2008 | Everything Dinosaur Blog

5 05, 2008

Oh we Do Like to be Beside the Seaside… Visit to Beautiful Lyme Regis

By Mike|2024-03-14T09:26:34+00:00May 5th, 2008|Everything Dinosaur News and Updates, Geology, Main Page|0 Comments

Visit to Lyme Regis

With the first of the May day Bank holidays approaching, some members of the Everything Dinosaur team took the opportunity to visit Lyme Regis in Dorset, part of the “Jurassic coast” to undertake some fossil hunting. This part of the coastline of East Devon and Dorset has held UNESCO World Heritage Site status since December 2001. This stretch of beach and cliffs extends for approximately 95 miles, explorers can travel back in time to the Triassic on the Devon side, with the spectacular red sandstone cliffs laid down in a desert environment at places like Orcombe Rocks. As visitors head eastwards the geological formations exposed on the coast become progressively younger, in fact if you were to travel along the entire length of the UNESCO site you would eventually reach Old Harry Rocks, the fabulous chalk stacks, formed as the sea works its way into weaknesses in the chalk strata. These were formed at the end of the Mesozoic, during the Cretaceous period which ended 65 million years ago.

Fossil Hunting

In essence, visitors can experience 185 million years of the history of the Earth on this part of the south coast of England.

For Everything Dinosaur staff, a few days in and around Lyme Regis was planned. With the cancellation of the Fossil Festival, they had a some days in the calendar already booked to visit the area, so why not spend the time visiting old fossil hunting friends and doing a bit of fossil hunting on the beaches themselves.

Before setting out to explore Monmouth beach (to the east of Lyme Regis), the team visited the grave of Mary Anning. Mary Anning (1799-1847) lived all her life in Lyme Regis, she was a pioneering fossil collector, perhaps she could be regarded as the world’s first professional fossil collector. The continual slipping and erosion of the sea cliffs around the town exposed fossils all the time and in 1810, when Mary was only 11 years old she helped collect one of the first articulated specimens of an ichthyosaur. In 1824 she discovered the first articulated plesiosaur and four years later she found the remains of the first British pterosaur.

Everything Dinosaur supplies a wide range of marine reptile models and figures in the CollectA Age of Dinosaurs Popular range: CollectA Age of Dinosaurs Popular Range.

Her discoveries were sold to many institutions and wealthy individuals and although largely shunned by the male dominated world of science during her life time; her work in the fields of palaeontology and geology is now recognised and she is held in high regard.

Mary died in 1847, her grave can be found on the landward side of the little church (St Michael’s church) which sits on a hill overlooking the beaches and the Philpot museum, which was built on the site of Mary’s house and fossil depot.

The Grave stone of Mary and her brother Joseph Anning

Picture credit: Everything Dinosaur

The engraving is hard to make out now, like most things in and around Lyme Regis the writing has suffered from erosion. The inscription reads:

“Sacred to the memory of Joseph Anning who died July 5th 1849 aged 53 years. Also of three children who died in their infancy also of Mary Anning sister of the above who died March 9th 1847 aged 47 years”.

The churchyard is well worth a visit, it is very peaceful and quiet and an appropriate place to reflect on how our knowledge of the world has changed since Mary’s time.

We have written a number of articles about Mary Anning, click on the link below to read an article written on 9th March this year, the anniversary of her death: In Memory of Mary Anning.

Her true memorial is the collection of fossils which are on display as national treasures in places such as the Natural History museum in London, many specimens are still used in research today.

Sometimes, whilst we are scanning the beach for fossils we get asked by tourists why after 200 years of fossil hunting are there still fossils to be found? This part of the Jurassic coast is being constantly eroded by storms and high tides. The cliffs surrounding Lyme Regis are very unstable and many landslides occur. These natural forces are constantly depositing fresh material on the beaches. If the shoreline was not constantly searched any fossils recently exposed would soon be destroyed by the natural processes that exposed them.

Over the weekend, our team members explored Monmouth beach to the east of the town finding one or two nice ammonite fossils. About 3/4 of a mile outside the town visitors to the beach at low tide can see the famous “Ammonite Graveyard” an area of Blue Lias pavement that is full of fossils of ammonites, mainly from the genus Coroniceras. There are two main theories put forward as to why such a large number of one type of ammonite are found fossilised together, perhaps this is fossil evidence of a mass death after mating. Alternatively, the “graveyard” could have been formed as a result of a local extinction event, perhaps an algal bloom occurred changing the environment and killing off this one type of ammonite, the bodies of the dead and dying creatures settled together in a still, shallow area of sea and became fossils producing the spectacular fossil bed that can be seen today.

The Ammonite Graveyard on the Foreshore of Monmouth Beach

Picture credit: Everything Dinosaur

The picture shows a small section of the famous ammonite graveyard on Monmouth beach, these fossils can be found in the Blue Lias pavement that is exposed at low tide.

It is certainly an awesome sight, occasionally the odd misguided visitor will try to remove a fossil. It is virtually impossible to do so without destroying the specimen, these fossils are best left in situ so that everyone can enjoy them.

Everything Dinosaur stocks a range of replicas of animals that are famous in the fossil record, such as ammonites: Replica Fossil Animals Toys and Games.

4 05, 2008

Dimetrodon was not a Dinosaur (Examining the Evidence)

By Mike|2024-04-12T08:49:10+01:00May 4th, 2008|Dinosaur Fans, Everything Dinosaur Products, Main Page|0 Comments

Confusion over the Pelycosaur Dimetrodon

Although found in a lot dinosaur model sets, the sail-backed reptile known as Dimetrodon was not a dinosaur. Dimetrodon was a synapsid, a member of a group of reptiles that has a single opening (fenestra) just behind the eye socket in the skull. Dinosaurs, lizards, crocodiles, Aves (birds) and marine reptiles such as the plesiosaurs were diapsids. Diapsid vertebrates have two holes on each side of the skull. Mammals are also synapsids, so Dimetrodon was actually more closely related to the mammal line than to the Dinosauria, although the term “mammal-like” reptile that is often applied to this genus is misleading.

An Illustration of Dimetrodon

Sail-back reptile with ferocious teeth.

Picture credit: Everything Dinosaur

Dimetrodon was not a Dinosaur

To view models and replicas of Dimetrodon: Dinosaur and Prehistoric Animal Models.

A number of species have been described, one of the largest Dimetrodon grandis measured up to 3.5 metres in length and would have weighed about as much as an African lion (Panthero leo). Fossils have been found in North America and Europe with the last species of Dimetrodon becoming extinct around 250 million years ago.

3 05, 2008

Exciting Frog Blog (week 8) And then there were None

By Mike|2024-04-12T08:56:44+01:00May 3rd, 2008|Animal News Stories, Educational Activities, Everything Dinosaur News and Updates, Main Page|0 Comments

No sign of Tadpoles in the Pond

Spring has finally arrived and we have been enjoying a period of settled, warm weather with temperatures up to 20 degrees Celsius (not bad for our part of the world, at this time of year).

Staff have been keeping a close watch on the pond, after the virtual disappearance of the tadpoles just a few days after hatching. The last sighting was on Tuesday morning (April 29th) when one tadpole was seen swimming close to the large clump of Elodea towards the centre of the pond. The pond looks very healthy, the water is clear, well oxygenated and there is certainly plenty of invertebrate life in the pond, but no tadpoles.

No Tadpoles

We suspect that the tadpoles may have been eaten, it is certainly true that we would expect only a very few to reach the adult stage and leave the pond as little froglets. According to informed literature mortality rates for these animals can be as high as 99.95% but it is slightly shocking to have to contend with the thought that hundreds of tadpoles met an untimely death just a few days after hatching and finally freeing themselves from their protective jelly.

Some team members had hoped that the tadpoles had simply concealed themselves amongst the pond weed and were remaining inconspicuous, but as the water has warmed up due to the higher temperatures we would have expected to find more signs of tadpole activity. No tadpoles have been observed for over a week.

No Tadpoles Observed for a Week

As for what might have caused the demise of our tadpole population, we are still debating a number of theories. Frustratingly we have no evidence to work with, the tadpoles were around in profusion a couple of weeks ago and now there are virtually no signs of them. Many could be hiding in the weed or silt at the bottom of the pond but if this is not the case then we have to consider what might have wiped them out.

Tadpoles have many predators and succumb to fungal and viral infections. The absence of any bodies to be seen, coupled with the relatively healthy state of the tadpole population and the healthy state of the pond itself leads us to discount these theories.

We think they have been eaten, but by what? Certainly, Blackbirds and Robins eat tadpoles and catch them by wading into the shallows. We have seen Blackbirds in particular around the pond, we are away of a nest site nearby and we have observed these birds taking a bath in the pond but no one has seen them catching and eating the tadpoles.

Tadpole Population Decimated

The majority of us suspect that the other pond life has decimated the tadpole population. Once out of their protective jelly and swimming freely they would have been easy prey for the newly emerged water-boatmen. However, the main culprits may be the numerous damsel-fly larvae that can be seen in the pond. There are a large number and these are known to be voracious predators. We suspect that many tadpoles may have ended up being eaten by these creatures.

Disappearing Tadpoles

We have a number of damsel-fly nymphs in the pond, they can be distinguished from other larvae by the three appendages that stick out like fans from the back of the thorax. These are not part of the tail but the caudal lamellae, a set of gills. There are a number of different sized larvae in the pond, this is not surprising considering that they can spend up to 5 years at this nymph stage

These larvae are ambush predators and hunt mainly at night and at the moment they are the number one suspects as we set out to investigate our tadpole disappearance.

Visit Everything Dinosaur’s website: Everything Dinosaur.

2 05, 2008

Studying Those Nasty but Amazing Velociraptors

By Mike|2024-04-12T08:50:21+01:00May 2nd, 2008|Dinosaur and Prehistoric Animal Drawings, Dinosaur Fans, Main Page|0 Comments

Vicious Velociraptors

Although much smaller than the “Velociraptors” depicted in the Jurassic Park trilogy, this little theropod dinosaur was armed with a seven centimetre long, strongly curved second toe claw and it possessed about eighty sharp teeth in its jaws. Described by some palaeontologists as being “poodle-sized”, it may have been one of the smaller “raptors”, but its vicious reputation as so successfully portrayed in the cinema was strongly deserved.

An Illustration of Velociraptor

Vicious Velociraptor. Picture credit: Everything Dinosaur.

Picture credit: Everything Dinosaur

Vicious Velociraptor

Like all members of the Dromaeosauridae (swift lizards), this dinosaur had a long, stiff tail. The tail could not be raised very high, but it could be moved from side to side. It has been speculated that the tail functioned like a rudder to help the animal to balance as it ran. It probably fed on small lizards, mammals, baby dinosaurs and even dinosaur eggs, but in a pack it would have been capable of mobbing and bringing down much larger prey.

As for its vicious reputation, this is well deserved. It was probably a cannibal too. A baby Velociraptor skull has been discovered with two little holes in the top. The teeth of an adult Velociraptor fit perfectly into these holes – nasty critter that Velociraptor (Velociraptor mongoliensis).

The Beasts of the Mesozoic model range contains lots of articulated replicas including V. mongoliensis. To view this excellent range: Beasts of the Mesozoic Models and Figures.

1 05, 2008

The New Diplodocus Dinosaur Model (Carnegie Collectibles)

By Mike|2024-04-12T15:57:44+01:00May 1st, 2008|Everything Dinosaur Products, Press Releases|0 Comments

Carnegie Collectibles Diplodocus Dinosaur Model

A fantastic addition to any dinosaur model collection is this super-sized model of Diplodocus, a long-necked sauropod dinosaur of the Late Jurassic of North America. This model measures over sixty centimetres in length and like all the other Carnegie Collectibles (scale models of prehistoric animals), it is very well painted.

Dinosaur Model Measures over Half a Metre in Length

An impressive model for an impressive dinosaur.

Picture credit: Everything Dinosaur

Diplodocus Dinosaur Model

This is certainly a most impressive model of a Diplodocus, to view Everything Dinosaur’s range of Safari Ltd dinosaur models and other model ranges: Dinosaur and Prehistoric Animal Models.

One word of advice, if you intend to display this dinosaur replica, make sure you have a big enough shelf.

Please note, the Carnegie Collectibles range of dinosaur and prehistoric animal models has now been retired (2014).

30 04, 2008

Birds can Detect Predators by Sense of Smell

By Mike|2022-11-14T14:21:15+00:00April 30th, 2008|Animal News Stories, Dinosaur and Prehistoric Animal News Stories, Main Page|0 Comments

New Study Demonstrates that Birds can “Smell a Rat”

It seems that common everyday creatures can still cause a surprise amongst scientists when research provides an insight into behaviour and conditioning. One such example is a study of Blue Tits (Cyanistes caeruleus), that has been reported in the latest edition of “Functional Ecology”.

The researched focus on whether or not these common garden birds used their sense of smell to detect danger and alter their behaviour accordingly. Many animal species detect and avoid predators and other dangers by using their sense of smell. This sense has largely been ignored in the study of birds, since it was thought that this particular sense was not as important to them as other senses such as sight. This new research was carried out amongst a population of wild Blue Tits in nest boxes in Miraflores de la Sierra in the Sierra de Guadarrama mountains, Madrid province, Spain.

This study has revealed that birds are not only capable of detecting potential predators through chemical signals, but they also alter their behaviour depending on the perceived level of threat. This is an effective survival strategy to adopt as reported by Luisa Amo de Paz, the study’s lead author who was working as a biologist at the Spanish National Research Council’s Natural History Museum while the study was carried out.

This research, provides the first ever evidence to show that birds are able to distinguish their predators using chemical signals. According to the research team this new work: “opens up a new and promising area of research in understanding numerous aspects of bird behaviour, which have been ignored until now.”

The sharpness of the sense of smell among certain birds, especially those that raise their young in holes in trees, such as some of the Tit species, is essential for determining whether their major predators, weasels or martens, have got into their nests or are approaching, particularly because of the limited visibility inside their nests. These birds are active during the day (diurnal) and therefore may have difficulty seeing any potential dangers when peering into the dark holes of their nesting chambers.

The researchers placed the scent of mustelids (ferrets) inside the nest boxes when the chicks were eight days old, and “the parents took longer to enter the boxes to feed their chicks, and they approached the boxes more often without going inside,” commented Ms. Amo de Paz.

Thanks to the images captured by a video camera located several metres from the nest box, the scientists were able to work out the number of times the chicks were fed, and deduced that the birds did not feed their chicks on fewer occasions, although “they spent less time inside the nest while feeding their babies,” according to the biologist. By spending less time in the nest box, the parents lessened the risk of predator attack while still feeding their chicks.

The biologists added the scent of Quail (another, non-threatening bird) in other nest boxes in order to monitor the effect of a new smell on the Blue Tits’ behaviour, and water in others to monitor the effect caused by moisture. This demonstrated that when the birds detected an unknown smell, such as that of the Quails, they did not wait such a long time before entering their nests, and did not reduce the amount of time spent feeding their chicks.

The evidence presented indicates that these small birds are able to detect potential predators and can alter their behaviour accordingly, in essence if they “smell a rat” or indeed any other predatory mammal, they take precautions.

When the chicks were 13 days old, the scientists topped up the corresponding scent for each nest box, and measured the results again. Ms. Amo de Paz said this was to “see whether the ferret scent had an effect on the chicks’ physical condition”, given that their parents had spent less time inside the nest. The conclusions show that the chicks’ growth was not affected during the time they were exposed to the supposed predator. The research team concluded that birds such as tree nesting Blue Tits are able to detect the chemical signals of predators and use these to weigh up the risk of predator attack. In this way their behaviour is modified based on the evidence presented to them from their sense of smell.

This article as been adapted from material provided by Plataforma SINC and Science Daily article published on 30th April 2008 “Birds Can Detect Predators Using Smell”.

Blue Tits are common throughout the British Isles and are resident year round, many studies and surveys have been carried out on these types of birds, although they can be observed from virtually every kitchen window in the country and are a common sight in British gardens their complex behaviour should not be underestimated. Blue Tits for example are capable of producing sophisticated songs, specific sounds being related to the mating season, warding off rivals, proclaiming territory and providing an alarm warning of danger. Although prolific breeders, Blue Tit numbers were severely hit by the extensive flooding that occurred in the UK last Summer. It has been estimated that ten million chicks perished as a result of this weather, either directly as a result of the floods or indirectly due to the lack of available prey.

Research into the sense of smell of birds which are believed to be closely related to Theropod dinosaurs is of interest to palaeontologists as a great deal of speculation has taken place as to the capabilities of dinosaur senses. Thanks to casts of brain cases, and CAT scans, a lot more data on how dinosaur’s brains worked has been gathered over recent years.

By tracing pathways of nerves, scientists can estimate the relative importance of senses like smell and sight to certain dinosaurs. The olfactory bulbs (the areas of the brain associated with processing smell data); of Tyrannosaurus rex for example, were quite large and well developed. This indicates that a sense of smell was important to this creature. Scavengers such as vultures also have a large portion of their brains dedicated to their sense of smell.

Is this evidence indicating that T. rex was not a hunter but a scavenger like a hyena or vulture is today? Unfortunately, being unable to observe a Tyrannosaurus rex actually hunting prevents scientists from testing this theory. All they can say with any certainly is that tyrannosaurs like T. rex probably had a good sense of smell and this sense was important to them.

T. rex Had an Excellent Sense of Smell

A close-up view of the Nanmu Studio Alpha T. rex in the brown colouration. A dinosaur with an excellent sense of smell.

Picture credit: Everything Dinosaur

View dinosaur models such as Tyrannosaurus rex for sale at Everything Dinosaur: Dinosaur and Prehistoric Animal Models.

29 04, 2008

New Diplodocus Model – Carnegie Museum Collection

By Mike|2022-11-14T14:15:20+00:00April 29th, 2008|Everything Dinosaur News and Updates, Everything Dinosaur Products, Main Page|0 Comments

New Diplodocus Model – Carnegie Museum Collection

In 1898 Andrew Carnegie, the Scottish born businessman reputed to have amassed one of the largest personal fortunes of all time, read an article about the amazing dinosaur finds being unearthed in the western USA. He decided to financially support the efforts of these scientists and funded an expedition to Wyoming to find a dinosaur for the city of Pittsburgh. This enthusiasm from one of the world’s most successful tycoons helped build up the Carnegie Museum of Natural History, permitting it to have one of the largest collections of natural wonders and rare fossil exhibits.

Diplodocus carnegii

Carnegie funded the building of the dinosaur hall at the museum, it needed to be a substantial project as it was soon to house an almost complete fossil skeleton of a Diplodocus. This dinosaur was named and described in honour of Carnegie’s philanthropy, this species full name is D. carnegii. This magnificent 87 foot long specimen is affectionately known as “Dippy”. Copies have been cast and presented to a number of other Natural History museums around the world, including the Natural History museum, London where the cast of “Dippy” graces the main entrance hall.

New Diplodocus Dinosaur Model

Now the Carnegie Dinosaur Collection has been updated with a new model version of Diplodocus. The new model of this late Jurassic herbivore is a fraction short of 60 cm long, depicting this huge animal in superb detail. The controversial spines running down the back of the animal are gone, this contrasts this new model with the Natural History museum collection which depicts Diplodocus in battleship grey with a line of spines running from the hips down over the tail.

New Scale Model of Diplodocus

Picture credit: Everything Dinosaur

To view the new model: Diplodocus Models and Dinosaur Figures.

A New Interpretation of a Famous Sauropod

This new interpretation of this famous sauropod shows Diplodocus with contrasting colouration around the head, perhaps an indicator of social rank within the herd or male dominance. Facial colouration such as this may well have helped maintain a hierarchy within a group of these animals. The skin is dotted with scutes, small dermal armour but the spines have not been shown in contrast to the Natural History museum collection’s model.

The Natural History Museum Diplodocus

Picture credit: Everything Dinosaur

28 04, 2008

A Snippet about the Amazing Utahraptor

By Mike|2024-04-12T18:34:40+01:00April 28th, 2008|Dinosaur Fans, Photos of Everything Dinosaur Products|0 Comments

Utahraptor – The Scariest of all the Dinosaurs?

With its twenty centimetre long second toe claw, Utahraptor may have been one of the scariest dinosaurs to have evolved. Highly cursorial and speedy with it, Utahraptor (U. ostrommaysorum or U. spielbergi) was around six metres in length and probably a pack hunter. Utahraptor is the largest “raptor” described to date and one that dates from the Barremian faunal stage of the Early Cretaceous. The name means “Hunter from Utah” as this is where the fossils were found (Utah, western United States).

An Illustration of Utahraptor

Speedy, dinosaur hunters.

Picture credit: Everything Dinosaur

Utahraptor

Palaeontologist Jim Kirkland, one of the scientists responsible for the discovery of this theropod dinosaur found the first fossils of this ancient creature having had a tip from a customer in a pancake shop as to where to look.

Everything Dinosaur Commissioned a Drawing of this Enigmatic Theropod Dinosaur

Big dromaeosaurids did exist in the Cretaceous.

Picture credit: Everything Dinosaur

Scientists hope to find more fossils of this enigmatic member of the Theropoda. As more fossils are found, then palaeontologists can learn more about this dinosaur’s anatomy and perhaps, if trackways are discovered, with several animals moving in the same direction at once, this could imply pack behaviour.

To view the extensive range of theropod dinosaur models available at Everything Dinosaur: Dinosaur and Prehistoric Animal Models.

27 04, 2008

Exciting Frog Blog Week 7 – Where have all the Tadpoles Gone?

By Mike|2024-04-12T18:35:10+01:00April 27th, 2008|Animal News Stories, Educational Activities, Everything Dinosaur News and Updates, Main Page|0 Comments

Frog Blog Week 7 – Disappearing Tadpoles

Typical April weather for England has continued over the last seven days or so, with lots and lots of showers interrupted by occasional sunny intervals. As the sun is climbing quite high in the sky at the moment heading for the Summer solstice just 7 weeks away, when the sun does shine, it is very warm, with temperatures around the pond area being recorded as high as 20 degrees Celsius.

Disappearing Tadpoles

There has been lots of activity in the pond this week, particularly amongst the invertebrate residents, snail eggs (small blobs of jelly attached to pond weeds), have been found and relatively large numbers of pond snails, including rams-horns (those that survive bird attacks – see Frog Blog week 6) have been seen. Everything Dinosaur team members observing the pond have counted at least two water boatmen that have hatched out. Undoubtedly more will be observed over the coming weeks. A careful study of the shallows reveals that quite large numbers of damsel fly nymphs can be seen.

These armoured invertebrate predators look quite prehistoric, perhaps resembling ancient Eurypterids, the savage water scorpions that dominated the Palaeozoic seas. Given the opportunity they would certainly feed on the tadpoles, as indeed would the water boatmen.

Perhaps as a result of this increased predator activity the tadpoles have all but disappeared from the pond. Over the last five days or so the number of tadpoles observed by team members has fallen dramatically. A week ago, over a ten minute period nearly 100 tadpoles were counted, now no more than 6 or 7 are seen over the same time interval.

Predation of the Tadpoles

We suspect that many of the tadpoles will get eaten, only a very few will survive to escape the pond as miniature frogs, but we did not expect to see so few only after about 14 days after hatching. Having considered this carefully we have concluded that the majority of the tadpoles are still fine, however, their survival strategy freed from the protective jelly that surrounded the developing embryo is to hide amongst the pond weed and algae, this may be why so very few can be seen by observers.

Tadpoles Gone

In the past, when tadpoles have been kept, these animals have always been in tanks, so it has always been easy to watch them. In the natural pond, with so much more cover it is likely that the number of tadpoles is still quite high, but we just cannot see them anymore.

We will keep up our observations to see if we can spot more of them as they grow bigger.

Two frogs have been seen in the pond over the last few days, the smaller male frog has been joined by a larger one – at least they seem to be enjoying the rain.

26 04, 2008

New Research into DNA Links Dinosaurs to our Feathered Friends. Are you going to call T. rex a Chicken?

By Mike|2024-04-12T18:36:44+01:00April 26th, 2008|Dinosaur and Prehistoric Animal News Stories, Main Page, Palaeontological articles|0 Comments

Dinosaur DNA linked to Aves. Are you going to call T. rex a Chicken?

New research using ancient fossilised proteins retrieved from the 68 million year old femur (thigh bone) of a Tyrannosaurus rex has confirmed the long held theory that birds are the closest living relatives of dinosaurs. This new study, conducted by researchers at Harvard University in association with the Harvard Medical School, also adds extra impetus to the now widely accepted theory that birds are the direct descendants of a particular group of dinosaurs – the theropods.

Dinosaur DNA

These findings are the first molecular evidence indicating that Aves (the birds), are the closest living relatives to Dinosauria, controversial earlier studies from Russian scientists also linked dinosaurs to birds. In the earlier research, the Russian team studied fossil Triceratops bones at the molecular level and concluded that their work indicated that these ancient horned dinosaurs were closely related to ostriches. Although much of this previous work was refuted by the scientific community, this new study seems to indicate that the Russians were on the right track.

The American team’s findings are due to be published in this month’s edition of the journal “Science”.

Examining Skeletons

A close examination of the skeletons of theropod dinosaurs and birds reveal a number of similar anatomical features. In fact you do not have to be a scientist to find evidence of this close anatomical relationship between these two types of animal, a brief study of a roast chicken cooked for Sunday lunch will provide quite a lot of evidence – if you know what to look for.

The link below provides more information on how to dissect your average roast chicken to find evidence of the link between dinosaurs and birds: Christmas Dinner Links Dinosaurs to Birds.

The new research follows a breakthrough study in 2007, scientists reported the recovery and partial molecular sequencing of fossilised Tyrannosaurus rex and Mastodon (a type of elephant) proteins. Both animal fossil studies (the Tyrannosaurus and the Mastodon) involved collecting and examining samples of collagen, the main protein component of bone.

In fact collagen is the main protein found in connective tissue of animals and the most common protein found in mammals including ourselves- making up around 25% of all the proteins in our bodies.

As well as providing further evidence to support the close evolutionary relationship between Theropod dinosaurs and birds, the study into the Mastodon proteins helps provide information on the evolution of the elephant family.

“This shows that if we can sequence even tiny pieces of fossil protein, we can establish evolutionary relationships,” said co-author John Asara of Harvard Medical School.

T. rex Proteins

The Tyrannosaurus rex proteins were extracted from fossilised soft tissues preserved inside a late Maastrichtian faunal stage fossil femur, estimated to be around 68 million years old. The discovery of potential protein information inside the femur was reported in 2005.

The Mastodon remains were much younger, dating from the Pleistocene epoch and believed to be between 160,000 and 600,000 years old.

Using a variety of techniques the research team compared the T. rex and Mastodon protein chains with those of 21 extant animals including ostriches, chickens and alligators.

Such comparisons are commonly used by biologists to construct evolutionary “family trees,” since similar protein structure is an indicator of shared genetic makeup.

Protein Sequences

Until very recently, however, protein sequences have not been available for ancient organisms such as dinosaurs, since most fossils do not yield proteins or DNA. The problem with genetic analysis is that molecules such as proteins and DNA tend to break down rapidly after death. The preservation of such delicate material is extremely rare and controversial, despite the claims highlighted by Michael Crichton, the author of the story “Jurassic Park” in which Dinosaurs and Pterosaurs were brought to life by combining amphibian DNA with fossilised DNA extracted from the remains of blood sucking insects preserved in amber.

It was thought (and indeed some scientists still hold this view), that DNA could not survive more than 10,000 years unless the tissue was preserved in some unusual manner such as being rapidly frozen, for example, in the case of the Siberian Mammoths.

Many attempts have been made to extract DNA from insects that had been trapped in amber, recreating the storyline from Mr Crichton’s novel and scenes from the film “Jurassic Park”. There have been claims for success, but all attempts to replicate the experiments have proved inconclusive; indeed many scientists claim that the experiments may have been contaminated by modern DNA and therefore the results are invalid.

Molecular Analysis

Molecular analysis of extant species (animals living today) have revealed some surprising evolutionary relationships. For many years, the edentate mammals such as the armadillo had been regarded as the most primitive placentals, but analysis of new molecular data suggests that insectivores such as the hedgehog may be the most primitive. Fossil evidence for both types of mammal have been uncovered in the Eocene deposits of Messel in Germany. It is the molecular data from living representatives of these groups that indicates that the insectivores are the more ancient lineage.

Another remarkable mammalian discovery using molecular analysis may be that the lagomorphs (such as rabbits and hares) may be closely related to the primates. Previously, using just anatomical comparisons this group of mammals had been classified with the rodents (mice, rats, squirrels and such like).

If molecular data become more widely available for dinosaurs, Asara noted, researchers will be able to fill in gaps and overcome possible errors in the existing classification based on physical features.

To illustrate his point, he noted that the shared ancestry of two present-day groups—elephants and shrew-like tenrecs—is known solely from DNA and protein comparisons.

“Nobody could make that connection based on bones,” he noted.

“The amazing part of this study is that we could establish the dinosaur-bird connection using only 89 total amino acids ,the building blocks of proteins,” Asara added.

With only a small amount of sequence data, he continued, “we can take an unidentified or fragmented fossil bone and not only identify the species but also help place it in evolution.”

It remains to be seen whether even small sequences can be extracted from ancient fossils with any regularity, experts say.

Mary Schweitzer of North Carolina State University is a co-author of the new study and made the initial discovery of the Tyrannosaurus rex soft tissue remains. She has argued that such remains may be relatively common in well-preserved fossils but are often overlooked. Other scientists have been sceptical, stating that protein preservation over tens of millions of years should not be possible. Some scientists have continued to question whether Asara’s and Schweitzer’s sequences really came from an ancient Tyrannosaur, some other modern biological source could have contaminated the sample that was tested, claim the sceptics.

Defending their work, Asara has countered that the fact that the proteins are most similar to those of birds rather than mammals, the biologists themselves for example, discredits the contamination theory.

The doubters still voice their concerns. Peggy Ostrom is a biologist at Michigan State University in East Lansing and an expert on fossil proteins., she remains extremely sceptical about the Tyrannosaurus rex protein findings.

Many have remained sceptical about the T. rex protein findings, she said, because of the small size of the sequences.

“They have a very tiny bit of data relative to the size of the collagen molecule,” Ostrom said.

“What’s going to be really convincing is to actually see some more sequences,” she added.

If other fossilised bones are found to contain proteins then further evidence could be gathered. Ostrom also noted that many recent findings, including the Mastodon remains dated to nearly half a million years ago, have greatly pushed back previously accepted time limits for protein molecule preservation.

“In 2000, there probably wasn’t one biochemist around who would tell you we’d find a protein over 40 thousand years old,” she said.

In truth, the evolutionary relationships amongst certain elements of Dinosauria is still largely unclear. If biological information could be gathered at the molecular level then this would lead to a more robust Dinosaur family tree, helping to fill in the missing branches and links due to the paucity of the Dinosaur fossil record.

Whatever, the outcomes of further research, scientists are still a long way off recreating the Jurassic Park scenarios as depicted in the Hollywood films.