Wednesday, February 24, 2010

Yet Another New Species: Abydosaurus mcintoshi


So far, 2010 is turning out to be quite a good year for dinosaur discovery. Abydosaurus mcintoshi was described this week by Chure et al. from skull and neck material found in Dinosaur National Monument. It dates from the Albian stage of the Early Cretaceous, about 105 million years ago.


Abydosaurus is a brachiosaurid, making it part of a relatively successful family of sauropod dinosaurs. More famous relatives, such as Brachiosaurus and Giraffatitan, are known mostly from the Late Jurassic, though some, such as Sauroposeidon, are also known from the Early Cretaceous. The brachiosaurids are a part of a group of sauropods known as macronarians, for their large nasal cavities (as opposed to those of diplodocoids).


Abydosaurus is notable for its relatively thin, peg-like teeth, which are quite different from those of the earlier Brachiosaurus. There is a marked change from the broad-crowned sauropod teeth of the Jurassic, which seems to have appeared independently among different sauropod groups throughout the Cretaceous. By the Upper Cretaceous, no broad-crown-toothed sauropods are found anywhere in the world.

Monday, February 22, 2010

Plurals in Latin! This is important.

Just to clear a few things up with plurals in Latin (since in paleontology, the language is dealt with often).

If it ends with -us, generally its plural ends with -i. Example: cactus -> cacti. Some other plurals for words, however, end with -era. Example: genus -> genera.

If it ends with -a, its plural ends with -ae. Examples: alumna -> alumnae, aurora -> aurorae.

If it ends in -um, its plural ends with -a. Examples: medium -> media, datum -> data. (Yes, data is plural.)

If it ends with -ix, its plural ends with -ices. Example: appendix -> appendices.

If it ends with -is, its plural ends with -es. Example: parenthesis -> parentheses.

Oddball words like species maintain their singular form in the plural.

I hope this brief guide helped you. The more you know. Because knowledge is power!

Sunday, February 21, 2010

Lizard Watch

(Pictured: Eublepharis macularius. Not mine, though.)

Good news, everyone! Within the next few weeks, I will be obtaining my very own squamate, an Eublepharis macularius. Or, in common terms, a leopard gecko.


The Squamata are an order of scaled reptiles, the most recent major group, having found their origins around the lower Jurassic. The order includes not only lizards but snakes, thereby comprising the vast majority of sauropsids (reptiles) alive today. Other orders, including Crocodilia (within the Archosauria; Archosauria also contains birds and dinosaurs), Sphenodontia (tuataras), and Testudines (turtles and tortoises) make up the remainder of reptiles alive today. Of course, Squamata also contained the now-extinct mosasaurs, making my future scaley compadre a not so distant cousin of the great Tylosaurus proriger.


Within suborder Scleroglossa, the infraorder Gekkota, and family Gekkonidae, the leopard gecko originates from the arid scrubs and deserts of southern Asia, throughout Pakistan and India. It is unique among geckos, as it has eyelids. It's a well-established pet in many countries, common as a reptilian pet throughout the United States.


Like other geckos, it posesses over 14,000 hair-like growths called setae (singular: seta) on its feet, which allow it to walk on vertical surfaces without liquid or surface tension. Each of the setae has a diameter of about 5 micrometers, and each is covered with anywhere from 100 to 1000 spatulae, which are 0.2 micrometers in width.


I'm really looking forward to having my very own squamate around the house. However, I can only hope the two local Felis silvestris catus aren't quite as anxious about its arrival.

Thursday, February 18, 2010

DinoBlag: Batrachotomus


A more esoteric choice on my part: Batrachotomus kupferzellensis. It is a prestosuchid rauisuchian from the Middle Triassic (Ladnian) of southern Germany. It was found in a swampy region, so it's no accident that its name means "frog cutter".


It grew up to 20 feet (6 meters) long, making it one of the larger of the rauisuchians. Rauisuchians are, of course, a suborder of crurotarsan archosarus, mostly land-bound crocodiles which lived from the Permian until the Triassic. They were very widespread, and have been found on nearly every continent. Batrachotomus is distinguished from its cousins by a series of bony, leaf-shaped scutes on its back known as osteoderms. This term means "bony skin", which is precisely what they were.


With a tall, narrow skull and a relatively upright posture, it is easy to see why Batrachotomus and its ilk ruled the Triassic world. It was well-suited for hunting the prey it needed to, as it was faster than most of them.


It lived in the same habitat as several large amphibians like Mastodonsaurus, nothosaurs, and relatives of the marine Tanystropheus.

Wednesday, February 17, 2010

DinoBlag: Bistahieversor

(Pictured: The skull of the animal in question.)
I know, right? Two blog posts in a day. Scandal. But hey, if I have the day off, why not?
I kinda missed the media hype a week or so past when this litte guy was discovered in the Kirtland Formation (formerly the Ojo Alamo Formation, after which the contemporary Alamosaurus was named). But now I can put him in a typical DinoBlag: Bistahieversor sealeyi. (Here, I'll help you out: bis-TAH-ee-eh-ver-ser SEEL-ee.)


Our friend Bis (as I will henceforce refer to him/her/it as) was gathered in the 1990s under the dubious name Aublysodon, which was attributed a century ago to the teeth of an unidentified juvenile tyrannosaur. Earlier last decade, it was attributed instead to a new species of Daspletosaurus, but research shows that it was different enough from Das (I'm a lazy typer) to belong to its own genus. And so, this year, Bistahieversor was born.


Its name means "Bistahi destroyer", Bistahi being the location where it was found, and a Navajo word meaning "formation of pueblos". Its adult size is estimated at 30 feet (9 meters), and it lived around 75 million years ago in the lower Maastrichtian. Though its affinities within the Tyrannosauroidea are uncertain, it has a deep snout, not unlike true tyrannosaurids.


Some scientists postulate that it was isolated from the more advanced northern tyrannosaurs by the growing Rocky Mountains, which at the time were far higher than today. By its skull characteristics, in my opinion, I would suppose that the dinosaur fed on hadrosaurs, much like its northern relatives Daspletosaurus, Albertosaurus, and Tyrannosaurus rex.


Bistahieversor sealeyi (Bis will catch on, you just watch!) was described by Carr and Williamson in 2010.

A Look to the Past - The Dinosaur Encyclopedia by Dr. Michael Benton


Dinosaur science has come a long, long way since 1984. Evidence enough of this is a book by Dr. Michael Benton, published that year, which recently resurfaced in my home. Compared with the graceful dinosaurs in Dr. Thomas Holtz's 2004 book with a similar title, the clunky, tripod-like dinosaurs of the older publication are almost comic in appearence.

Not that I blame Dr. Benton, of course. The book is 26 years old. A lot of discoveries have been made, and the book is quite comprehensive for the time. But a look back from over a quarter of a century can be an entertaining experience. A short list of the things said in the book is enough to warrant at least a quiet snicker.

*Tyrannosaurus is the largest carnivore of all time, at 50 feet. (It grew to 43 feet.)
*"Warm-blooded Dinosaurs?" is shown with a skeptical question mark in the index.
*Crocodiles are cited as dinosaurs' closest living relatives. Birds are overlooked.
*Poor Diplodocus is cited as the "most stupid dinosaur", as it has the lowest brain-to-body ratio of any dinosaur. (I don't know if this is still true or not. I'll have to check.

Even the taxonomical differences between then and now are enough to fill this post.

*Tyrannosaurids are Carnosaurs (They're coeulurosaurs.)
*"Anatosaurus", rather than Anatotitan.
*At least it doesn't use "Brontosaurus" as a valid name!
*Oviraptorosaurs are ornithomimosaurs (They're not.)
*All large carnivores, including coelophysoid Dilophosaurus, megalosauroid Megalosaurus and Spinosaurus, and, as mentioned before, tyrannosauroid Tyrannosaurus are apparently Carnosauria.
* Smaller coelophysoids are coelurosaurs (They're not!)
*Therizinosaurus and Deinocheirus are in the Deinocheiridae, which is apparently part of Deinonychosauria. (That's a new one.)
*"Dravidosaurus"
*Elaphrosaurus is an ornithomimosaur (It's a ceratosaur)
*Interestingly, Hypselosaurus is cited as being closely related to Alamosaurus, Saltasaurus, and Titanosaurus, all of which (including Hypselosaurus) would, in 1993, be classed into Titanosauria. (More points for Dr. Benton!)
*It suggests that Mamenchisaurus stood in the middle of ponds and swept around like a vacuum cleaner to eat.
*Noasaurus is claimed to be a deinonychosaur, which would have made it the only of that kind known from South America. Ironically, it wasn't until decades later that unenlagiine dromaeosaurids were found in the same area.
*Pachycephalosaurus is said to be an ornithopod. (It's a cerapod.)
*Though rightfully told to be a saurischian, Segnosaurus is said to be a fish-eater, as this was originally how it was thought to feed. It was, in reality, either herbivorous or omnivorous like other therizinosaurs.
*Spinosaurus is shown as a close relative of Acrocanthosaurus.
*Syntarsus (now Megapnosaurus, or big dead lizard, which is just about the worst dinosaur name ever; no surprise, it wasn't named by actual paleontologists) was one of the first dinosaurs depicted with feathers, but the author approaches this claim with much caution.

But, of course, again, we can't blame Dr. Benton. This was another age (at least in dinosaur science). The book has some very informative parts in the back about the history of the science, as well as the preparation of mounted dinosaur skeletons. And hey. I can assure you, in 2036, paleontologists will be making fun of us for our mistakes. But if we can't laugh at tripods and croc-like bellies, then what can we laugh at?

Tuesday, February 16, 2010

DinoBlag: Phacops


You heard me. Phacops rana. This is an exciting moment for the blog, as this is the first species featured in a DinoBlag which I actually own a specimen of. Phacops is a classic Devonian trilobite, native not only to North America, but also to Morocco. The specific name is a reference to its eyes, which reminded scientists of the common frog (Rana).
It lived around 400 million years ago in shallow seas, and is a common fossil in many Devonian sediments. It is known for commonly being found in a balled-up position similar to that of the modern pillbug (Armadillidium vulgare). It is the state fossil of Pennsylvania.
Phacops is the state fossil of Pennsylvania, and quite a large trilobite at up to 6 inches in length. Something interesting about its relatives are that they are capable of seeing almost 360 degrees around the animal, which undoubtedly would have allowed it to detect incoming predators.

Saturday, February 13, 2010

Tyrannosaurus Species (Also: 50th Post! Whoo!)

(Picture: Which is the tiger? Which is the lion? Where should we draw the line?)

Today, it's easy to tell species apart from one another, even within the same genus (well, generally). We have the luxury of seeing tigers and lions in the flesh, and of seeing their distinguishing characteristics (stripes and manes, respectively). But in paleontology, to the regret of many, things just aren't that simple.

With dinosaurs, we are dealing with something quite different from big cats. These are animals whose living relatives today, crocodiles and birds (you BANDits are in denial!), are very different from their saurian cousins indeed. Of dinosaurs, we have only stripped, petrified bone (except in some very extraordinary and exciting cases, such as mummified Brachylophosaurus and feathered dino-birds from China), which makes it very hard to use characteristics like these to classify them. For examples of living and extinct animals, I will use lions and tigers, and T. rex as my examples for living and extinct animals, respectively.

Any 3-year-old can tell a lion and tiger apart. The lion, Panthera leo, has a magnificent mane and tawny skin. Its legs are relatively well-suited for running, though not as much so as those of the cheetah (Acinonyx jubatus). A tiger, Panthera tigris, is much bulkier than its African cousin, with stouter legs, an orange, striped coat, and a considerable aptitude for swimming. These two animals are so different on the outside, it's hard to imagine clumping them together as the same beast.

But if we take a dip beneath the cats' skin, things become a bit complicated. There are remarkably few anatomical differences between the two, besides the differences in hair and skin, which, one should think, would make the two quite indistinguishable to hypothetical scientists from after the animals in question are long gone. So how can we assume that dinosaurs were any different?
Tyrannosaurus rex is arguably the most famous of all prehistoric creatures. Yet compared to other dinosaurs, it is relatively uncommon. A single species resides within the genus, and has for the century and more that the dinosaur has been known to science. But some scientists insist that tyrannosaurs closely resembling old Rexie are also a part of the genus.
Tarbosaurus bataar is a very close relative of Tyrannosaurus from the Late Cretaceous of Mongolia. There are some small, if appreciable, differences in the skeletons of the two animals, but many paleontologists (palaeontologists?) feel that Tarbosaurus is naught but another species of Tyrannosaurus. Tyrannosaurus bataar would be the name of the dinosaur if it was reclassified. In short, the afforementioned paleontologists want to "clump" Tarbosaurus into Tyrannosaurus.
Some scientists even go so far as to classify Daspletosaurus torosus, considered by some as ancestral to T. rex, as another species of Tyrannosaurus - T. torosus - despite some major differences in skull structure. Where does it end? When does the clumping stop, and poor Das and Tarbo can live in taxonomic peace?
If we can notice these differences in the species even marginally over 70 million years of geologic time, isn't it clear that they were even more different when they were alive? They were probably even more different than lions and tigers (well, maybe not; dinosaurs didn't have hair, after all). If we can't even tell lions and tigers apart in the bone, but can with reptiles which have been extinct for so long, why should these tyrannosaurs be just as closely related?
We frankly don't have the luxury of seeing dinosaurs in the flesh. So who knows? There could have been plenty of Tyrannosaurus species, all as different and distinguishable as tigers and lions. But the thing is, we'll never know, unless some day, we can see the dinosaurs alive. So please: clumpers, please stop clumping! Tarbosaurus and Daspletosaurus are just not Tyrannosaurus.

Wednesday, February 3, 2010

DinoBlag: Neovenatoridae

One of the more recent developments in the classification of dinosaurs is the 2009 addition of the family Neovenatoridae. The neovenatorids are the last of the allosauroids, relatives of the Jurassic Allosaurus and the Cretaceous giant Giganotosaurus. Neovenatorids range in time from the Early Cretaceous, 128 million years ago, to about 70 million years ago. They are known from South America, Australia, East Asia, and Europe.
Many neovenatorids are characterized by large thumb claws, especially Megaraptor and Australovenator. 7 species across 7 genera are known from this family, placing it in the middle range for diversity among dinosaurs (compare to 9 genera in Tyrannosauridae and 2 in Psittacosauridae).
The type species, Neovenator, is somewhat of an anomaly among the family, being the only species of neovenatorid known outside of the southern regions of the world. It is outclassed only by Aerosteon in size, at 7.5 meters in length. The other species of the family probably averaged somewhere around 4.5 - 5 meters.
Neovenator was described by Martill and Barker in 1996, and the family was described by Benson, Carrano, and Brusatte in 2009.