Sauropodomorpha

Sauropodomorphs
Temporal range: Late TriassicLate Cretaceous, 231.4–66 Ma
Mounted skeleton of Plateosaurus engelhardti at Eberhard-Karls-University
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Clade: Dinosauria
Order: Saurischia
Clade: Eusaurischia
Suborder: Sauropodomorpha
Huene, 1932
Subgroups[1]

Sauropodomorpha (/ˌsɔːrəˌpɒdəˈmɔːrfə/[2] SAW-rə-POD-ə-MOR-fə; from Greek, meaning "lizard-footed forms") is an extinct clade of long-necked, herbivorous, saurischian dinosaurs that includes the sauropods and their ancestral relatives. Sauropods generally grew to very large sizes, had long necks and tails, were quadrupedal, and became the largest animals to ever walk the Earth. The "prosauropods", which preceded the sauropods, were smaller and were often able to walk on two legs. The sauropodomorphs were the dominant terrestrial herbivores throughout much of the Mesozoic Era, from their origins in the mid-Triassic (approximately 230 Ma) until their decline and extinction at the end of the Cretaceous (approximately 66 Ma).

Description

Skull of Nigersaurus taqueti and head posture in sauropodomorphs

Sauropodomorphs were adapted to browsing higher than any other contemporary herbivore, giving them access to high tree foliage. This feeding strategy is supported by many of their defining characteristics, such as: a light, tiny skull on the end of a long neck (with ten or more elongated cervical vertebrae) and a counterbalancing long tail (with one to three extra sacral vertebrae).

Their teeth were weak, and shaped like leaves or spoons (lanceolate or spatulate). Instead of grinding teeth, they had stomach stones (gastroliths), similar to the gizzard stones of modern birds and crocodiles, to help digest tough plant fibers. The front of the upper mouth bends down in what may be a beak.

One of the earliest known sauropodomorphs, Saturnalia, was small and slender (1.5 metres, or 5 feet long); but, by the end of the Triassic, they were the largest dinosaurs of their time, and in the Jurassic/Cretaceous they kept on growing. Ultimately the largest sauropods, like the Supersaurus, Diplodocus hallorum, and Argentinosaurus, reached 30–40 metres (100130 ft) in length, and 60,000–100,000 kilograms (65110 US short tons) or more in mass.

Initially bipedal, as their size increased they evolved to become graviportal quadrupeds (like elephants). The early sauropodomorphs were most likely omnivores as their shared common ancestor with the other saurischian lineage (the theropods) was a carnivore. Therefore their evolution to herbivory went hand in hand with their increasing size and neck length.

They also had large nostrils (nares), and retained a thumb (pollex) with a big claw which may have been used for defense though their primary defensive adaptation was their extreme size.

Comparisons between the scleral rings of several sauropodmorph genera (Diplodocus, Lufengosaurus, Nemegtosaurus, Plateosaurus, and Riojasaurus) and modern birds and reptiles suggest that they may have been cathemeral, active throughout the day at short intervals.[3]

Sauropodomorphs reached the age of sexual maturity well before they were fully-grown adults.[4][5] A study by Griebeler et al. (2013) concluded that the maximum growth rates of Sauropodomorphs were comparable to those of precocial birds, and the black rhinoceros but lower than the growth rates of average mammals.[5]

Time range

Among the very first dinosaurs to evolve in the middle Triassic Period, about 230 million years ago (Mya), they became the dominant herbivores by half way through the late Triassic (during the Norian stage). Their perceived decline in the early Cretaceous is most likely a bias in fossil sampling, as most fossils are known from Europe and North America. Sauropods were still the dominant herbivores in the Gondwanan landmasses, however. The spread of flowering plants (angiosperms) and "advanced" ornithischians, another major group of herbivorous dinosaurs (noted for their highly developed chewing mechanisms), are most likely not a major factor in sauropod decline in the northern continents. Like all non-avian dinosaurs, the sauropodomorphs became extinct 66 Mya, during the Cretaceous–Paleogene extinction event.

The earliest and most basal sauropodomorphs known are Chromogisaurus novasi and Panphagia protos, both from the Ischigualasto Formation, dated to 231.4 million years ago (late Ladinian age of the Middle Triassic according to the ICS;[6] alternately called the early Carnian age of the Late Triassic in the system used by the Geological Society of America).[7][8] Some studies have found Eoraptor lunensis (also from the Ischigualasto Formation), traditionally considered a theropod, to be an early member of the sauropodomorph lineage, which would make it the most basal sauropodomorph known.[9] Additional fragmentary remains from Madagascar may represent an even earlier sauropodomorph from the middle Triassic.[10]

Classification

Restoration of Panphagia, one of the most basal sauropodomorphs known
Plateosaurus is a well-known prosauropod

Sauropodomorpha is one of the two major clades within the order Saurischia. The sauropodomorphs' sister group, the Theropoda, includes bipedal carnivores like Velociraptor and Tyrannosaurus; as well as birds. However, sauropodomorphs also share a number of characteristics with the Ornithischia, so a small minority of palaeontologists, like Bakker, have historically placed both sets of herbivores within a group called "Phytodinosauria" or "Ornithischiformes."

In Linnaean taxonomy, Sauropodomorpha (which means "lizard feet forms") is either a suborder or is left unranked. It was originally established by Friedrich von Huene in 1932, who broke it into two groups: the basal forms within Prosauropoda, and their descendants, the giant Sauropoda.

Recent phylogenetic analyses by Adam Yates (2004, 2006) and others firmly places Sauropoda within a paraphyletic "Prosauropoda". Also, finds of late Triassic sauropods demonstrate that there is no gap between the "prosauropod" and sauropod lineages. Recent cladistic analyses suggest that the clade Prosauropoda, which was named by Huene in 1920 and was defined by Sereno, in 1998, as all animals more closely related to Plateosaurus engelhardti than to Saltasaurus loricatus,[11] is a junior synonym of Plateosauridae as both contain the same taxa.[12][13]

Evidence against sauropod ancestry within Prosauropoda comes from the fact that prosauropods had a smaller outer toe on their hind feet than the sauropods. Many maintain that it is easier for digits to be reduced or lost during evolution than the reverse, however there is no evidence for this. The lengthening, or gaining of extra digits is common in marine reptiles, and within the theropods digit lengthening occurred at least once. Therefore, using this as evidence against ancestral prosauropods is questionable.

Most modern classification schemes break the prosauropods into a half-dozen groups that evolved separately from one common lineage. While they have a number of shared characteristics, the evolutionary requirements for giraffe-like browsing high in the trees may have caused convergent evolution, where similar traits evolve separately because they faced the same evolutionary pressure, instead of (homologous) traits derived from a shared ancestor.[14]

Phylogeny

Skull comparison about several sauropodomorphs

Cladogram after Novas et al., 2011:[13]

Sauropodomorpha
Guaibasauridae

Unnamed form. Fossil ISI R277



Panphagia




Guaibasaurus


Saturnaliinae

Chromogisaurus



Saturnalia







Pantydraco




Thecodontosaurus




Nambalia




Efraasia




Plateosauravus




Ruehleia


Plateosauria

Plateosauridae


Massopoda

Riojasauridae




Anchisauria



Massospondylidae












Below is a cladogram of basal sauropodomorpha after Otero et al., 2015.[15]

Saurischia
Herrerasauridae

Herrerasaurus



Staurikosaurus





Eoraptor


Eusaurischia

Agnosphitys


Theropoda

Guaibasaurus




Chindesaurus



Neotheropoda




Sauropodomorpha
Saturnaliinae

Saturnalia



Chromogisaurus





Pantydraco




Thecodontosaurus




Efraasia




Plateosauravus


Plateosauria

Ruehleia


Plateosauridae

Unaysaurus



Plateosaurus



Massopoda
Riojasauridae

Eucnemesaurus



Riojasaurus





Sarahsaurus



Massospondylidae


Lufengosaurus



Glacialisaurus



Coloradisaurus





Massospondylus




Adeopapposaurus



Leyesaurus







Jingshanosaurus




Yunnanosaurus




Seitaad


Anchisauria

Anchisaurus


Sauropodiformes

Mussaurus




Aardonyx



Leonerasaurus



Sefapanosaurus




Melanorosaurus



Sauropoda





















Distinguishing anatomical features

Sauropodomorphs can be distinguished as a taxon on the basis of some of the following synapomorphies:[16]

References

  1. Holtz, Thomas R. Jr. (2012) Dinosaurs: The Most Complete, Up-to-Date Encyclopedia for Dinosaur Lovers of All Ages, Winter 2011 Appendix.
  2. Cf. "sauropodomorph - definition of sauropodomorph in English from the Oxford dictionary". OxfordDictionaries.com. Retrieved 2016-01-20.
  3. Schmitz, L.; Motani, R. (2011). "Nocturnality in Dinosaurs Inferred from Scleral Ring and Orbit Morphology". Science 332 (6030): 705–8. doi:10.1126/science.1200043. PMID 21493820.
  4. Sander PM (2000) Long bone histology of the Tendaguru sauropods: implications for growth and biology. Paleobiology 26: 466–488.
  5. 1 2 Griebeler EM, Klein N, Sander PM (2013) Aging, Maturation and Growth of Sauropodomorph Dinosaurs as Deduced from Growth Curves Using Long Bone Histological Data: An Assessment of Methodological Constraints and Solutions. PLoS ONE 8(6): e67012. doi:10.1371/journal.pone.0067012
  6. Gradstein, F.M., Ogg, J.G. and Smith, A.G. (2004). A Geologic Time Scale 2004, Cambridge University Press.
  7. Luciano A. Leal, Sergio A. K. Azevodo, Alexander W. A. Kellner, and Átila A. S. da Rosa (October 18, 2004). "A new early dinosaur (Sauropodomorpha) from the Caturrita Formation (Late Triassic), Paraná Basin, Brazil" (PDF). Zootaxa 690: 1–24. (Warning: abstract is 12 kb PDF)
  8. Martínez, Ricardo N.; Alcober, Oscar A. (2009). Sereno, Paul, ed. "A basal sauropodomorph (Dinosauria: Saurischia) from the Ischigualasto Formation (Triassic, Carnian) and the early evolution of Sauropodomorpha" (pdf). PLoS ONE 4 (2): 1–12. doi:10.1371/journal.pone.0004397. PMC 2635939. PMID 19209223.
  9. Ricardo N. Martinez, Paul C. Sereno, Oscar A. Alcober, Carina E. Colombi, Paul R. Renne, Isabel P. Montañez and Brian S. Currie (2011). "A Basal Dinosaur from the Dawn of the Dinosaur Era in Southwestern Pangaea". Science 331 (6014): 206–210. doi:10.1126/science.1198467. PMID 21233386.
  10. "All Things Considered". National Public Radio. October 21, 1999.
  11. Sereno, P.C. (1998). "A rationale for phylogenetic definitions, with applications to the higher-level taxonomy of Dinosauria". Neues Jahrbuch fur Geologie und Palaontologie: Abhandlungen 210: 41–83.
  12. Yates, Adam M. (2007). "The first complete skull of the Triassic dinosaur Melanorosaurus Haughton (Sauropodomorpha: Anchisauria)". In Barrett & Batten (eds.), Evolution and Palaeobiology: 9–55.
  13. 1 2 Fernando E. Novas, Martin D. Ezcurra, Sankar Chatterjee and T. S. Kutty (2011). "New dinosaur species from the Upper Triassic Upper Maleri and Lower Dharmaram formations of central India". Earth and Environmental Science Transactions of the Royal Society of Edinburgh 101 (3–4): 333–349. doi:10.1017/S1755691011020093.
  14. Pol D., Garrido A., Cerda I.A. (2011). Farke, Andrew Allen, ed. "A New Sauropodomorph Dinosaur from the Early Jurassic of Patagonia and the Origin and Evolution of the Sauropod-type Sacrum". PLoS ONE 6 (1): e14572. doi:10.1371/journal.pone.0014572. PMC 3027623. PMID 21298087.
  15. Otero, Alejandro; Krupandan, Emil; Pol, Diego; Chinsamy, Anusuya; Choiniere, Jonah (2015). "A new basal sauropodiform from South Africa and the phylogenetic relationships of basal sauropodomorphs". Zoological Journal of the Linnean Society 174 (3): 589. doi:10.1111/zoj.12247.
  16. Martin, A.J. (2006). Introduction to the Study of Dinosaurs. Second Edition. Oxford, Blackwell Publishing. pg. 299-300. ISBN 1-4051-3413-5.

External links

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