Sunday 23 June 2013

Tyrannosaurus rex Part 2 - Systematics


Last time, we looked at the anatomy of Tyrannosaurus rex. This week, we will look at where it fits in relation to other dinosaurs.

The following cladograms (adapted from Tweet, 2013) illustrate Tyrannosaurus rex's position. The groups to which Tyrannosaurus rex belongs will be placed at the bottom.

Cladogram of Dinosauria (Owen, 1842)

O - Dinosauria
 |---o Ornithischia (Seeley, 1888)
 `---o Saurischia (Seeley, 1888)

The Ornithischia contains the horned dinosaurs, the armoured dinosaurs and the duck-billed dinosaurs. The Saurischia contains the meat-eating and the long-necked dinosaurs.

O - Saurischia
 |--- o Herrerasauridae (Reig, 1963)
 |--- o Sauropodomorpha (Huene, 1932)
 `---o Theropoda (Marsh, 1881)

The Herrerasauridae contain a small group of dinosaurs that have bounced between the Sauropodomorpha and the Theropoda since...well, forever really (and have sometimes believed to be non-dinosaurs). The Sauropodomorpha contains the Sauropods and their relatives. Theropoda contains all the meat-eating dinosaurs.

O - Theropoda
 |---o Daemonosaurus (Sues et al., 2011)
 `---+---o Tawa (Nesbitt et al., 2009)
        `---o Neotheropoda (Bakker, 1986)

Daemonosaurus and Tawa are the most basal ("primitive") well-established Theropods (if you discount the Herrerasaurids that is). The Neotheropoda contains all the other Theropods, being characterised by only four fingers (as opposed to five), a small fourth finger (and in some, no fourth finger at all), and three weight-bearing toes (sometimes with a fourth toe higher up that is not in contact with the ground).

O - Neotheropoda
 | ---o Coelophysoidea (Holtz, 1994)
 `---+---o Zupaysaurus (Arcucci and Coria, 2003)
        `---+---o Dilophosauridae (Madsen and Welles, 2000)
               `---o Averostra (Paul, 2002)

The Coelophysoids were basal theropods that were typically small with long, low bodies, long necks and heads and short hands. Zupaysaurus is somewhere in between the Coelophysoids and the Dilophosaurids. The Dilophosaurids were effectively larger versions of Coelophysoids with shorter necks and they had a sort of kink in their jaws like crocodiles do. The Averostra consists of all other theropods which, unlike the Coelophysoids and the Dilophosaurids have an extra hole in their upper jaw called the promaxillary fenestra.

O - Averostra
 |---o Ceratosauria (Marsh, 1884)
 `---o Tetanurae (Gauthier, 1986)

The Ceratosaurians are an arbitrary group of Averostrans that aren't Tetanurans but no-one can agree on their characteristics or members. The Tetanurae consists of theropods that lack a fourth digit on their hand, have all their upper jaw teeth situated in front of the eyes and have a strap-like shoulder-blade.

O - Tetanurae
 |---o Chuandongocoelurus (He, 1984)
 |---o Monolophosaurus (Zhao and Currie, 1993)
 `---+---o Megalosauroidea (Huxley, 1869)
        `---o Avetheropoda (Paul, 1988)

The Megalosauroids have long, low builds and short, stout arms (being used as fishing implements by some). The Avetheropods, as their name would suggest, contain the bird-like theropods.

O - Avetheropoda
|---o Carnosauria (Huene, 1920)
`---o Coelurosauria (Huene, 1914)

Traditionally, the big theropods were in the Carnosauria and the small theropods in Coelurosauria. This has now been abandoned. In general the Carnosaurs had large eyes, long, narrow skulls and thighs longer than their shins. The Coelurosaurs have a long sacrum, a stiffened tail (especially at the tip), a bowed ulna (one the forearm bones) and shins longer than their thighs.

O - Coelurosauria
|---o Compsognathidae (Cope, 1871)
`---+---o "Bunch of well-known coelurosaurs that don't fit anywhere"
      `---o Tyrannoraptora (Sereno, 1999)

The Compsognathids were tiny coelurosaurs. The Tyrannoraptora are all the coelurosaurs closer to birds than the Compsognathids. In between, are a large number of dinosaurs that don't fit anywhere else. In fact, some have suggested that the classification of basal coelurosaurs needs to be completely re-written given the number of taxa that don't have a home and the fact that neither the Compsognathids nor the Tyrannoraptorans have an agreed-upon set of characteristics.

O Tyrannoraptora
 |---+---o Coelurus (Marsh, 1879)
 |     `---o Maniraptoriformes (Holtz, 1995)
 `---o Tyrannosauroidea (Walker, 1964)

Coelurus is another critter that changes address every few years. Maniraptoriformes contains all the theropods closer to birds than to Tyrannosaurus. They are generally characterised by having bird-like shoulders and breastbones. The Tyrannosauroids are what we are interested in.

O Tyrannosauroidea
|--? Bagaraatan (Osmolska, 1996)
`---+---o Proceratosauridae (Rauhut et al., 2010)
      |---o Dilong (Xu et al., 2004)
      `---+---o Yutyrannus (Xu et al., 2012)
            `---+---+---o Eotyrannus (Hutt et al., 2001)
                   |      |---o Juratyrant (Brusatte and Benson, 2012)
                   |      `---o Stokesosaurus (Madsen, 1974)
                   |---o Xiongguanlong (Li et al., 2010)
                   `---+---o Dryptosaurus (Marsh, 1877)
                         `---+---o Appalachiosaurus (Carr et al., 2005)
                                `---+---o Bistahieversor (Carr and Williamson, 2010)
                                       `---o Tyrannosauridae (Osborn, 1905)

Bagaraatan might actually be a basal coelurosaurian instead (Unfortunately, because Tyrannosauroids branched off from the family tree so early on, basal coelurosaurians and basal tyrannosauroids are very similar). The Proceratosaurids had crests. The dinosaurs between the Proceratosaurids and the Tyrannosaurids, possessed three fingers on their hands and were relatively small (with the notable exception of Yutyrannus being 9m long). Quite a few of them also had feather-like coatings. The Tyrannosaurids were big and bad with the teeth at the front of the jaws D-shaped in cross-section and two fingers on their hands.

O Tyrannosauridae
 |---o Albertosaurinae (Currie et al., 2003)
 `---o Tyrannosaurinae (Matthew and Brown, 1922)

The Albertosaurines were generally smaller and possessed small horns in front of their eyes. The Tyrannosaurines were generally larger and possessed large bumps (called bosses) behind their eyes. The next tree is the last one, I promise.

O Tyrannosaurinae
|---o Alioramus (Kurzanov, 1976)
`---+---o Teratophoneus (Carr et al., 2011)
       `---+---o Daspletosaurus (Russell, 1970)
             `---+---o Tarbosaurus (Maleev, 1955)
                    `---o Tyrannosaurus (Osborn, 1905)

There are two types of Tyrannosaur researcher: the lumpers and the splitters. The lumpers regard all of these taxa to be synonymous with Tyrannosaurus whereas the splitters split them into into multiple genera and species (some of which we will look at in Part 3). I was hoping to cover them in this post, but considering this took me two weeks to do, I decided to leave it here. Next time, we'll look at life before the dinosaurs.

See also:
More dinosaurs
More Tyrannosaurus rex

References:
Arcucci, A. and Coria, R., (2003) 'A new Triassic carnivorous dinosaur from Argentina', Ameghiniana, 40 (2), pp. 217-228

Bakker, R. (1986) The Dinosaur Heresies, New York: William Morrow

Brusatte, S. and Benson, R. (2012) 'The systematics of Late Jurassic tyrannosauroids (Dinosauria: Theropoda) from Europe and North America', Acta Palaeontologica Polonica, 58 (1), pp. 47-54

Carr, T., Williamson, T. and Schwimmer, D. (2005) 'A new genus and species of tyrannosauroid from the Late Cretaceous (middle Campanian) Demopolis Formation of Alabama', Journal of Vertebrate Paleontology, 25 (1), pp. 119-143

Carr, T. and Williamson, T. (2010) 'Bistahieversor sealeyi, gen. et sp. nov., a new tyrannosauroid from New Mexico and the origin of deep snouts in Tyrannosauroidea', Journal of Vertebrate Paleontology, 30 (1), pp. 1-16

Carr, T., Williamson, T., Britt, B. and Stadtman, K. (2011) 'Evidence for high taxonomic and morphologic tyrannosauroid diversity in the Late Cretaceous (Late Campanian) of the American Southwest and a new short-skulled tyrannosaurid from the Kaiparowits Formation of Utah', Naturwissenschaften, 98 (3), pp. 241-246

Cope, E. (1871) 'Supplement to the synopsis of the extinct Batrachia and Reptilia of North America', Proceedings of the American Philosophical Society, 12 (86), pp. 41-52

Currie, P., Hurum, H. and Sabath, K. (2003) 'Skull structure and evolution in tyrannosaurid dinosaurs', Acta Palaeontologica Polonica, 48 (2), pp. 227-234

Gauthier, J. (1986) 'Saurischian monophyly and the origin of birds', in Padian, K. (ed) 'The Origin of Birds and the Evolution of Flight', Memoirs of the California Academy of Science, 8, pp. 1-55

He, X. (1984) [The Vertebrate Fossils of Sichuan], Chengdu: Sichuan Scientific and Technical Publishing House

Holtz, T. (1994) 'The phylogenetic position of the Tyrannosauridae: Implications for theropod systematics', Journal of Paleontology, 68 (5), pp. 1100-1117

Holtz, T. and Padian, K. (1995) 'Definition and diagnosis of Theropoda and related taxa', Journal of Vertebrate Paleontology, 15 (supplement), p. 35A

Huene, F. von (1914) 'Das naturliche System der Saurischia' [The natural System of Saurischia], Zentralblatt fur Mineralogie, Geologie und Palaeontologie B, 1914, pp. 154-158

Huene, F. von (1920) 'Bemerkungen zur Systematik und Stammesgeschichte einiger Reptilien' [Notes on the Systematics and Phylogeny of some Reptiles], Zeitschrift fur Induktive Abstammungs-und Vererbungslehre, 22 (3), pp. 209-212

Huene, F. von (1932) 'Die fossile Reptil-Ordnung Saurischia, ihre Entwicklung und Geschichte', [The fossil reptile order Saurischia, their development and history], Monographien zur Geologie und Palaeontologie, 1 (4), pp. 1-361

Hutt, S., Naish, D., Martill, D., Barker, M. and Newbery, P. (2001) 'A preliminary account of a new tyrannosauroid theropod from the Wessex Formation (Early Cretaceous) of southern England' Cretaceous Research, 22 (2), pp. 227-242

Huxley, T. (1869) 'On the upper jaw of Megalosaurus', Quarterly Journal of the Geological Society of London, 25 (1), pp. 311-314

Kurzanov, S. (1976) '[A new Late Cretaceous carnosaur from Nogon-Tsav, Mongolia], in Kramarenko, N., Luvsandansan, B., Voronin, Y., Barsbold, R., Rozhdestvensky, A., Trofimov, B. and Reshitov, V. (Eds) 'Palaeontology and Biostratigraphy of Mongolia', The Joint Soviet-Mongolian Palaeontological Expedition, Transactions, 3, pp. 93-104

Li, D., Norell, M., Gao, K-Q., Smith, N. and Makovicky, P. (2010) 'A longirostrine tyrannosauroid from the Early Cretaceous of China', Proceedings of the Royal Society B, 277 (1679), pp. 183-190

Madsen, J. (1974) 'A new theropod dinosaur from the Upper Jurassic of Utah', Journal of Paleontology, 48 (1), pp. 27-31

Madsen, J. and Welles, S. (2000) Ceratosaurus (Dinosauria, Theropoda) a revised osteology, Salt Lake City: Utah Geological Survey

Maleev, E. (1955) '[New carnivorous dinosaurs from the Upper Cretaceous of Mongolia], Doklady Akademii Nauk SSSR, 104 (5), pp. 779-783

Marsh, O. (1877) 'Notice of some new dinosaurian reptiles from the Jurassic Formation', American Journal of Science, 3 (14), pp. 514-516

Marsh, O. (1878) 'Notice of new Jurassic reptiles', American Journal of Science, 3 (18), pp. 501-505

Marsh, O. (1881) 'Principle characters of American Jurassic dinosaurs. Part V.', American Journal of Science, 3 (21), pp. 417-423

Marsh, O. (1884) 'Principle characters of American Jurassic dinosaurs. Part VIII. The Order Theropoda', American Journal of Science, 3 (27), pp. 329-340

Matthew, W. and Brown, B. (1922) 'The family Deinodontidae, with notice of a new genus from the Cretaceous of Alberta', Bulletin of the American Museum of Natural History, 46, pp. 367-385

Nesbitt, S., Smith, N., Irmis, R., Turner, R., Downs, A. and Norell, M. (2009) 'A complete skeleton of a Late Triassic saurischian and the early evolution of dinosaurs', Science, 326 (5959), pp. 1530-1533

Osborn, H. (1905) 'Tyrannosaurus and other Cretaceous carnivorous dinosaurs', Bulletin of the American Museum of Natural History, 21, pp. 259-265

Osmolska, H. (1996) 'An unusual theropod dinosaur from the Late Cretaceous Nemegt Formation of Mongolia', Acta Palaeontologica Polonica, 41 (1), pp. 1-38

Owen, R. (1842) 'Report on British fossil reptiles. Part II', in, British Association for the Advancement of Science, Report of the Eleventh Meeting of the British Association for the Advancement of Science, London: John Murray, pp. 60-204

Paul, G. (1988) Predatory Dinosaurs of the World: A Complete Illustrated Guide, New York: Simon and Schuster

Paul, G. (2002) Dinosaurs of the Air, Baltimore: The Johns Hopkins University Press

Rauhut, O., Milner, A. and Moore-Fay, S. (2010) 'Cranial osteology and phylogenetic position of the theropod dinosaur Proceratosaurus bradleyi (Woodward, 1910) from the Middle Jurassic of England', Zoological Journal of the Linnean Society, 158 (1), pp. 155-195

Reig, O. (1963) 'La prescencia de dinosaurios saurisquios en los "Estrados de Ischigualasto" (Mesotriásico superior) de las Provincias de San Juan y La Rioja (Republica Argentina)' [The presence of saurischian dinosaurs in the "Ischigualasto formation" (Late Middle Triassic) in the provinces of San Juan and La Rioja (Republic of Argentina)], Ameghiniana, 3 (1), pp. 3-20

Russell, D. (1970) 'Tyrannosaurs from the Late Cretaceous of western Canada', National Museum of Natural Sciences Publications in Paleontology, 1 (1), pp. 1-34

Seeley, H. (1888) 'The classification of the Dinosauria', Proceedings of the Royal Society of London, 43 (258-265), pp. 165-171

Sereno, P. (1999) 'The evolution of Dinosaurs', Science, 284 (5423), pp. 2137-2147

Sues, H-D., Nesbitt, S., Berman, D. and Henrici, A., (2011) 'A late-surviving basal theropod dinosaur from the Latest Triassic of North America', Proceedings of the Royal Society B, 278 (1723), pp. 3459-3464

Tweet, J. Thescelosaurus, [Online] Available at: http://www.thescelosaurus.com/index.html, Accessed on: 13/06/2013

Walker, A. (1964) 'Triassic reptiles from the Elgin area: Ornithosuchus and the origin of carnosaurs', Philosophical Transactions of the Royal Society B, 248 (744), pp. 53-134

Xu, X., Norell, M., Kuang, X., Wang, X., Zhao, Q. and Jia, C. (2004) 'Basal tyrannosauroids from China and evidence for protofeathers in tyrannosauroids', Nature, 431 (7009), pp. 680-684

Xu, X., Wang, K., Zhang, K., Ma, Q., Xing, L., Sullivan, C., Hu, D., Cheng, S. and Wang, S. (2012) 'A gigantic feathered dinosaur from the Lower Cretaceous of China, Nature, 484 (7392), pp. 92-95

Zhao, X-J. and Currie, P. (1993) 'A large crested theropod from the Jurassic of Xinjiang, People's Republic of China', in Currie, P. (ed) 'Results from the Sino-Canadian Dinosaur Project', Canadian Journal of Earth Sciences, 30 (10), pp. 2027-2036

Thursday 6 June 2013

The Code

This post is all about The Code. No, not the Pirate code from Pirates of the Caribbean but the code of the International Commission of Zoological Nomenclature (ICZN, 2012). This is the code that is used for determining whether a name is valid or not. It is not to be used to establish whether a particular species is unique or not. I'll try to keep it simple because like a lot of rulebooks, it can get complicated (especially when it comes to determining type specimens - more on that later).

Definition - The ICZN code is the system of scientific names to taxonomic units of extinct and extant (not extinct) animals. These units are called "taxon" when singular and "taxa" when plural. For the purposes of the Code, animal refers to members of the taxon Metazoa and any protistans regarded as animals by authors (protistans are microscopic organisms in-between algae and animals and no-one is too sure what they are)

Scope - Scientific names are those based on: actual specimens (either complete or intact), domesticated animals, names based on fossils, names based on fossilised work of animals (such as footprints, eggs, burrows etc., these are called ichnotaxa), names for groups of animals and, for those named before 1930, the work of extant animals. Additionally, the Code only really applies to names at the family, genus and species levels. Above the rank of family is not so rigorously enforced (these names are usually subject to general consensus)

Exclusions - The following are excluded from the code and hence are not regarded as valid names:

  • Hypothetical concepts
  • Teratological specimens (deformities, mutants, etc.)
  • Hybrids
  • Infrasubspecific entities (such as breeds of dogs)
  • Temporary or provisional names
  • After 1930, the work of extant animals
  • Modifications of available names with a common suffix or prefix to indicate the group it belongs to (e.g. Herrera (1899, cited in ICZN, 2012) proposed that every genus should have a three-letter prefix to indicate class such as all insects having Ins- or all mammals having Mam- at the beginning of the name)

Independence - The code is independent of other systems. There is a separate code for plants and fungi and a separate one for Bacteria. And whilst it is acceptable for an animal to have the same name as a plant, it is not recommended.

Any name that has been regarded as an animal at any point is deemed unavailable for future use. For example, if I were to describe what I believed to be a dinosaur as Alphasaurus and it was later found to be a plant (this has actually happened) the name Alphasaurus would still be unavailable for another animal, despite the fact that it is now a plant.

Any name published after 1 January 1758 is accepted.

No name or taxonomic change made before 1758 is acceptable but information (such as descriptions and pictures) can be used

Names higher in rank than species must consist of a single word and it must be capitalised (Such as the genus for man Homo or the cow family Bovidae)

Species must consist of two names - the generic name and specific name (known as an epithet). The generic name is capitalised, the epithet is not (Such as man Homo sapiens)

Subspecies must consist of three names - again the genus is capitalised and the specific and subspecific names are not (Such as modern man Homo sapiens sapiens)

Typographical symbols such as ., ,, ? and -, do not form part of the name.

In order for a publication (and thus any new names and changes made therein) to be regarded as valid, it must adhere to the following criteria:

  • it must be issued for the purpose of providing a public and permanent scientific record
  • it must be obtainable, when first issued, free of charge or by purchase
  • it must have been produced in an edition containing simultaneously obtainable copies by a method that assures numerous identical and durable copies and widely accessible electronic copies with fixed content and layout
The copies must be in the form of either a paper copy or, between 1986-2012, on an optical disc.

For publications that are entirely online/electronic, they will considered acceptable if:
  • They were issued after 2011
  • State the date the publication was published
  • Are registered with ZooBank (an online repository of taxonomic changes)
The following are not considered valid publications:
  • Handwritten papers (after 1930)
  • Works produced by hectographing or mimeographing (1986-2012) (whatever the hell they are)
  • Photographs on their own
  • Proof sheets
  • Microfilms
  • Acoustic records of any kind
  • Labels of specimens
  • Preliminary versions of the work (a lot of online publications are put up before being officially published)
  • Materials issued to participants at a meeting, convention, symposium etc.
  • Text and illustrations distributed on the internet (unless they meet the conditions of the previous rule)
  • Copies of works that have not been published (this includes PhD theses and dissertations)
As well as rules for the publication itself, there are rules for the names. For a name to be valid it must be written in the Latin alphabet (a-z). It must derive from a pre-existing language (arbitrary combinations of letters are acceptable, but only if they form a pronounceable word). For names before 1931, they must be accompanied by a description or at least a reference to one. For names between 1931-1999, they must also be accompanied with a diagnosis in order to differentiate it from other taxa. Anonymous works are valid if they were published before 1951. After 1999, all new names must be explicitly stated as such (usually by adding sp. nov. or gen. nov. or fam. nov. afterwards, nov. being short for nova, Latin for new). Family names must be listed with a type genus that best represents the group (for example the great ape family Hominidae is named after Homo, Tyrannosauridae is named after Tyrannosaurus etc.).

Names can be changed under certain circumstances such as if the gender is wrong or if the name is constantly spelled differently in the original publication (in this case, the first spelling used takes precedence, even if it was not the intended one).

When using a name, the author and date of publication should be used. Normally, if the author and date is shown in brackets, it means the taxon was placed in a different genus originally (for example, if I was to describe a new dinosaur as Betasaurus basingstokensis, it would be written as: Betasaurus basingstokensis Lucas, 2013. But if it is later re-classified it would be written as: Deltasaurus basingstokensis (Lucas, 2013)).

The most important part of the Code is the Principle of Priority. This states that the oldest valid name is to be used. For example, if Gammasaurus Lucas, 2011 and Epsilonsaurus, Lucas, 2013, were found to be the same, Gammasaurus would be the correct name to be used because it is older. This also applies to identical names (called homonyms). For example, if there was a Zetasaurus, Smith, 1930 and then decades later a Zetasaurus, Lucas, 2013, Lucas' Zetasaurus would have to be re-named because it is younger. This applies even if the older name is no longer valid. For example, even though Brontosaurus is no longer a valid taxon, the name can never be used again. If two names were published at the same time and found to be synonymous, the author who discovered this can choose which name to use (this is known as the First Reviser Rule). For example, Tyrannosaurus and Dynamosaurus were both named by Osborn in 1905. The following year, he announced they were the same, and since they were named at the same time, Osborn chose Tyrannosaurus to be the correct name (he could have quite easily chosen Dynamosaurus and that would have been the most famous dinosaur name instead). 

The first time a taxon is mentioned in a paper, it must be written out in full. It can then be abbreviated afterwards. For example, if I was to write an article describing Etasaurus cornwallensis I would write it out in full, but after that, I can refer to it as E. cornwallensis (although, I don't personally like abbreviating taxa). No diacritics, marks, punctuation or symbols may be used. Hyphens can be used in some circumstances. For example, if I wanted to name a species of Thetasaurus after St. Austell, I would not be able to use the "." after St in the name. So it would become Thetasaurus staustellensis

Family group names have specific suffixes depending on their rank. -oidea for superfamilies, -idae for families, -inae for subfamilies, -ini for tribes and -ina for subtribes. Generic and species names must have the same gender endings (generally -us is masculine, -a is feminine and -um is neutral, though there are exceptions). For example Iotasaurus is masculine and needs a masculine species name, Kappasaura is feminine and needs a feminine species name and Lambdasaurum is neutral and so needs a neutral species name. Species names can be modified is the new generic name has a different gender. For example, if Musaurus cristatus (a masculine name) is reclassified into Nusaura, cristatus would have to change to cristata. The original spellings must be used, even if they are technically incorrect. For example, if Xisaurus senai was named after John Cena, the original senai spelling must be used. The only exceptions to this is if the original name is invalid because it contains accents, punctuation marks, numerals etc. 

That's about it. Not much more to say. Sorry it's a bit wordy but it's an important aspect of science and it's best to get it over now then keep referring to it in posts. My next non-dinosaur post will be about Butterflies. Next week will see the much-anticipated part 2 of Tyrannosaurus rex.

See also:
More dinosaurs

References:
ICZN (2012) 'International Code of Zoological Nomenclature', [Online], Available at: http://www.nhm.ac.uk/hosted-sites/iczn/code/, Accessed on: 06/06/2013

Sunday 2 June 2013

Frequently Asked Dinosaur Question 1: Which was the biggest dinosaur?



This is probably THE most asked question, especially by children. Humans seem to have a fascination with size, always striving to find the biggest of something, and dinosaurs are no exception. As a result, many sources (some more accurate than others) have catered to this compulsion. In this post, we'll take a look at the most frequently cited candidates, and examine their credentials in more detail. (And for the purposes of this article, I'm using biggest to mean tallest/longest not heaviest - simply because weight is nearly impossible to guess for fossils)

Candidate Number 1: Seismosaurus
Seismosaurus (the Earth-Shaking Lizard) was a sauropod (as are all the contenders for largest dinosaur ever). In the early 1990s there was a dinosaur magazine series (called DINOSAURS!) that had an FAQ on the back cover of each issue. These involved asking Dr. David Norman (who is probably the country's leading expert on dinosaurs, specialising in iguanodonts) a series of questions. When asked what the biggest dinosaur was, he said Seismosaurus (Orbis, 1992) giving a length of 36.5m. Seismosaurus hallorum (Hall's Earth-Shaking Lizard - originally called halli but had to change due to grammar rules (Olshevsky, 1998)) was described by David Gillette in 1991 and was first estimated to be 39-51m (Gillette, 1991). However, we can discount Seismosaurus (sort of) because in 2006 it was found to be the same as Diplodocus (Carpenter, 2006). There is currently disagreement as to whether it is a valid species of Diplodocus (as Diplodocus hallorum) or whether it should be further synonymised with another species, Diplodocus longus (Marsh, 1878).

Candidate Number 2: Giraffatitan
Oh this one. You probably already know about this dinosaur because for most of the 20th century it was regarded as being a species of Brachiosaurus (Arm Lizard) (Riggs, 1903) (Brachiosaurus brancai (Branca's Arm Lizard), Janensch, 1914) (and indeed pretty much everything written about Brachiosaurus was based on this one rather than the original species). As a result, what you know of as Brachiosaurus is actually Giraffatitan (Titan Giraffe) (Paul, 1988), although this didn't become widely accepted until around 2003/4. Anyway, this dinosaur is known from the largest complete skeleton of a dinosaur ever discovered, found in Tanzania, East Africa between 1909-1912. The skeleton is now housed in the Berlin Museum of Natural History. It is 21.8 m long (Mazzetta, et al., 2004). However, despite its great size, this specimen is believed to only be a subadult and a larger, more mature specimen has been found (Taylor, 2009) which measures approximately 26 m (Holtz, 2008).

Candidate Number 3: Diplodocus
Continuing on from Seismosaurus above, it has now been shown that not only is Seismosaurus the same as Diplodocus (Double Beam), but also that Gillette overestimated the size. The current size estimate for Diplodocus (Marsh, 1878) is 33 m (Lucas, et al., 2004). Not much more to say really.

Candidate Number 4: Argentinosaurus
OK, now we get to sauropods that we are less certain of in terms of size. Argentinosaurus huinculensis (Argentine Lizard from Huincul) (Bonaparte and Coria, 1993) is known only from vertebrae, a few ribs and a tibia (shin bone). Size estimates have included: 30-35 m (Paul, 1994), 30 m (Carpenter, 2006) and 22-26 m (Mortimer, 2001).

Candidate Number 5: Supersaurus
Supersaurus vivianae (Vivian's Super Lizard) (Jensen, 1985) might sound like the sort of name a 5-year-old would come up with but it is a genuine dinosaur. It also includes another generic-sounding taxon named in the same paper, Ultrasauros mcintoshi (McIntosh's Ultra Lizard) (Jensen, 1985) (Originally called Ultrasaurus but this name had already been taken by a sauropod from South Korea (Kim, 1983) and so it was subsequently re-named Ultrasauros (Olshevsky, 1991)). Ultrasauros was found to be a chimaera (a taxon composed of more than one animal), in this case the vertebra belonged to Supersaurus and the scapula (shoulder blade) to Brachiosaurus (actual Brachiosaurus not Giraffatitan) (Curtice, et al., 1996). Anyway, Supersaurus has been estimated to attain a length of 33-34 m (Lovelace, et al., 2007).

Candidate Number 6: Sauroposeidon
Sauroposeidon proteles (Perfect Before the End Lizard Poseidon) (Because it was one of the last sauropods and Poseidon was the Greek God of Earthquakes, again likening its footsteps to an earthquake) (Wedel et al., 2000a) received a lot of media attention when announced back in 2000, with many outlets proclaiming it to be "THE BIGGEST DINOSAUR EVARZZZ!!!!!!111", which, while possible, is too premature given the current specimens known. It was certainly the tallest dinosaur, able to raise its head 17 m above the ground (Wedel et al., 2000b), but as for its length, estimates have ranged from 28-34 m (Wedel and Cifelli, 2005, Wedel et al., 2000b, Carpenter, 2006).

Candidate Number 7: Bruhathkayosaurus
Now we get into the "very-likely-to-be-hoaxes" category. Bruhathkayosaurus matleyi (Matley's Huge-Bodied Lizard) (Yadagiri and Ayyasami, 1989) was initially described as an Allosauroid theropod (somehow?!?!). But there are a number of problems with this one: 1) The description was brief and vague and I doubt the authors have a firm grasp of English 2) The drawings and photographs are...well see for yourself:
 
(why the text is upside-down I don't know)


3) The authors have only ever published one other paper on dinosaurs in which they named Dravidosaurus blanfordi (Blanford's Dravidanadu Lizard) (Yadagiri and Ayyasami, 1979), claiming it to be the smallest, youngest and only Gondwanan stegosaurian. That was until the 1990s when the poorly preserved remains were re-identified as being plesiosaurian (Chatterjee and Rudra, 1996). Therefore, their credentials and opinions shouldn't be taken at face value.

4) The guy who classified them as sauropod (and also re-identified Dravidosaurus as a plesiosaur), Sankar Chatterjee, has a...questionable reputation for getting things wrong (A good example is Protoavis texensis (First Bird from Texas) (Chatterjee, 1991) which he claimed was the oldest bird, being 75-60 million years older than Archaeopteryx (Ancient Wing) (Meyer, 1861) but is more likely to be some random reptile that vaguely looks like a bird)

5) And, to top it all off, the fossils were never fully dug out of the ground and were washed away in a monsoon. I am not kidding.

 As a result of this, I think we can ignore Bruhathkayosaurus. Oh, and no actual sizes were ever given.

Candidate number 8: Amphicoelias fragillimus
We finally get to the final candidate and my personal favourite for the title of "World's Largest Dinosaur". Amphicoelias fragillimus (Most Fragile Double Cavities) (Cope, 1878) is based on a partial vertebra discovered by Oramel Lucas in 1877  in Garden Park, Colorado. The vertebra was huge, 2.7 m high (Carpenter, 2006). The most recent size estimate (Carpenter, 2006) is 58 m long - TWICE as long as any of the other candidates here, and longer than even the Blue Whale. Unfortunately, like Bruhathkayosaurus, the fossil has seemingly disappeared, having simply disintegrated on the train as it was being transported (Hence the name fragillimus).

And that's it. These are the most common candidates for the largest dinosaur ever. The next FAQ will look at dinosaur age and growth. Next week will look at the first non-dinosaur post as we take a closer look at The Rules.

See also:
More dinosaurs
More about Edward Drinker Cope, the guy who named Amphicoelias fragillimus

References
Bonaparte, J. and Coria, S. (1993) 'Un nuevo y gigantesco sauropodo titanosaurio de la Formación Río Limay (Albaniano-Cenomanio) de la Provincia del Neuquén, Argentina', [A new gigantic sauropod titanosaur from the Río Limay Formation (Albanian-Cenomanian) of the Province of Neuquén, Argentina], Ameghiniana, 30 (3), pp. 271-282

Carpenter, K. (2006) 'Biggest of the big: a critical re-evaluation of the mega-sauropod Amphicoelias fragillimus' in Foster, J. and Lucas, S. (Eds) Paleontology and Geology of the Upper Jurassic Morrison Formation, Albuquerque: New Mexico Museum of Natural History and Science

Chatterjee, S. (1991) 'Cranial anatomy and relationships of a new Triassic bird from Texas', Philosophical Transactions of the Royal Society B: Biological Sciences, 332 (1265), pp. 277-342

Chatterjee, S. and Rudra, D. (1996) 'KT events in India: impact, rifting, volcanism and dinosaur extinctions', in Novas, F. and Molnar, R. (Eds) Proceedings of the Gondwanan Dinosaur Symposium, Brisbane, Memoirs of the Queensland Museum, 39 (3), pp. 489-532

Cope, E. (1878) 'A new species of Amphicoelias'', American Naturalist 12 (8), pp. 563-564

Curtice, B., Steadman, K. and Curtice, L. (1996) 'A reassessment of Ultrasaurus mcintoshi (Jensen, 1985)' in Morales, M. (Ed), The Continental Jurassic, Flagstaff: Museum of Northern Arizona

Gillette, D. (1991) 'Seismosaurus halli, gen. et sp. nov., a new sauropod dinosaur from the Morrison Formation (Upper Jurassic/Lower Cretaceous) of New Mexico, USA', Journal of Vertebrate Paleontology, 11 (4), pp. 417-433, doi: 10.1080/02724634.1991.10011413

Holtz, T. (2008) Dinosaurs: The Most Complete, Up-to-Date Encyclopedia for Dinosaur Lovers of All Ages, New York: Random House

Janensch, W. (1914) 'Ubersicht uber die Wirbeltierfauna der Tendaguru-Schichten, nebst einer kurzen Charakterisierung der neu aufgefuhrten Arten von Sauropoden' [Overview of the vertebrate fauna of the Tendaguru layers, along with a brief characterisation of the newly described species of sauropod], Arch. Biotol., 3, pp. 81-110

Jensen, J. (1985) 'Three new sauropod dinosaurs from the Upper Jurassic of Colorado', Great Basin Naturalist, 45 (4), pp. 697-709

Kim, H. (1983) 'Cretaceous dinosaurs from Korea', Journal of the Geological Society of Korea, 19 (3), pp. 115-126

Lucas, S., Herne, M., Heckert, A., Hunt, A. and Sullivan, R. (2004) 'Reappraisal of Seismosaurus, a Late Jurassic Sauropod dinosaur from New Mexico', Proceedings of the Annual Meeting of the Society of Vertebrate Paleontology, 36 (5), p. 422

Lovelace, D., Hartman, S. and Wahl, W. (2007) 'Morphology of a specimen of Supersaurus (Dinosauria, Sauropoda) from the Morrison Formation of Wyoming, and a re-evaluation of diplodocid phylogeny', Arquivos do Museu Nacional, 65 (4), pp. 527-544

Marsh, O. (1878) 'Principal characters of American Jurassic dinosaurs. Part I', American Journal of Science, 3 (16), pp. 411-416

Mazzetta, G., Christiansen, P. and Farina, R. (2004) 'Giants and Bizarres: Body Size of Some Southern South American Cretaceous Dinosaurs', Historical Biology, 16 (2-3), pp. 71-83

Meyer, H. von, (1861) 'Archaeopteryx lithographica (Vogel-Feder) und Pterodactylus von Solenhofen', [Archaeopteryx lithographica (Bird-Feather) and Pterodactylus of Solenhofen], Neues Jahrbuch fur Mineralogie, Geognosie, Geologie und Petrefakten-Kunde 1861, pp. 678-679

Mortimer, M. (2001) 'Titanosaurs Too Large?', [Online], Available at: http://dml.cmnh.org/2001Sep/msg00402.html, Accessed on: 30/05/2013

Olshevsky, G. (1991) Parainfraclass Archosauria Cope, 1869, Excluding the Advanced Crocodylia: Mesozoic Meanderings #2 (1st Edition), San Diego: George Olshevsky (self-published)

Olshevsky, G. (1998) Parainfraclass Archosauria Cope, 1869, Excluding the Advanced Crocodylia: Mesozoic Meanderings #2 (2nd Edition), San Diego: George Olshevsky (self-published)

Orbis (1992) 'Ask the Expert', Dinosaurs!: Discover the Giants of the Prehistoric World, Issue 1, p.25

Paul, G. (1988) 'The brachiosaur giants of the Morrison and Tendaguru with a description of a new subgenus, Giraffatitan, and a comparison of the world's largest dinosaurs', Hunteria, 2 (3), pp. 1-14

Paul, G. (1994) 'Big Sauropods - Really, Really Big Sauropods', The Dinosaur Report, Fall 1994, pp. 12-13

Riggs, E. (1903) 'Brachiosaurus altithorax, the largest known dinosaur', American Journal of Science, 4 (15), pp. 299-306

Taylor, M. (2009) 'A re-evaluation of Brachiosaurus altithorax, Riggs, 1903 (Dinosauria, Sauropoda) and its generic separation from Giraffatitan brancai (Janensch, 1914)', Journal of Vertebrate Paleontology, 29 (3), pp.787-806

Wedel, M., Cifelli, R. and Sanders, R. (2000a) 'Sauroposeidon proteles, a new sauropod from the Early Cretaceous of Oklahoma', Journal of Vertebrate Paleontology, 20 (1), pp. 109-114

Wedel, M, Cifelli, R. and Sanders, R. (2000b) 'Osteology, paleobiology, and relationships of the sauropod dinosaur Sauroposeidon', Acta Paleontologica Polonica, 45 (4), pp. 343-388

Wedel, M. and Cifelli, R. (2005) 'Sauroposeidon: Oklahoma's Native Giant', Oklahoma Geology Notes, 65 (2), pp. 40-57

Yadagiri, P. and Ayyasami, K. (1979) 'A new stegosaurian dinosaur from Upper Cretaceous sediments of south India', Journal of the Geological Society of India, 20 (11), pp. 521-530

Yadagiri, P. and Ayyasami, K. (1989) 'A carnosaurian dinosaur from the Kallamedu Formation (Maestrichtian [sic] horizon), Tamilnadu [sic]' in Sastry, M., Sastry, V. Ramanujan, C., Kapoor, H., Jagannatha Rao, B., Satsangi, P. and Mathur, U. (Eds) Symposium on Three Decades of Development in Palaeontology and Stratigraphy in India. Volume 1. Precambrian to Mesozoic, Geological Society of India Special Publication, 11 (1), pp. 523-528