & scientific community as a valuable and noteworthy fossil resource centre. This is further recognition of the high quality scientific work taking place at the CFDC!”

The “Reign of the Dinosaurs” series has been described by the network as “Avatar meets Jurassic Park”. This presentation is slated to be a follow-up to their wildly successful Walking with Dinosaurs series and
combines the latest paleontological research with Hollywood storytelling and the talent of the world’s best dinosaur illustrators, animators and scientists.

Marine Reptiles on Display

Plesiosauria fossils on display at a museum. Museums often display marine reptiles alongside dinosaur exhibits. Picture credit: Everything Dinosaur.

Picture credit: Everything Dinosaur

Discovery Channel

The previous visit by the Discovery Channel was coordinated by its Daily Planet news show. The film crew was present in the early summer of 2010 to film the preliminary excavation of what soon became a major Xiphactinus fish fossil discovery. This segment involving the CFDC is set to air during the spring offering of the Daily Planet programme.

“The great thing about this scenario is that we’re able to offer a Discovery Channel type of experience to our average visitor. Our Fossil Dig Adventure Tour programs have a 100% success rate in finding fossils since 2008. The fossil resource in the Morden area is vast and exciting. Our website contains great information on this unique adventure program. We invite you to find out for yourself why we have the Discovery Channel returning year after year!” states general manager Tyler Schroeder.

Almost every CFDC story has a strong local connection and that remains true with this story. World famous dinosaur animator, David Krentz has connections with the Phil Enns family from Winkler. Mr. Krentz was a key component in having the CFDC included in this Hollywood production and is a huge fan of Canada’s largest marine reptile fossil collection in Morden, Manitoba (Canada).

To view models and replicas of prehistoric animals, fossils of which have been found in Canada: Dinosaur and Prehistoric Animal Models.

15 04, 2011

Ranavirus – Office Pond Looking OK (Great News)

By Mike|2024-04-21T10:13:56+01:00April 15th, 2011|Animal News Stories, Everything Dinosaur News and Updates, Main Page|0 Comments

No Signs of Ranavirus

Last week staff at Everything Dinosaur became concerned over the behaviour of some of the frogs that had spawned in the office pond. At least three seemed lethargic and almost in a stupor. Their movements were slow and we were concerned that the concentration of amphibians in the pond as they started their breeding season had led to an outbreak of the deadly virus Ranavirus.

Office Pond

This virus had first entered the UK sometime in the early 1980s and has spread up from the south. Something like 80% of the frog population of the UK has been affected and the Common Frog population (Rana temporaria) has plummeted as a result. Small ponds, even garden ponds are now extremely important to amphibians, we were concerned that the odd behaviour of the frogs after spawning may have been as a result of a virus outbreak.

No dead frogs have been found in and around the pond area and the tadpoles seem to be thriving. We suspect that we had observed females who were exhausted after the stressful spawning time. However, we will continue to maintain a “watching brief” on the pond and if we do find positive signs of a Ranavirus outbreak, we will report it to Froglife – the organisation formed to protect UK amphibian populations – straight away.

Fingers crossed.

Visit Everything Dinosaur’s award-winning website: Visit Everything Dinosaur.

14 04, 2011

The Origin of Birds not something to Sniff At

By Mike|2023-03-06T16:02:22+00:00April 14th, 2011|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page|0 Comments

Sniffing out the Origin of Birds

A new study published in the scientific journal, the Proceedings of the Royal Society B (Biology) shows that the sense of smell of small theropod dinosaurs may have improved over time and this would have had important implications for their evolutionary descendants – the birds.

Although having a good sense of smell is only part of the story, some scientists have speculated that the ancestors of modern birds might have survived the end Cretaceous extinction event that wiped out the theropods and all other Dinosauria for that matter, by having a better sense of smell.

The Origin of Birds

Prior to this new study, a view held by a number of scientists was that as birds evolved from small, cursorial theropods, their olfactory sense (smell) became less prominent at the expense of the need to evolve better vision, better balance and improved co-ordination for active flight.

Commenting on the study, researcher, Darla Zelenitsky, a palaeontologist with the University of Calgary (Alberta, Canada) stated:

“Scientists thought that parts of the brain were being dedicated to these latter senses, while the region of the brain associated with olfaction deteriorated through evolution.”

However, by examining the braincases and skull proportions of species, an estimate of the brain size can be deduced and from this information, with a little further work, the size of the region of the brain dedicated to smell can be calculated. In humans, the olfactory bulb, that portion of our brains dedicated to analysing smells, is very small, making up a tiny proportion of our overall brain mass. In dogs, an animal known for its keen sense of smell, the olfactory bulb is many times larger than our own and it makes up a much larger proportion of the dogs overall brain mass.

In the famous theropod Tyrannosaurus rex, nearly 50% of its brain mass is dedicated to the sense of smell, this proportion of brain mass/smelling sense is only exceeded by the extant Turkey Vulture, (Cathartes aura) which relies on its remarkable sense of smell to detect rotting meat hidden under the canopy of jungle trees.

The research team examined the skulls of a number of extinct and extant creatures including the skull material associated with the first bird known to science (Archaeopteryx lithographica). The team discovered that this Jurassic bird/reptile probably had as good a sense of smell as its dinosaur relatives.

Small Theropods such as Bambiraptor Had a Good Sense of Smell

Picture credit: Julius Csotonyi

The illustration shows a typical dromaeosaur (Bambiraptor), a fast running, cursorial predator. Skull analysis suggests these little dinosaurs had an acute sense of smell.

A lot of work has been done on Archaeopteryx by scientists at the Natural History Museum, working closely on the “London specimen”. The aim of this research led by the distinguished Dr Angela Milner was to determine this ancient creature’s flight capabilities and in particular examine evidence for its sense of balance and hearing.

To read more about this research: Lets Hear It for Archaeopteryx.

To see how the sense of smell might have changed as birds evolved, researchers studied 130 species of living birds, seven species of fossil birds and 20 species of nonavian Theropod dinosaurs, which include carnivores such as Velociraptors and the mighty Tyrannosaurus rex. The team concentrated on the dimensions of the animals’ olfactory bulbs, measuring them and working on the assumption that “larger bulbs meant a better developed sense of smell”.

The researchers found the sense of smell improved overall during the evolution of small theropods to modern birds, apparently only decreasing much later on in some lineages of birds less dependent on scent. The earliest bird-like creatures such as Archaeopteryx, had a sense of smell comparable to pigeons, while some dromaeosaurs had a sense of smell perhaps as acute of that of the Turkey Vulture.

A Sense of Smell as Good as a Turkey Vultures?

Picture credit: Everything Dinosaur

This improved sense of smell, as well as larger brains overall, might have provided an edge that could explain why modern birds are still around and their dinosaur and archaic bird relatives are not.

For replicas and models of dromaeosaurid dinosaurs: Beasts of the Mesozoic Dinosaur Models.

Darla Zelenitsky added:

“Since some modern-day birds are known to use their sense of smell for foraging and for navigation, perhaps the combination of flight and larger brains — including larger olfactory bulbs — gave modern birds a competitive edge over archaic birds and other dinosaurs to survive this mass extinction.”

13 04, 2011

Little “Demon” from Dawn of the Dinosaurs

By Mike|2023-01-17T14:57:55+00:00April 13th, 2011|Dinosaur and Prehistoric Animal News Stories, Dinosaur Fans, Main Page|0 Comments

New Dinosaur Discovery Helps Explain Diversity of Theropods

The Ghost Ranch location in New Mexico (United States) is famous for its amazing vertebrate fossils that date from the Late Triassic. Perhaps most famously of all, this fossil rich location has provided palaeontologists with many specimens of the small, agile theropod Coelophysis. Now a new type of meat-eating dinosaur has been discovered, one which might provide evidence as to how the theropods diversified during the remainder of the Mesozoic.

In a paper published in the scientific journal “The Proceedings of the Royal Society B (Biology)”, researchers describe a small, predatory dinosaur, whose fossil remains may indicate how larger, later theropods evolved. The dinosaur has been formally named as Daemonosaurus chauliodus, the name means “buck-toothed evil spirit”.

Daemonosaurus chauliodus

Co-author of the scientific paper, palaeontologist at the National Museum of Natural History in Washington, D.C. (United States), Hans-Dieter Sues, explained why this dinosaur fossil was so significant.

He stated:

“It has a deep, short snout and these monstrous front teeth. That’s a kind of skull structure for a predatory dinosaur that’s really unexpected for this early point in time.”

An Illustration of the New Dinosaur Species – D. chauliodus

Picture credit: Jeffrey Martz

Scientists believe that the first dinosaurs evolved approximately 230 million years ago in what was to become South America. This group included early versions of two-legged, meat-eating dinosaurs known as theropods. One of the largest of these carnivores was Herrerasaurus (H. ischigualastensis), a fearsome four to five metre long dinosaur whose fossil remains have been found in north-western Argentina.

An Illustration of Herrerasaurus

An early theropod illustrated.

Picture credit: Everything Dinosaur

To view a range of models which includes a replica of Herrerasaurus, simply click on the link below this paragraph.

CollectA prehistoric animal models: CollectA Age of Dinosaurs Prehistoric Life Models.

A substantial gap in the known fossil record in the Middle Triassic had led many palaeontologists to suggest that these early meat-eaters had become extinct.

As Hans-Dieter Sues explained:

“The idea was that there was this early diversification of dinosaurs… but then they went extinct, and more advanced predators took over during the Late Triassic and diversified later at the Triassic/Jurassic boundary, when we know that dinosaur predators greatly diversified and increased in size.”

This new dinosaur, Daemonosaurus chauliodus, known only from skull material and cervical material, helps to bridge the gap in the fossil record and link the two predatory dinosaur groups.

Dr Sues, stated:

“Our new dinosaur, along with another one that was found a few years ago … at the same site,[Coelophysis] indicates that those basal dinosaurs already included a number of early theropods, and that they survived all the way through the Triassic to nearly the beginning of the Jurassic Period.”

Although, only partial remains have been found, the neck vertebrae and the all important skull material show that this dinosaur had several advanced features. For instance, the vertebrae show cavities linked to the respiratory system – bridging the evolutionary gap between the first dinosaurs and the Neotheropoda, the next group of predatory dinosaurs to evolve. This type of respiratory system can be found in creatures alive today – the birds, the very last type of theropod left on planet Earth.

Finding the dinosaur in New Mexico adds another interesting aspect to the discovery.

Dr Sues said.

“We had some inkling that the earliest dinosaurs had made it into the Northern Hemisphere when the super-continent Pangaea was still in existence and animals could walk around on dry land. But the fossil record was limited to South America. The new find gives further evidence that the earliest radiation of dinosaurs did have a wider distribution, and it is due to the incompleteness of the fossil record that we’d found them only in Argentina and Brazil.”