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Pyrotherium

January 07, 2023

Pyrotherium ('fire beast') is an extinct genus of South American ungulate, of the order Pyrotheria, that lived in what is now Argentina and Bolivia, during the Late Oligocene.[1] It was named Pyrotherium because the first specimens were excavated from an ancient volcanic ash deposit. Fossils of the genus have been found in the Deseado and Sarmiento Formations of Argentina and the Salla Formation of Bolivia.

Pyrotherium
Temporal range: Oligocene (Deseadan)
~28.4–23 Ma
P. romeroi skull in Beneski Museum of Natural History
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Pyrotheria
Family: Pyrotheriidae
Genus: Pyrotherium
Ameghino, 1888
Type species
Pyrotherium romeroi
Ameghino, 1888
Other species
  • P. macfaddeni Shockey & Daza, 2004
Synonyms
List
    • Parapyrotherium planum Ameghino, 1902
    • Pyrotherium sorondoi Ameghino, 1894
    • Pyrotherium giganteum Ameghino, 1897
    • Pyrotherium crassidens Ameghino, 1902
    • Pyrotherium planum Ameghino, 1897
    • Pyrotherium trilophodon Ameghino, 1902
    • Pyrotherium pluteum Ameghino, 1901
    • Ricardowenia mysteriosa Ameghino, 1901

So far, two valid species have been described, Pyrotherium romeroi, which lived in what it is today Argentina and P. macfaddeni from Bolivia, at the end of Oligocene. P. romeroi in particular is the most recent known pyrothere in the fossil record and best known for its fossil remains, which although incomplete are the best preserved in the entire order, indicating that they are also the largest, with an estimated body length from 2.9 to 3.6 meters (9.5 to 11.8 ft).[2] It is also supposed to have developed a small trunk,[3] but it is not related to the current elephants (proboscideans); the resemblance is so great that when studying the fossil remains, it was attributed in the past a relationship with elephants, although the true relationship of this herbivore is still controversial today.[2]

Discovery and naming

The original remains of Pyrotherium, some molars, a premolar and an incisor, were originally identified in the Neuquén province in strata dating back to the late Oligocene epoch, identified by the Argentine naturalist Florentino Ameghino as couche à Pyrotherium (layers of Pyrotherium, in French) due to the presence of fossils of this animal that were the first to be identified there;[4][5] these strata are now known as part of the Deseadan mammal-age (SALMA) in the area of the Deseado estuary, although there is the doubt whether the holotype of Pyrotherium romeroi really comes from Neuquén, it being possible that the remains actually came from Chubut.[6] Ameghino considered that these areas corresponded to older terrains, from the Paleocene[7] and even from the Cretaceous, because they were sent together with dinosaur remains;[8] subsequent studies have shown that they actually come from the Oligocene, and in fact the Pyrotherium fossils have reached become the guide fossil of the late Oligocene. Because the remains of this animal originally appeared in the volcanic ash beds of the Deseado Formation, they gave rise to the name of the genus, which means "fire beast".[9]

The name of the species P. romeroi is due to the captain of the Argentine army Antonio Romero who sent Ameghino the first known remains of the animal, although in several texts the erroneous spellings P. romeri or P. romerii has been used.[7] Ameghino named several species from the Deseado area such as P. sorondoi based on partial remains, mainly teeth, but later studies indicated that they are part of a single species.[9][10] The first relatively complete skull did not appear until the 20th century, being discovered by Frederic B. Loomis during the Amherst College expedition in 1911-1912, and listed as specimen ACM 3207.[11]

Additional remains of the genus have appeared in Quebrada Fiera, from the Mendoza province (Argentina) and in Salla, in the department of La Paz in Bolivia; the latter consist of the remains of a partial jaw, fragments of skull bones, teeth, and some limb bone such as pieces of the humerus and astragalus, which were found between the 1960s and 1980s and were initially considered part of the species P. romeroi,[12] and later they were classified as a different and smaller species, P. macfaddeni, whose species name is in honor of paleontologist Bruce J. MacFadden.[9] Molar and postcranial bone remains found in sediments from the late Oligocene of Taubaté, Brazil were considered as a possible finding of Pyrotherium,[13] but it is possible that they correspond to some different genus with which it is closely related, but not yet described.[14]

Description

Skull

 
Cast of a skull of Pyrotherium romeroi at the Museo Paleontológico 'Egidio Feruglio', Trelew.
 
Reconstructed skull of P. macfaddeni.

The skull of Pyrotherium romeroi was long and narrow, made up of massive bones. It reaches 72 centimeters (2.36 ft) in length from its front teeth to its occipital condyle, and has an elongated, relatively narrow snout seen from above, with retracted nostrils, a large nasal opening located between the eye sockets in the middle of the front bone, in parallel to the back of the skull, with thick bone walls for muscle support; inside there are cavities filled with air. The occipital region, in particular the condyles, was particularly high, as a consequence of the flexion of the posterior part of the skull with respect to the plane of the base, which formed an obtuse angle with that of the palatine bone; in this and other characteristics, Pyrotherium resembled proboscideans. There is a small ridge that emerges from the premaxilla and reaches the nasal bone, which appears to be broken and surrounded by a rough texture, which could be the result of erosion. How large it may have been is unknown, as it may have been only a prominence similar to that seen in the narial process of the notoungulates and rodents, or even almost a ridge; this ridge is not known in other mammals, but perhaps it served as a holding point for the muscles of a possible proboscis or trunk. The brain cavity (neurocranium) is damaged and surrounded by spongy bone tissue; Loomis considered that it indicated that in life P. romeroi had a small brain, about 150 millimeters (5.9 in) long and 50 millimeters (2.0 in) wide.[11] Another very distinctive feature is the presence of two pairs of large front-facing incisors, in the form of tusks and arranged at a 45° angle. These showed continuous growth and were equipped with an enamel band only on the front. It lacked canines, and it also has peculiar premolars and molars, with two transverse high ridges (bilophodonts), whose general appearance is reminiscent of tapir molars. Between the incisors and the posterior teeth there was a space without teeth, the diastema, reaching 46 millimeters (1.8 in) long. The teeth in general, and particularly the posterior ones, also occupied a lot of the skull area, particularly in the palate. The auditory region is situated much higher than the palate in lateral view and curves upwards in its posterior part.[15] In P. macfaddeni the premaxilla has an additional pair of very small alveoli, suggesting that it may have had a third pair of barely developed incisors, and their molars are distinguished by having a well-defined valley that separates the anterior and posterior lophs.[9]

The dental formula in P. romeroi is 2.0.3.31.0.2.3 × 2 = 28 (2I/0C/3PM/3M, 1i/0c/2pm/3m)[15]

The mandible was robust and had a well-developed, long and narrow symphysis extending to the second molar, a marked foramen posterior to the third molar, and a large maseteric fossa. It only has only two incisors, which protrude forward and are oriented like the upper incisors at a 45° angle, making contact with the tips of these; it has been thought that these could be the second incisors (i2), but their actual identification is uncertain. At least in P. macfaddeni have a layer of enamel that only covers the ventral part of the incisors.[9] As in the maxilla, it has bilophodont premolars and molars; the structure of the molars is reminiscent of that found in other large archaic mammals, such as dinocerates, Barytherium and deinotheriids.[15]

Postcranium

 
Illustrations of the vertebrae and the humerus of Pyrotherium romeroi.

Some postcranial bones of Pyrotherium romeroi have been recovered, mainly from the limbs. The vertebral column is very poorly known; the remains found mainly include cervical vertebrae, including the atlas, the axis and the third and fourth vertebrae, all of which are very short. Additionally, a lumbar vertebra is known, which is massive and with a reduced spine, somewhat similar to that of Astrapotherium. A fragment of the shoulder blade indicates that it was short and strong; the glenoid cavity was twice its length and the acromion was very high.[11]

The humerus is relatively short, 497 to 500 millimeters in length, but extremely wide, with great insertions for the muscles; the ulna and radius are also known, both even shorter, about 225 millimeters, and the ulna also had a large olecranon.[11] Likewise, two bones of the wrist have been identified, the right unciform and the left great, both being elements short but thick and trapezoidal in appearance.[16] A pyramidal and semilunate have also been found. Also included is an astragalus and calcaneus, and a femur.[11]

The pelvis was equipped with a massive iliac bone, with an acetabulum located downwards and not laterally. The femur lacked the third trochanter, with a straight head much higher than the greater trochanter, and was flattened anteroposteriorly; in this species it reached 630 millimeters in length, being greater than the only other femur known between the pyrotheres, the one of Baguatherium, which reached 558 millimeters.[17] The shape of the distal joint allowed the tibia to move backwards widely, which compensated for the lack of flexibility in the foot joint. The tibia was much shorter than the femur, and the fibula was very close to the tibia, except in the central part. The astragalus was strongly flattened, very simple in appearance, and neckless, with a slightly hinted tibial trochlea and a facet of the navicular located directly below the trochlea. The tarsus of Pyrotherium was characteristic: the calcaneus tubercle was compressed dorsoventrally, as was the trochlea of the astragalus; in addition, it presents an extreme reduction in the contact between the heel and the cuboid.[11] These derived characteristics, which involve a type of graviportal and plantigrade locomotion, are not found in any other known mammal, with the significant exception of the African Arsinoitherium.[9]

Phylogeny

Because Pyrotherium has the characteristic bilophodont posterior teeth (that is, with two ridges), tusks formed by its upper and lower incisors, a huge and robust body along with the possible presence of a trunk, it was proposed in the past that it was a close relative of the proboscideans, or even a member of that group (Ameghino 1895, 1897; Lydekker 1896;[18] Loomis 1914).[11] Loomis 1921[19] However, the mixture of characteristics of the animal is such that it has led to comparing and relating it at different times with other groups, such as the marsupial diprotodontids (Lydekker 1893;[20] Loomis 1921), the amblipodan pantodonts (Zittel 1893),[21] perissodactyls (Ameghino, 1888),[22] the notoungulates (Osborn 1910; Loomis 1914;[11] Scott 1913; Patterson 1977),[10] the xenungulates (Simpson 1945; Cifelli 1983; Lucas 1986, 1993), and the dinoceratans via their supposed relationship with xenungulates (Lucas 1986, 1993);[23] in some studies, the complete study of the tarsus of Pyrotherium fails to support a relationship with xenungulatans, instead the derived characteristics of Pyrotherium were not observed other than in other mammals examined except for the embrithopod Arsinoitherium from the Paleogene of Africa. If this is due to a common ancestor, or to the unusual mode of locomotion used by these animals (graviportal and plantigrade) remains a mystery to be seen.[9] However, Gaudry (1909) himself established that Pyrotherium was sufficiently different from any other group of large mammals that it should have its own order, with no clear relation to other mammals.[24] The most recent analysis published out, like the work of Billet in 2010, suggests that pyrotheres such as Pyrotherium are a group of specialized notoungulates, related to Notostylops,[15][25] although this is still a controversial idea.[2]

Cladogram based on the phylogenetic analysis of Cerdeño et al., 2017, highlighting the location of both species of Pyrotherium:[16]

Paleobiology

 
Lower jaw of Pyrotherium romeroi.

The Pyrotherium's bilophodont molariform teeth were examined to determine their dental enamel type, using an electronic microscope to examine their prisms. Examinations showed that its enamel follows a strange keyhole pattern, also known as Boyde pattern, in which the prisms are densely clustered with no interprismatic matrix between them. This type of prism in the enamel is characteristic of pyrotheres and is not known in the other orders of native South American ungulates (xenungulates, astrapotheres, litopterns, and notoungulates). In P. romeroi, the enamel also has a distinctive kind, just called "Pyrotherium's enamel" in which the enamel bands are arranged vertically with the prisms in a decoupled way (that is, forming patterns in "X").[26]

This analysis also made it possible to infer the chewing patterns of Pyrotherium. This would be dominated by the so-called phase 1, in which the mandible is tilted and directed mesially, while the cutting ridges of the molars were compressing the food bolus. Then a phase 2 was developed, in which the jaw moved laterally; this move seems to have been less significant. This type of chewing and molars resembles that observed in some other mammals, such as the Macropus kangaroos, the perissodactyl Lophiodon, the marsupial Diprotodon and the proboscidean Deinotherium, but in these animals their enamel (and molar lophs) wear out quickly into adulthood, leaving a flat surface for grinding, whereas in Pyrotherium the lophs are much more resistant and can be clearly seen even in elderly individuals, in whom the worn molars still have sharp ridges. A similar condition is only seen in embrithopods such as Arsinoitherium, which also has vertically arranged enamel and in Namatherium, which closely resembles Pyrotherium in this respect by having enamel and highly inclined enamel facets.[26]

 
Life reconstruction of P. romeroi

Due to the robust structure of the animal, it was most likely a graviportal quadruped, that is, an animal weighing more than a ton whose physical structure is prepared to support that great mass, but not for speed.[27] With a weight of 900 kg (2,000 lb) in P. macfaddeni to 3.5 t (7,700 lb) in P. romeroi based on estimates of its molars, and 600–700 kg (1,300–1,500 lb) in P. macfadeni at 1.8 to 2.7 t (4,000 to 6,000 lb) for P. romeroi with base in equations derived from the head-body ratios,[2] Pyrotherium was among the largest native mammals in South America. Its bones are extremely dense, even more than in other large meridiungulates such as the notoungulate toxodonts and astrapotheres, which implies an extreme specialization towards graviportality; X-ray microtomography analysis of the bone density of its humerus and femur indicate that its medullary area was particularly compact, almost comparable to the pachyostosis of aquatic or semiaquatic mammals, with thick trabeculae and very small intratrabecular cavities, although they resemble externally the bones of proboscideans or rhinos, which would help it better absorb the impact energy on the bones.[28] It is also inferred that its posture would have been semi-plantigrade, since the fingers of the hands would support its weight, but instead the feet they would have been plantigrade, as inferred from the ankle bones.[16]

Paleoecology

 
Restoration of the head by Robert Bruce Horsfall.

The Pyrotherium fossils recovered from both Salla, Deseado and Quebrada Fiera correspond to relatively dry environments, with xerophytic vegetation and periods of drought;[29] this would contradict the hypothesis that they were semiaquatic animals, similar to hippopotamuses, while the remains of astrapotheres (another group of large, tusked native ungulates) are in fact found in areas associated with bodies of water, which would imply that they would live in humid environments and were able to spend some time in the water.[28] Pyrotherium would have used its incisors and trunk in order to collect food such as leaves and branches of the trees, in a similar way to black rhinos and African forest elephants.[29]

Pyrotherium cohabited with several other mammals, several of them large that are typical of the Deseadan fauna of places like La Flecha in Argentina. The presence of predatory sparassodonts such as Pharsophorus, Notogale and the enormous Proborhyaena is noteworthy, and other ungulates which were mainly notoungulates, such as Trachytherus, Leontinia, Rhynchippus, Propachyrucos, Argyrohyrax, Archaeohyrax, and Prohegetotherium.[30]

References

  1. ^ Pyrotherium at Fossilworks.org
  2. ^ a b c d Croft, D. A., Gelfo, J. N., & López, G. M. (2020). "Splendid Innovation: The Extinct South American Native Ungulates". Annual Review of Earth and Planetary Sciences. 48.{{cite journal}}: CS1 maint: uses authors parameter (link)
  3. ^ Palmer, D., ed. (1999). The Marshall Illustrated Encyclopedia of Dinosaurs and Prehistoric Animals. London: Marshall Editions. p. 249. ISBN 1-84028-152-9.
  4. ^ Ameghino, F. 1894. Première contribution à la conaissance de la faune mammalogique des couches à Pyrotherium. Boletín del Instituto Geográfico Argentino 15: 603–660.
  5. ^ Ameghino C. 1914. Le Pyrotheríum, I'étage Pyrothéréen et les couches á Notostylops. Une response á Mr. Loomis. Physis, 1: 446-460.
  6. ^ Kramarz, A. G., Forasiepi, A. M., & Bond, M. (2011). Vertebrados cenozoicos. In Relatorio del XVIII Congreso Geológico Argentino. Geología y Recursos Naturales de la Provincia del Neuquén (pp. 557-572). Buenos Aires: Asociación Geológica Argentina.
  7. ^ a b Ameghino, F. 1889. Contribución al conocimiento de los mamíferos fósiles de la República Argentina, obra escrita bajo los auspicios de la Academia Nacional de Ciencias de la República Argentina para presentarla a la Exposición Universal de París de 1889. Actas Academia de Ciencias de Córdoba 6:1–1027.
  8. ^ F. Ameghino. 1897. Mammiféres crétacés de l’Argentine (Deuxième contribution à la connaissance de la fauna mammalogique de couches à Pyrotherium) [Cretaceous mammals of Argentina (second contribution to the knowledge of the mammalian fauna of the Pyrotherium Beds)]. Boletín Instituto Geográfico Argentino 18(4–9):406-521
  9. ^ a b c d e f g Shockey, B.J. & Anaya, F. (2004). "Pyrotherium macfaddeni, sp. nov. (Late Oligocene, Bolivia) and the pedal morphology of pyrotheres". Journal of Vertebrate Paleontology. 24 (2): 481–488. doi:10.1671/2521. S2CID 83680724.
  10. ^ a b Patterson, B. 1977. A primitive pyrothere (Mammalia, Notoungulata) from the Early Tertiary of Northwestern Venezuela. Fieldiana, Geology 33: 397–422.
  11. ^ a b c d e f g h Loomis, F.B. 1914. The Deseado Formation of Patagonia. Amherst College, Amherst, 232659 p.
  12. ^ MacFadden BJ, Frailey CD (1984) Pyrotherium, a large enigmatic ungulate (Mammalia, incertae sedis) from the Deseadan (Oligocene) of Salla, Bolivia. Palaeontol 27:867–874
  13. ^ Couto-Ribeiro, G. and Alvarenga, H. 2009. Primeiro registro de dentes de Pyrotherium para a Formação Tremembé, Bacia de Taubaté, SP. Reunião Anual da Sociedade Brasileira de Paleontologia. Núcleo São Paulo. Abstracts: 21.
  14. ^ Ribeiro, G. D. C. Osteologia de Taubatherium paulacoutoi Soria & Alvarenga, 1989 (Notoungulata, Leontiniidae) e de um novo Pyrotheria: dois mamíferos fósseis da Formação Tremembé, Brasil (SALMA Deseadense-Oligoceno Superior). (Doctoral dissertation, Universidade de São Paulo).
  15. ^ a b c d Billet, G. 2010. New observations on the skull of Pyrotherium (Pyrotheria, Mammalia) and new phylogenetic hypotheses on South American ungulates. Journal of Mammalian Evolution 17: 21–59.
  16. ^ a b c Cerdeño, E., & Vera, B. (2017). New Anatomical Data on Pyrotherium (Pyrotheriidae) from the Late Oligocene of Mendoza, Argentina. Ameghiniana, 54(3), 290-306.
  17. ^ Salas, R., Sánchez, J. and Chacaltana, C. 2006. A new pre-Deseadan pyrothere (Mammalia) from Northern Peru and the wear facets of molariform teeth of Pyrotheria. Journal of Vertebrate Paleontology 26: 760–769.
  18. ^ Lydekker, R. 1896. A Geographical History of Mammals. Cambridge University Press, Cambridge, 400 pp.
  19. ^ Loomis, F. B. 1921. Origin of South American faunas. Bulletin of the Geological Society of America. 32:187–196.
  20. ^ Lydekker, R. 1894. Contribuciones al conocimiento de los vertebrados fósiles de Argentina. 1. Observaciones adicionales sobre los ungulados argentinos. Anales del Museo de La Plata 2: 1–91
  21. ^ Zittel, K. A. 1893. Handbuch der Palaeontologie. IV. Band: Vertebrata (Mammalia). Druck und verlan von R. Oldenbourg, Munchen und Leipzig.
  22. ^ Ameghino, F. 1888. Rápidas diagnosis de algunos mamíferos fósiles nuevos de la República Argentina. P.E. Coni, Ed., Buenos Aires, 17 p.
  23. ^ Spencer, L. (1986). Pyrothere sistematics and a caribbean route for land-mammal dispersal during the Paleocene. Revista Geológica de América Central.
  24. ^ Gaudry, A. 1909. Fossiles de Patagonie: le Pyrotherium. Annales de Paléontologie 4:1–28.
  25. ^ Billet, G. 2011. Phylogeny of the Notoungulata (Mammalia) based on cranial and dental characters. Journal of Systematic Palaeontology 9: 481–497.
  26. ^ a b Koenigswald, W 647 . von, Martin, T. and Billet, G. 2015. Enamel microstructure and mastication in Pyrotherium romeroi (Pyrotheria, Mammalia). Paläontologische Zeitschrift 89: 611–634.
  27. ^ Johnson, S. C. (1984). Astrapotheres from the Miocene of Colombia, South America. University of California, Berkeley.
  28. ^ a b Houssaye, A., Fernández, V., and Billet, G. 2016. Hyperspecialization in some South American endemic ungulates revealed by long bone microstructure. Journal of Mammalian Evolution 23: 221–235.
  29. ^ a b Croft, D. A. (2016). Horned armadillos and rafting monkeys: the fascinating fossil mammals of South America. Indiana University Press.
  30. ^ Marani, H. A. (2005). Los Rhynchippinae de Edad Mamífero Deseadense de la Localidad Cabeza Blanca. Doctoral dissertation, Universidad Nacional de la Patagonia San Juan Bosco, Chubut-Argentina.

Bibliography

  • F. Ameghino. 1894. Sur les oiseaux fossiles de Patagonie; et la faune mammalogique des couches à Pyrotherium. Boletín del Instituto Geographico Argentino 15:501-660
  • F. Ameghino. 1901. Notices préliminaires sur des ongulés nouveaux des terrains crétacés de Patagonie [Preliminary notes on new ungulates from the Cretaceous terrains of Patagonia]. Boletín de la Academia Nacional de Ciencias de Córdoba 16:349-429


January 07, 2023
pyrotherium, fire, beast, extinct, genus, south, american, ungulate, order, pyrotheria, that, lived, what, argentina, bolivia, during, late, oligocene, named, because, first, specimens, were, excavated, from, ancient, volcanic, deposit, fossils, genus, have, b. Pyrotherium fire beast is an extinct genus of South American ungulate of the order Pyrotheria that lived in what is now Argentina and Bolivia during the Late Oligocene 1 It was named Pyrotherium because the first specimens were excavated from an ancient volcanic ash deposit Fossils of the genus have been found in the Deseado and Sarmiento Formations of Argentina and the Salla Formation of Bolivia PyrotheriumTemporal range Oligocene Deseadan 28 4 23 Ma PreꞒ Ꞓ O S D C P T J K Pg NP romeroi skull in Beneski Museum of Natural HistoryScientific classificationKingdom AnimaliaPhylum ChordataClass MammaliaOrder PyrotheriaFamily PyrotheriidaeGenus PyrotheriumAmeghino 1888Type species Pyrotherium romeroiAmeghino 1888Other species P macfaddeni Shockey amp Daza 2004SynonymsList Parapyrotherium planum Ameghino 1902 Pyrotherium sorondoi Ameghino 1894 Pyrotherium giganteum Ameghino 1897 Pyrotherium crassidens Ameghino 1902 Pyrotherium planum Ameghino 1897 Pyrotherium trilophodon Ameghino 1902 Pyrotherium pluteum Ameghino 1901 Ricardowenia mysteriosa Ameghino 1901So far two valid species have been described Pyrotherium romeroi which lived in what it is today Argentina and P macfaddeni from Bolivia at the end of Oligocene P romeroi in particular is the most recent known pyrothere in the fossil record and best known for its fossil remains which although incomplete are the best preserved in the entire order indicating that they are also the largest with an estimated body length from 2 9 to 3 6 meters 9 5 to 11 8 ft 2 It is also supposed to have developed a small trunk 3 but it is not related to the current elephants proboscideans the resemblance is so great that when studying the fossil remains it was attributed in the past a relationship with elephants although the true relationship of this herbivore is still controversial today 2 Contents 1 Discovery and naming 2 Description 2 1 Skull 2 2 Postcranium 3 Phylogeny 4 Paleobiology 5 Paleoecology 6 References 7 BibliographyDiscovery and naming EditThe original remains of Pyrotherium some molars a premolar and an incisor were originally identified in the Neuquen province in strata dating back to the late Oligocene epoch identified by the Argentine naturalist Florentino Ameghino as couche a Pyrotherium layers of Pyrotherium in French due to the presence of fossils of this animal that were the first to be identified there 4 5 these strata are now known as part of the Deseadan mammal age SALMA in the area of the Deseado estuary although there is the doubt whether the holotype of Pyrotherium romeroi really comes from Neuquen it being possible that the remains actually came from Chubut 6 Ameghino considered that these areas corresponded to older terrains from the Paleocene 7 and even from the Cretaceous because they were sent together with dinosaur remains 8 subsequent studies have shown that they actually come from the Oligocene and in fact the Pyrotherium fossils have reached become the guide fossil of the late Oligocene Because the remains of this animal originally appeared in the volcanic ash beds of the Deseado Formation they gave rise to the name of the genus which means fire beast 9 The name of the species P romeroi is due to the captain of the Argentine army Antonio Romero who sent Ameghino the first known remains of the animal although in several texts the erroneous spellings P romeri or P romerii has been used 7 Ameghino named several species from the Deseado area such as P sorondoi based on partial remains mainly teeth but later studies indicated that they are part of a single species 9 10 The first relatively complete skull did not appear until the 20th century being discovered by Frederic B Loomis during the Amherst College expedition in 1911 1912 and listed as specimen ACM 3207 11 Additional remains of the genus have appeared in Quebrada Fiera from the Mendoza province Argentina and in Salla in the department of La Paz in Bolivia the latter consist of the remains of a partial jaw fragments of skull bones teeth and some limb bone such as pieces of the humerus and astragalus which were found between the 1960s and 1980s and were initially considered part of the species P romeroi 12 and later they were classified as a different and smaller species P macfaddeni whose species name is in honor of paleontologist Bruce J MacFadden 9 Molar and postcranial bone remains found in sediments from the late Oligocene of Taubate Brazil were considered as a possible finding of Pyrotherium 13 but it is possible that they correspond to some different genus with which it is closely related but not yet described 14 Description EditSkull Edit Cast of a skull of Pyrotherium romeroi at the Museo Paleontologico Egidio Feruglio Trelew Reconstructed skull of P macfaddeni The skull of Pyrotherium romeroi was long and narrow made up of massive bones It reaches 72 centimeters 2 36 ft in length from its front teeth to its occipital condyle and has an elongated relatively narrow snout seen from above with retracted nostrils a large nasal opening located between the eye sockets in the middle of the front bone in parallel to the back of the skull with thick bone walls for muscle support inside there are cavities filled with air The occipital region in particular the condyles was particularly high as a consequence of the flexion of the posterior part of the skull with respect to the plane of the base which formed an obtuse angle with that of the palatine bone in this and other characteristics Pyrotherium resembled proboscideans There is a small ridge that emerges from the premaxilla and reaches the nasal bone which appears to be broken and surrounded by a rough texture which could be the result of erosion How large it may have been is unknown as it may have been only a prominence similar to that seen in the narial process of the notoungulates and rodents or even almost a ridge this ridge is not known in other mammals but perhaps it served as a holding point for the muscles of a possible proboscis or trunk The brain cavity neurocranium is damaged and surrounded by spongy bone tissue Loomis considered that it indicated that in life P romeroi had a small brain about 150 millimeters 5 9 in long and 50 millimeters 2 0 in wide 11 Another very distinctive feature is the presence of two pairs of large front facing incisors in the form of tusks and arranged at a 45 angle These showed continuous growth and were equipped with an enamel band only on the front It lacked canines and it also has peculiar premolars and molars with two transverse high ridges bilophodonts whose general appearance is reminiscent of tapir molars Between the incisors and the posterior teeth there was a space without teeth the diastema reaching 46 millimeters 1 8 in long The teeth in general and particularly the posterior ones also occupied a lot of the skull area particularly in the palate The auditory region is situated much higher than the palate in lateral view and curves upwards in its posterior part 15 In P macfaddeni the premaxilla has an additional pair of very small alveoli suggesting that it may have had a third pair of barely developed incisors and their molars are distinguished by having a well defined valley that separates the anterior and posterior lophs 9 The dental formula in P romeroi is 2 0 3 3 1 0 2 3 2 28 2I 0C 3PM 3M 1i 0c 2pm 3m 15 The mandible was robust and had a well developed long and narrow symphysis extending to the second molar a marked foramen posterior to the third molar and a large maseteric fossa It only has only two incisors which protrude forward and are oriented like the upper incisors at a 45 angle making contact with the tips of these it has been thought that these could be the second incisors i2 but their actual identification is uncertain At least in P macfaddeni have a layer of enamel that only covers the ventral part of the incisors 9 As in the maxilla it has bilophodont premolars and molars the structure of the molars is reminiscent of that found in other large archaic mammals such as dinocerates Barytherium and deinotheriids 15 Postcranium Edit Illustrations of the vertebrae and the humerus of Pyrotherium romeroi Some postcranial bones of Pyrotherium romeroi have been recovered mainly from the limbs The vertebral column is very poorly known the remains found mainly include cervical vertebrae including the atlas the axis and the third and fourth vertebrae all of which are very short Additionally a lumbar vertebra is known which is massive and with a reduced spine somewhat similar to that of Astrapotherium A fragment of the shoulder blade indicates that it was short and strong the glenoid cavity was twice its length and the acromion was very high 11 The humerus is relatively short 497 to 500 millimeters in length but extremely wide with great insertions for the muscles the ulna and radius are also known both even shorter about 225 millimeters and the ulna also had a large olecranon 11 Likewise two bones of the wrist have been identified the right unciform and the left great both being elements short but thick and trapezoidal in appearance 16 A pyramidal and semilunate have also been found Also included is an astragalus and calcaneus and a femur 11 The pelvis was equipped with a massive iliac bone with an acetabulum located downwards and not laterally The femur lacked the third trochanter with a straight head much higher than the greater trochanter and was flattened anteroposteriorly in this species it reached 630 millimeters in length being greater than the only other femur known between the pyrotheres the one of Baguatherium which reached 558 millimeters 17 The shape of the distal joint allowed the tibia to move backwards widely which compensated for the lack of flexibility in the foot joint The tibia was much shorter than the femur and the fibula was very close to the tibia except in the central part The astragalus was strongly flattened very simple in appearance and neckless with a slightly hinted tibial trochlea and a facet of the navicular located directly below the trochlea The tarsus of Pyrotherium was characteristic the calcaneus tubercle was compressed dorsoventrally as was the trochlea of the astragalus in addition it presents an extreme reduction in the contact between the heel and the cuboid 11 These derived characteristics which involve a type of graviportal and plantigrade locomotion are not found in any other known mammal with the significant exception of the African Arsinoitherium 9 Phylogeny EditBecause Pyrotherium has the characteristic bilophodont posterior teeth that is with two ridges tusks formed by its upper and lower incisors a huge and robust body along with the possible presence of a trunk it was proposed in the past that it was a close relative of the proboscideans or even a member of that group Ameghino 1895 1897 Lydekker 1896 18 Loomis 1914 11 Loomis 1921 19 However the mixture of characteristics of the animal is such that it has led to comparing and relating it at different times with other groups such as the marsupial diprotodontids Lydekker 1893 20 Loomis 1921 the amblipodan pantodonts Zittel 1893 21 perissodactyls Ameghino 1888 22 the notoungulates Osborn 1910 Loomis 1914 11 Scott 1913 Patterson 1977 10 the xenungulates Simpson 1945 Cifelli 1983 Lucas 1986 1993 and the dinoceratans via their supposed relationship with xenungulates Lucas 1986 1993 23 in some studies the complete study of the tarsus of Pyrotherium fails to support a relationship with xenungulatans instead the derived characteristics of Pyrotherium were not observed other than in other mammals examined except for the embrithopod Arsinoitherium from the Paleogene of Africa If this is due to a common ancestor or to the unusual mode of locomotion used by these animals graviportal and plantigrade remains a mystery to be seen 9 However Gaudry 1909 himself established that Pyrotherium was sufficiently different from any other group of large mammals that it should have its own order with no clear relation to other mammals 24 The most recent analysis published out like the work of Billet in 2010 suggests that pyrotheres such as Pyrotherium are a group of specialized notoungulates related to Notostylops 15 25 although this is still a controversial idea 2 Cladogram based on the phylogenetic analysis of Cerdeno et al 2017 highlighting the location of both species of Pyrotherium 16 Notoungulata NotostylopsPyrotheria ColombitheriumProticiaCarolozitteliaBaguatheriumGriphodonPropyrotheriumPyrotherium romeroiPyrotherium mcfaddeniPaleobiology Edit Lower jaw of Pyrotherium romeroi The Pyrotherium s bilophodont molariform teeth were examined to determine their dental enamel type using an electronic microscope to examine their prisms Examinations showed that its enamel follows a strange keyhole pattern also known as Boyde pattern in which the prisms are densely clustered with no interprismatic matrix between them This type of prism in the enamel is characteristic of pyrotheres and is not known in the other orders of native South American ungulates xenungulates astrapotheres litopterns and notoungulates In P romeroi the enamel also has a distinctive kind just called Pyrotherium s enamel in which the enamel bands are arranged vertically with the prisms in a decoupled way that is forming patterns in X 26 This analysis also made it possible to infer the chewing patterns of Pyrotherium This would be dominated by the so called phase 1 in which the mandible is tilted and directed mesially while the cutting ridges of the molars were compressing the food bolus Then a phase 2 was developed in which the jaw moved laterally this move seems to have been less significant This type of chewing and molars resembles that observed in some other mammals such as the Macropus kangaroos the perissodactyl Lophiodon the marsupial Diprotodon and the proboscidean Deinotherium but in these animals their enamel and molar lophs wear out quickly into adulthood leaving a flat surface for grinding whereas in Pyrotherium the lophs are much more resistant and can be clearly seen even in elderly individuals in whom the worn molars still have sharp ridges A similar condition is only seen in embrithopods such as Arsinoitherium which also has vertically arranged enamel and in Namatherium which closely resembles Pyrotherium in this respect by having enamel and highly inclined enamel facets 26 Life reconstruction of P romeroi Due to the robust structure of the animal it was most likely a graviportal quadruped that is an animal weighing more than a ton whose physical structure is prepared to support that great mass but not for speed 27 With a weight of 900 kg 2 000 lb in P macfaddeni to 3 5 t 7 700 lb in P romeroi based on estimates of its molars and 600 700 kg 1 300 1 500 lb in P macfadeni at 1 8 to 2 7 t 4 000 to 6 000 lb for P romeroi with base in equations derived from the head body ratios 2 Pyrotherium was among the largest native mammals in South America Its bones are extremely dense even more than in other large meridiungulates such as the notoungulate toxodonts and astrapotheres which implies an extreme specialization towards graviportality X ray microtomography analysis of the bone density of its humerus and femur indicate that its medullary area was particularly compact almost comparable to the pachyostosis of aquatic or semiaquatic mammals with thick trabeculae and very small intratrabecular cavities although they resemble externally the bones of proboscideans or rhinos which would help it better absorb the impact energy on the bones 28 It is also inferred that its posture would have been semi plantigrade since the fingers of the hands would support its weight but instead the feet they would have been plantigrade as inferred from the ankle bones 16 Paleoecology Edit Restoration of the head by Robert Bruce Horsfall The Pyrotherium fossils recovered from both Salla Deseado and Quebrada Fiera correspond to relatively dry environments with xerophytic vegetation and periods of drought 29 this would contradict the hypothesis that they were semiaquatic animals similar to hippopotamuses while the remains of astrapotheres another group of large tusked native ungulates are in fact found in areas associated with bodies of water which would imply that they would live in humid environments and were able to spend some time in the water 28 Pyrotherium would have used its incisors and trunk in order to collect food such as leaves and branches of the trees in a similar way to black rhinos and African forest elephants 29 Pyrotherium cohabited with several other mammals several of them large that are typical of the Deseadan fauna of places like La Flecha in Argentina The presence of predatory sparassodonts such as Pharsophorus Notogale and the enormous Proborhyaena is noteworthy and other ungulates which were mainly notoungulates such as Trachytherus Leontinia Rhynchippus Propachyrucos Argyrohyrax Archaeohyrax and Prohegetotherium 30 References Edit Paleontology portal Pyrotherium at Fossilworks org a b c d Croft D A Gelfo J N amp Lopez G M 2020 Splendid Innovation The Extinct South American Native Ungulates Annual Review of Earth and Planetary Sciences 48 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint uses authors parameter link Palmer D ed 1999 The Marshall Illustrated Encyclopedia of Dinosaurs and Prehistoric Animals London Marshall Editions p 249 ISBN 1 84028 152 9 Ameghino F 1894 Premiere contribution a la conaissance de la faune mammalogique des couches a Pyrotherium Boletin del Instituto Geografico Argentino 15 603 660 Ameghino C 1914 Le Pyrotherium I etage Pyrothereen et les couches a Notostylops Une response a Mr Loomis Physis 1 446 460 Kramarz A G Forasiepi A M amp Bond M 2011 Vertebrados cenozoicos In Relatorio del XVIII Congreso Geologico Argentino Geologia y Recursos Naturales de la Provincia del Neuquen pp 557 572 Buenos Aires Asociacion Geologica Argentina a b Ameghino F 1889 Contribucion al conocimiento de los mamiferos fosiles de la Republica Argentina obra escrita bajo los auspicios de la Academia Nacional de Ciencias de la Republica Argentina para presentarla a la Exposicion Universal de Paris de 1889 Actas Academia de Ciencias de Cordoba 6 1 1027 F Ameghino 1897 Mammiferes cretaces de l Argentine Deuxieme contribution a la connaissance de la fauna mammalogique de couches a Pyrotherium Cretaceous mammals of Argentina second contribution to the knowledge of the mammalian fauna of the Pyrotherium Beds Boletin Instituto Geografico Argentino 18 4 9 406 521 a b c d e f g Shockey B J amp Anaya F 2004 Pyrotherium macfaddeni sp nov Late Oligocene Bolivia and the pedal morphology of pyrotheres Journal of Vertebrate Paleontology 24 2 481 488 doi 10 1671 2521 S2CID 83680724 a b Patterson B 1977 A primitive pyrothere Mammalia Notoungulata from the Early Tertiary of Northwestern Venezuela Fieldiana Geology 33 397 422 a b c d e f g h Loomis F B 1914 The Deseado Formation of Patagonia Amherst College Amherst 232659 p MacFadden BJ Frailey CD 1984 Pyrotherium a large enigmatic ungulate Mammalia incertae sedis from the Deseadan Oligocene of Salla Bolivia Palaeontol 27 867 874 Couto Ribeiro G and Alvarenga H 2009 Primeiro registro de dentes de Pyrotherium para a Formacao Tremembe Bacia de Taubate SP Reuniao Anual da Sociedade Brasileira de Paleontologia Nucleo Sao Paulo Abstracts 21 Ribeiro G D C Osteologia deTaubatherium paulacoutoiSoria amp Alvarenga 1989 Notoungulata Leontiniidae e de um novo Pyrotheria dois mamiferos fosseis da Formacao Tremembe Brasil SALMA Deseadense Oligoceno Superior Doctoral dissertation Universidade de Sao Paulo a b c d Billet G 2010 New observations on the skull of Pyrotherium Pyrotheria Mammalia and new phylogenetic hypotheses on South American ungulates Journal of Mammalian Evolution 17 21 59 a b c Cerdeno E amp Vera B 2017 New Anatomical Data on Pyrotherium Pyrotheriidae from the Late Oligocene of Mendoza Argentina Ameghiniana 54 3 290 306 Salas R Sanchez J and Chacaltana C 2006 A new pre Deseadan pyrothere Mammalia from Northern Peru and the wear facets of molariform teeth of Pyrotheria Journal of Vertebrate Paleontology 26 760 769 Lydekker R 1896 A Geographical History of Mammals Cambridge University Press Cambridge 400 pp Loomis F B 1921 Origin of South American faunas Bulletin of the Geological Society of America 32 187 196 Lydekker R 1894 Contribuciones al conocimiento de los vertebrados fosiles de Argentina 1 Observaciones adicionales sobre los ungulados argentinos Anales del Museo de La Plata 2 1 91 Zittel K A 1893 Handbuch der Palaeontologie IV Band Vertebrata Mammalia Druck und verlan von R Oldenbourg Munchen und Leipzig Ameghino F 1888 Rapidas diagnosis de algunos mamiferos fosiles nuevos de la Republica Argentina P E Coni Ed Buenos Aires 17 p Spencer L 1986 Pyrothere sistematics and a caribbean route for land mammal dispersal during the Paleocene Revista Geologica de America Central Gaudry A 1909 Fossiles de Patagonie le Pyrotherium Annales de Paleontologie 4 1 28 Billet G 2011 Phylogeny of the Notoungulata Mammalia based on cranial and dental characters Journal of Systematic Palaeontology 9 481 497 a b Koenigswald W 647 von Martin T and Billet G 2015 Enamel microstructure and mastication in Pyrotherium romeroi Pyrotheria Mammalia Palaontologische Zeitschrift 89 611 634 Johnson S C 1984 Astrapotheres from the Miocene of Colombia South America University of California Berkeley a b Houssaye A Fernandez V and Billet G 2016 Hyperspecialization in some South American endemic ungulates revealed by long bone microstructure Journal of Mammalian Evolution 23 221 235 a b Croft D A 2016 Horned armadillos and rafting monkeys the fascinating fossil mammals of South America Indiana University Press Marani H A 2005 Los Rhynchippinae de Edad Mamifero Deseadense de la Localidad Cabeza Blanca Doctoral dissertation Universidad Nacional de la Patagonia San Juan Bosco Chubut Argentina Bibliography EditF Ameghino 1894 Sur les oiseaux fossiles de Patagonie et la faune mammalogique des couches a Pyrotherium Boletin del Instituto Geographico Argentino 15 501 660 F Ameghino 1901 Notices preliminaires sur des ongules nouveaux des terrains cretaces de Patagonie Preliminary notes on new ungulates from the Cretaceous terrains of Patagonia Boletin de la Academia Nacional de Ciencias de Cordoba 16 349 429 Retrieved from https en wikipedia org w index php title Pyrotherium amp oldid 1115142979, wikipedia, wiki, book, books, library,

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