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Amphicoelias

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Amphicoelias
Fossil range: Late Jurassic
Cope's illustration of theAmphicoelias fragillimus specimen
Cope's illustration of the
Amphicoelias fragillimus specimen
Conservation status
Extinct (fossil)
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Sauropsida
Superorder: Dinosauria
Order: Saurischia
Suborder: Sauropodomorpha
Family: Diplodocidae
Genus: Amphicoelias
Cope, 1878a
Species
  • A. altus (type)
  • A. fragillimus Cope, 1878b

Amphicoelias (IPA pronunciation /ˌæmfɪˈsiːlɪəs/, meaning 'doubly hollow', from the Greek amphi: "on both sides", and koilos: "hollow, concave") was a genus of herbivorous sauropod dinosaur, which may have included the largest dinosaur ever discovered, A. fragillimus. Based on surviving descriptions of a single fossil bone, A. fragillimus may have been the longest known vertebrate at 40-60 meters (131-196 ft) in length, and may have had a mass of up to 122 tons, rivaling the heaviest animal known, the blue whale. However, because these only fossil remains were lost shortly after being studied and described in the 1870s, evidence survives only in drawings and field notes.

Contents

[edit] History

Amphicoelias fragillimus was collected by Oramel Lucas, a fossil collector employed by the paleontologist Edward Drinker Cope, shortly after he was hired by Cope in 1877. Lucas discovered a partial vertebra (the neural arch and spine) of the new sauropod species in Garden Park, north of Cañon City, Colorado, close to the the quarry that yielded Camarasaurus. The vertebra was in poor condition, but astonishingly large, measuring 1.5 m (5 ft.) in height (up to 2.7 m or 8.8 feet tall in its complete form).[1] Lucas shipped the specimen to Cope in the spring or early summer of 1878, and Cope published it as the holotype specimen (catalogue number AMNH 5777) of a new species, A. fragillimus, that August.[2] The name derives from the Greek fragillimus ("very fragile"), referring to the delicateness of the bone produced by very thin laminae (vertebral walls). As revealed in Cope's notebooks, which he recorded based on Lucas' report on excavation site locations in 1879, the specimen came from a hill south of the Camarasaurus quarry now known as "Cope's Nipple." While Cope originally wrote that the site belonged to the Dakota Formation (mid-Cretaceous in age), the presence of dinosaurs such as Camarasaurus in the same rocks indicates that they probably belong to the Morrison Formation, which places the age of the site at 150 million years ago in the late Jurassic period, specifically the Tithonian age.[3] A gigantic fossilized femur was also recovered in close proximity to the vertebra, and may have belonged to A. fragilimus.

[edit] The crumbling giant

The gigantic bones attributed to A. fragillimus have often been ignored in summaries of the largest dinosaurs partly because, according to various subsequent reports, the whereabouts of both the vertebra and the femur are unknown, and all attempts to locate them have failed.[4][2] Carpenter, in 2006, presented a possible scenario for the disappearance of the A. fragillimus specimens. As Cope noted in his description, the neural arch bone material was very fragile, and techniques to harden and preserve fossil bone had not yet been invented (Cope's rival, paleontologist O.C. Marsh, was the first to use such chemicals, in the early 1880s). Carpenter observed that the fossil bones known from the A. fragillimus quarry would have been preserved in deeply weathered mudstone, which tends to crumble easily and fragment into small, irregular cubes. Therefore, the bone may have crumbled badly and been discarded by Cope soon after he illustrated it in rear view for his paper (Carpenter suggested that this may explain why Cope drew the vertebra in only one view, rather than from multiple angles as he did for his other discoveries).

Outdated illustration of Amphicoelias by Carl Dahlgren, 1892.
Outdated illustration of Amphicoelias by Carl Dahlgren, 1892.

In 1994, an attempt was made to relocate the original quarry where A. fragillimus and other species had been found, using ground-penetrating radar in an attempt to image bones still buried in the ground. This attempt failed, due to the fact that the fossilized mudstone bones were the same density as the surrounding rock, making it impossible to differentiate the two. A study of the local topography also showed that the fossil-bearing rock strata was severely eroded, and probably was so at the time Lucas made his discovery of A. fragillimus, indicating that a majority of the skeleton was gone by the time the vertebra and femur were recovered.[1]

Carpenter (2006) also noted that, due to the extraordinary size and mysterious disappearance of the fossil, Cope's description of A. fragillimus has been met with skepticism, with some people assuming that there were typographical errors in his measurements. Carpenter argued that there is every reason to take Cope at his word, noting that the paleontologist's reputation was at stake. The discovery took place during the Bone Wars, and Cope's rival Marsh, who was "ever ready to humiliate" Cope, never called the claims into question. Marsh was known to have employed spies to monitor Cope's discoveries, and may have even had confirmation of the enormous size of the Amphicoelias fragillimus bones. Osborn and Mook (1921) and McIntosh (1998) also accepted Cope's data without question.

[edit] Description

The type species of Amphicoelias, A. altus, was named by E.D. Cope in December of 1877 (though not published until 1878) for an incomplete skeleton consisting of two vertebrae, a pubis (hip bone), and a femur (upper leg bone).[5] In 1921, Osborn and Mook assigned additional bones to A. altus--a scapula (shoulder blade), a coracoid (shoulder bone), an ulna (lower arm bone), and a tooth. Osborn and Mook noted the overall close similarity between Amphicoelias and Diplodocus, as well as a few key differences, such as proportionally longer forelimbs in Amphicoelias than in Diplodocus. The femur of Amphicoelias is unusually long, slender, and round in cross section; while this roundness was once thought to be another distinguishing characteristic of Amphicoelias, it has since been found in some specimens of Diplodocus as well.[1] A. altus was also similar in size to Diplodocus, estimated to be about 25m (82 ft) long.[6]

The second Amphicoelias species, A. fragillimus, is known only from a single, incomplete 1.5 m tall neural arch (the rear portion of a back vertebra), either last or second to last in the vertebral series, D10 or D9, that would have measured 2.7 m (8.8 ft) long in life. In addition to this single vertebra, E.D. Cope's field notes contain an entry for an "[i]mmense distal end of femur” located only a few tens of meters away from the giant vertebra, and it is likely that this undescribed leg bone belonged to the same individual animal as the neural spine.[1]

[edit] Size

Producing an estimate of the complete size of A. fragillimus requires scaling the bones of better known species of diplodocid (a family of extremely long and slender sauropods) in the assumption that their relative proportions were similar. In his original paper, Cope did this by speculating on the size of a hypothetical A. fragillimus femur (upper leg bone). Cope noticed that in other sauropod dinosaurs, specifically A. altus and Camarasaurus supremus, the femora were always twice as tall as the tallest dorsal vertebra, and estimated the size of an A. fragillimus femur to be 12 ft, or 3.6 m tall.[7] In 1994, using the related Diplodocus as a reference, Gregory S. Paul estimated a femur length of 3.1-4 m (10-13 ft) for A. fragillimus.[6] The 2006 re-evaluation of A. fragillimus by Ken Carpenter also used Diplodocus as a scale guide, finding a femur height of 4.3-4.6 m (14-15 ft).[1] Carpenter went on to estimate the complete size of A. fragillimus, though he cautioned that relative proportions in diplodocids could vary from species to species. Assuming the same proportions as the well-known Diplodocus, Carpenter presented an estimated total length of 58 m (190 ft), which he noted fell within the range presented by Paul in 1994 (40-60 m, or 131-196 ft). Carpenter pointed out that even the lowest length estimates for A. fragillimus were higher than those for other giant sauropods, such as the diplodocid Supersaurus (32.5 m, 107 ft), the brachiosaurid Sauroposeidon (34 m, 111 ft), and the titanosaur Argentinosaurus (30 m, 98 ft). Carpenter presented more speculative, specific proportions for A. fragillimus (again, based on a scaled-up Diplodocus), including a neck length of 16.75 m (55 ft), a body length of 9.25 m (30 ft), and a tail length of 32 m (105 ft). He estimated the total forelimb height at 5.75 m (19 ft) and hind limb height at 7.5 m (25 ft), and the overall height (at the highest point on the back) at 9.25 m (30 ft).[1] By comparison the blue whale, which is on average the longest living creature, reaches 30-33 m (98-110 ft) in length.

While A. fragillimus was relatively thin, its enormous size still made it very massive. Weight is much more difficult to determine than length in sauropods, as the more complex equations needed are prone to greater margins of error based on smaller variations in the overall proportions of the animal. Carpenter used Paul's 1994 estimate of the mass of Diplodocus carnegii (11.5 tons) to speculate that A. fragillimus could have weighed up to 122.4 metric tons.[1] The heaviest blue whale on record weighed about 195 tons, and the heaviest dinosaur known from reasonably good remains, the Argentinosaurus, weighed 80-100 tons, although if the size estimates can be validated, it would still be lighter than Bruhathkayosaurus, which is estimated to weigh 175-220 tons (based on a poor description of a partial fossil).

[edit] Classification

Edward Drinker Cope described his finds in two 1878 issues of the American Naturalist, and assigned them to the new genus Amphicoelias. He assigned the genus to the family Diplodocidae, though due to the fragmentary nature of the remains, some modern surveys have placed it at the base of the larger group Diplodocoidea or as a diplodocid incertae sedis (uncertain placement).[8] The first named species in the genus, Amphicoelias altus (holotype specimen AMHD 5764), was discovered by Cope in 1877. But while it is only represented by a partial skeleton, there are enough diagnostic characteristics to provisionally define the genus. A. altus is known from better remains, but is smaller than A. fragillimus. Osborn and Mook, in 1921, provisionally synonymized the two species, suggesting that "A. fragillimus" is just a very large individual of A. altus, a position McIntosh agreed with in 1998.[4][2] Carpenter (2006) disagreed, citing numerous differences in the construction of the vertebra also noted by Cope, and suggested these differences are enough to warrant a separate species or even a separate genus for A. fragillimus. However, he went on to caution that the validity of A. fragillimus as a separate species is nearly impossible to determine without the original specimen to study.

[edit] Paleobiology

In his 2006 re-evaluation, Carpenter examined the paleobiology of giant suropods, including Amphicoelias, and addresses the question of why this group attained such a huge size. He pointed out that gigantic sizes were reached early in sauropod evolution, with very large sized species present as early at the late Triassic Period, and concluded that whatever evolutionary pressure caused large size was present from the early origins of the group. Carpenter cited several studies of giant mammalian herbivores, such as elephants and rhinoceros, which showed that larger size in plant-eating animals leads to greater efficiency in digesting food. Since larger animals have longer digestive systems, food is kept in digestion for significantly longer periods of time, allowing large animals to survive on lower-quality food sources. This is especially true of animals with a large number of 'fermentation chambers' along the intestine which allow microbes to accumulate and ferment plant material, aiding digestion. Throughout their evolutionary history, sauropod dinosaurs were found primarily in semi-arid, seasonally dry environments, with a corresponding seasonal drop in the quality of food during the dry season. The environment of Amphicoelias was essentially a savanna, similar to the arid environments in which modern giant herbivores are found, supporting the idea that poor-quality food in an arid environment promotes the evolution of giant herbivores. Carpenter argued that other benefits of large size, such as relative immunity from predators, lower energy expenditure, and longer life span, are probably secondary advantages.

The Morrison Formation environment in which Amphicoelias lived would have resembled a modern savanna, though since grass did not appear until the Late Cretaceous, ferns were probably the dominant plant and main food source for Amphicoelias. Though Engelmann et al. (2004) dismissed ferns as a sauropod food source due to their relatively low caloric content, Carpenter argued that the sauropod digestive system, well adapted to handle low-quality food, allows for the consumption of ferns as a large part of the sauropod diet.[9] Carpenter also noted that the occasional presence of large petrified logs indicate the presence of 20-30 m (65-100 ft) tall trees, which would seem to conflict with the savanna comparison. However, the trees are rare, and since tall trees require more water than the savanna environment could generally provide, they probably existed in narrow tracts or 'gallery forests' along rivers and gulleys where water could accumulate. Carpenter speculated that giant herbivores like Amphicoelias may have used the shade of the gallery forests to stay cool during the day, and done most of their feeding on the open savanna at night.[1]

[edit] References

  1. ^ a b c d e f g h Carpenter, K. (2006). "Biggest of the big: a critical re-evaluation of the mega-sauropod Amphicoelias fragillimus." In Foster, J.R. and Lucas, S.G., eds., 2006, Paleontology and Geology of the Upper Jurassic Morrison Formation. New Mexico Museum of Natural History and Science Bulletin 36: 131-138.[1]
  2. ^ a b c McIntosh, J.S. (1998) "New information about the Cope collection of sauropods from Garden Park, Colorado." In Carpenter, K., Chure, D. and Kirkland, J.I., eds., The Morrison Formation: an interdisciplinary study: Modern Geology, 23: 481-506.
  3. ^ Turner, C.E., and Peterson, F. (1999) "Biostratigraphy of dinosaurs in the Upper Jurassic Morrison Formation of the Western Interior, U.S.A." In. Gillette, D., ed., Vertebrate Paleontology in Utah: Utah Geological Survey Miscellaneous Publication, 99(1): 77-114.
  4. ^ a b Osborn, H.F., and Mook, C. C. (1921). "Camarasaurus, Amphicoelias and other sauropods of Cope." Memoirs of the American Museum of Natural History NS, 3(3): 249-387.
  5. ^ Cope, E.D. (1878a). "On the Vertebrata of the Dakota Epoch of Colorado." Proceedings of the American Philosophical Society, 17: 233-247.
  6. ^ a b Paul, G.S. (1994a). "Big sauropods - really, really big sauropods." The Dinosaur Report, The Dinosaur Society, Fall, p. 12-13.
  7. ^ Cope, E.D. (1878b). "A new species of Amphicoelias." American Naturalist, XII: 563-563.[2]
  8. ^ Wilson, J.A., and Smith, M. (1996). "New remains of Amphicoelias Cope (Dinosauria: Sauropoda) from the Upper Jurassic of Montana and diplodocoid phylogeny." Journal of Vertebrate Paleontology, 16(3 Suppl.): 73A.
  9. ^ Engelmann, G.F., Chure, D.J., and Fiorillo, A.R. (2004). "The implications of a dry climate for the paleoecology of the fauna of the Upper Jurassic Morrison Formation." In Turner, C.E., Peterson, F., and Dunagan, S.P., eds., Reconstruction of the extinct ecosystem of the Upper Jurassic Morrison Formation: Sedimentary Geology, 167: 297-308

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