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Homotherium

May 03, 2024

Homotherium is an extinct genus of machairodontine scimitar-toothed cat that inhabited North America, South America, Eurasia, and Africa during the Pliocene and Pleistocene epochs from around 4 million to 12,000 years ago.[1][2] In comparison to Smilodon, the canines of Homotherium were shorter, and it was probably adapted to running down rather than ambushing prey.

Homotherium
Temporal range: Early Pliocene to Late Pleistocene, 4–0.012 Ma[1]
Skeleton of H. serum from Friesenhahn cave, Texas Memorial Museum, University of Texas at Austin, Austin, Texas.
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Carnivora
Suborder: Feliformia
Family: Felidae
Subfamily: Machairodontinae
Tribe: Homotherini
Genus: Homotherium
Fabrini, 1890
Type species
Homotherium latidens
Owen, 1846
Other species
  • Homotherium ischyrus (Merriam, 1905)
  • Homotherium serum (Cope, 1893)
  • Homotherium venezuelensis Rincón et al., 2011
Synonyms
  • Dinobastis Cope, 1893

History and taxonomy edit

Eurasia edit

 
 
Cast of the fossil skulls of H. latidens (left) and H. serum (right).

The first fossils of this genus were described in 1846 by Richard Owen as the species Machairodus latidens.[3] The name Homotherium (Greek: ὁμός (homos, 'same') and θηρίον (therion, 'beast')) was proposed by Emilio Fabrini (1890), without further explanation, for a new subgenus of Machairodus, whose main distinguishing feature was the presence of a large diastema between the two inferior premolars. He further described two species in this new subgenus: Machairodus (Megantereon) crenatidens and Machairodus (Megantereon) nestianus.[4] In 1918, the species Homotherium moravicum was described by Woldřich.[5] In 1936, Teilhard de Chardin described the new species Homotherium ultimus based on fossils from the middle Pleistocene-aged site at Zhoukoudian.[6] In 1972, a species Homotherium davitašvlii was described based on fragmentary material found at Kvabebi in Georgia.[7] Further material from Odessa was tentatively assigned to this species in 2004.[8] In 1986, the species Homotherium darvasicum was described based on material from Kuruksay, Turkey.[9] In 1989, another species Homotherium tielhardipiveteaui was named based on fossils from Tajikistan.[10] In 1996, Homotherium hengduanshanense was described based on fossils from the Hengduan Mountains.[11]

There is currently only one recognised species Homotherium in Eurasia during the Late Pliocene-Pleistocene, Homotherium latidens; other species, including H. nestianus, H. sainzelli, H. crenatidens, H. nihowanensis, and H. ultimum, were proposed mainly on size differences, and do not appear to be distinct.[12]

Africa edit

In 1972 a species Homotherium problematicum (originally Megantereon problematicus) was named based on fragmentary material from Africa.[13] A second African species discovered in Ethiopia, Homotherium hadarensis, was described in 1988.[14] In 1990, Alan Turner challenged the validity of these two species, and later authors typically refrained from referring the African fossils to any specific species.[12] Although in 2015, further material from Dikika was tentatively referred to H. hadarensis.[15]

A third species, Homotherium africanum (originally Machairodus africanus), has also been included.[16][17][18]

Americas edit

In 1905, Merriam described a new species Machaerodus ischyrus.[19] Subsequently, in 1918, Merriam reassigned it to a new genus Ischyrosmilus along with the new species Ischyrosmilus idahoensis.[20] The genus Dinobastis was originally named by Cope in 1893, with the type species Dinobastis serus.[21] In 1965, the species Ischyrosmilus johnstoni was described. In the same paper, it was noted that a comparative study of both Ischyrosmilus and Homotherium might conclude them as synonyms.[22]

In 1966, Churcher named Dinobastis a junior synonym of Homotherium, and recombined D. serus as Homotherium serum.[23] In 1970, a new species Ischyrosmilus crusafonti was described from the early Pleistocene of Nebraska.[24] In 1988, after some debate, the genus Ischyrosmilus was declared a junior synonym of Homotherium and all four species were reassigned to that genus as H. ischyrus, H. idahoensis, and H. johnstoni. The same paper also proposed keeping Dinobastis serus separate from Homotherium.[25] Up to five species have been recognised from North America: H. idahoensis, H. crusafonti, H. ischyrus, H. johnstoni, and H. serum,[26] while other authors suggest that there are only two species, with older Blancan specimens are assigned to the species H. ischyrus, while the younger ones are assigned to the species H. serum.[12]

In 2005, a new species Homotherium venezuelensis was described based on fossils from the Pleistocene of Venezuela.[27] In 2022, it was proposed that Homotherium venezuelensis be reassigned to the genus Xenosmilus.[28]

Evolutionary history edit

The lineage of Homotherium is estimated (based on mitochondrial DNA sequences) to have diverged from that of Smilodon about 18 million years ago.[29] Homotherium has been suggested to have originated from African species of the genus Amphimachairodus.[30] Homotherium first appeared during the Early Pliocene, about 4 million years ago, with its oldest remains being from the Odesa catacombs in Ukraine, and Koobi Fora in Kenya, which are close in age, making the origin location of the genus uncertain. The genus arrived in North America during the late Pliocene.[12] Specimens of Homotherium are known from Venezuela in northern South America, of an uncertain Early-Middle Pleistocene age.[31] On the African continent the genus disappeared about 1.5 million years ago, during the Early Pleistocene.[32] Homotherium was formerly thought to have become extinct in Eurasia during the late Middle Pleistocene, around 300,000 years ago, until the discovery of a single jaw bone from the North Sea which dates to around 28-30,000 years ago.[33] The mitochondrial genome of this specimen is nearly identical to specimens known from North America, suggesting that this may have represented a Late Pleistocene dispersal from North America, rather than a continuous undocumented occupation of the region.[29] Homotherium became extinct in North America around 12,000 years ago as part of the Quaternary extinction event along with most other large mammals in the Americas.[34]

Description edit

 
H. serum size comparison

Homotherium reached 1.1 m (3 ft 7 in) at the shoulder and weighed an estimated 190 kg (420 lb) and was therefore about the size of a male lion.[35][36] Homotherium had shorter upper canines than other machariodonts such as Smilodon or Megantereon, but these were still longer than those of extant cats. The incisors and lower canines of Homotherium formed a powerful puncturing and gripping device, and its large canine teeth were crenulated. The jaws of Homotherium may have been adapted to clamp and hold prey while inflicting damage with the canine teeth, due to comparable amounts of trabecular bone present in skulls of the genus to those of the modern lion.[37]

 
H. venezuelensis skeleton

The large upper canines of Homotherium were likely hidden by the upper lips and gum tissues of the lower lips jaw similar to extant cats, unlike the larger upper canines of Smilodon. This hypothesis is further supported by comparable space between the canines and mandible at full closure of the jaws to modern cats; while Smilodon has significantly more space in this respect, likely for soft tissue to fit between the canine and mandible.[38]

The visual cortex in the brain of Homotherium was large and complex, similar to the modern cheetah, implying that it relied heavily on vision during the hunt.[citation needed]

Diet and habitats edit

 
H. serum restoration

The decline of Homotherium could be a result of the disappearance of large herbivorous mammals like mammoths in America at the end of the Pleistocene[citation needed]. In North America fossil remains of Homotherium are less abundant than those of its contemporary Smilodon[citation needed]. For the most part it probably inhabited higher latitudes and altitudes and therefore was likely to be well adapted to the colder conditions of the mammoth steppe environment[citation needed]. The reduced claws, relatively slender limbs, and sloping back all appear to be adaptations for endurance running in open habitats.[39]

Genomic analysis supports the hypothesis that Homotherium was social and well-adapted to life as a pursuit predator. The study also revealed that this genus of machairodont was most likely diurnal, and would have mainly hunted in daylight.[40]

African Homotherium species seem to have hunted early Pleistocene species of Deinotherium, likely preferring to target the more vulnerable adolescents or calves in a herd. Due to their saber-teeth, an attack on such thick-skinned prey would have likely been significantly easier and less time-consuming compared to a similar hunt on modern elephants by lions.[41]

At the well known Friesenhahn Cave site in Texas, the remains of almost 400 juvenile mammoths were discovered along with numerous Homotherium skeletons of all ages, from elderly specimens to cubs. Based on this fossil site, Homotherium was likely a social predator that would have been specialized in hunting young mammoths and that subsequently dragged the kills into secluded caves to eat in relative peace. Homotherium also seemed to have retained the excellent nocturnal vision typical of most cats, and hunting at night in the arctic regions where many Homotherium have been found would have been a prime hunting method.[42] The sloped back and powerful lumbar section of Homotherium's vertebrae suggest a bear-like build, and thus that these animals could have been capable of pulling formidable loads; further, broken upper canines - a common injury in fossils of other machairodonts such as Machairodus and Smilodon that would have resulted from struggling with their prey - is not seen in Homotherium, perhaps because their social groups would completely restrain prey items before any of the cats attempted to kill the target with their saber teeth. Moreover, the bones of the young mammoths found in Friesenhahn Cave show distinctive marks matching the incisors of Homotherium, indicating that they could efficiently process most of the meat on a carcass and that the mammoths had been deposited in the caves by the cats themselves and not by scavengers. Examination of the bones also indicates that the carcasses of these juvenile mammoths were dismembered after being killed by the cats before being dragged away, suggesting that Homotherium would disarticulate their kill to transport it to a safe area such as a hidden lair or den and prevent competitors such as dire wolves and American lions from usurping the carcass.[43]

See also edit

References edit

  1. ^ a b Antón, Mauricio. Sabertooth. Indiana University Press, 2013.
  2. ^ Turner, A. (1997). 'The big cats and their fossil relatives. Columbia University Press. ISBN 0-231-10229-1
  3. ^ Owen, Richard (1846). A History of British Mammals and Birds.
  4. ^ Fabrini, E. (1890). "I Machairodus (Meganthereon) del Val d'Arno superiore". Bollettino Comitato Geologico d'Italia (in Italian). 21: 121–144, 161–177.
  5. ^ Woldřich, J. (1916). "První nálezy Machaerodů v jeskynním diluviu moravském a dolnorakouském". Rozpravy České akademie cís. Fr. Josefa pro vědy, slovesnost a umění, třída II (in Czech). 25 (12): 1–8.
  6. ^ P. Teilhard de Chardin (1936). "Fossil mammals from Locality 9 of Choukoutien". Palaeontol. Sin. Ser. C. 7: 1–61.
  7. ^ A.K. Vekua (1972). "Kvabebskaya Fauna Akchagyl'skikh pozvonochnykh" [The Kvabebi Fauna of Akchagylian Vertebrates]. {{cite journal}}: Cite journal requires |journal= (help)
  8. ^ M. V. Sotnikova (2004). "New data on the Pliocene carnivore fauna of Odessa Catacombs". Problems of Stratigraphy of the Phanerozoic of Ukraine. Institute of Geological Sciences, Kiev: 199–202.
  9. ^ Scharapov, S. (1986). "Kuruksajskij kompleks pozdnepliocenovych mlekopitajushchikh Afgano-Tadshikskoj depressii". Duanbe (Donis). 272.
  10. ^ S. Scharapov (1989). "On a new species of the saber-toothed cat from the Late Eopleistocene of the Afgano-Tadjik depression and the evolution of the genus Homotherium Fabrini, 1890". Paleontological Journal, Moscow. 3: 73–83.
  11. ^ Zong, G. (1996). "Cenozoic mammals and environment of Hengduan Mountains region". China Ocean Press.
  12. ^ a b c d Antón, M.; Salesa, M.J.; Galobart, A.; Tseng, Z.J. (July 2014). "The Plio-Pleistocene scimitar-toothed felid genus Homotherium Fabrini, 1890 (Machairodontinae, Homotherini): diversity, palaeogeography and taxonomic implications". Quaternary Science Reviews. 96: 259–268. doi:10.1016/j.quascirev.2013.11.022.
  13. ^ Collings, G.E. (1972). "A new species of machairodont from Makapansgat". Palaeont. Afr. 14: 87–92.
  14. ^ G. Petter; F.C. Howell (1988). "Nouveau felidé machairodonte (Mammalia, Carnivora) de la faune pliocène de l'Afar (Ethiopie) Homotherium hadarensis n. sp". C. R. Acad. Sci. Paris. 306: 731–738.
  15. ^ Geraads, Denis; Alemseged, Zeresenay; Bobe, René; Reed, Denné (2015). "Pliocene Carnivora (Mammalia) from the Hadar Formation at Dikika, Lower Awash Valley, Ethiopia". Journal of African Earth Sciences. 107: 28–35. Bibcode:2015JAfES.107...28G. doi:10.1016/j.jafrearsci.2015.03.020.
  16. ^ Arambourg, C. (1970). "Les vértébres du Pléistocène de l'Afrique du Nord". Archives du Muséum national d'Histoire naturelle. 10: 1–127.
  17. ^ Petter, G.; Howell, F.C. (1987). "Machairodus africanus Arambourg, 1970 (Carnivora, Mammalia) du Villafranchien d'Aïn Brimba, Tunisie". Bulletin du Muséum National d'Histoire Naturelle, Paris, 4Eme SEr., C, 9. 4: 97–119.
  18. ^ Werdelin, Lars; Lewis, Margaret E. (2020). "A contextual review of the Carnivora of Kanapoi". Journal of Human Evolution. 140. doi:10.1016/j.jhevol.2017.05.001. PMID 28625408. S2CID 23285088.
  19. ^ Merriam, J. C. (1905). "A new saber-tooth from California". Univ. Calif. Publ. B Geol. 4: 171–175.
  20. ^ Merriam, J. C. (1918). "New mammalia from the Idaho formation". Univ. Calif. Publ. Bull. Dept. Geol. 10: 523–530.
  21. ^ Cope, E.D. (1893). "A new Pleistocene sabre-tooth". The American Naturalist. 27: 896–897.
  22. ^ Mawby, John E. (1965). "Machairodonts from the Late Cenozoic of the Panhandle of Texas". Jour. Mammal. 46 (4): 573–587. doi:10.2307/1377928. JSTOR 1377928.
  23. ^ Churcher, C. S. (1966). "The affinities of Dinobastis serus Cope 1893". Quaternaria (8): 263–275.
  24. ^ Schultz, C.; Martin, Larry (November 1970). "Machairodont Cats from the Early Pleistocene Broadwater and Lisco Local Faunas". Bulletin of the University of Nebraska State Museum.
  25. ^ Martin, Larry D.; Schultz, C. B.; Schultz, M. R. (1988). "Saber-Toothed Cats from the Plio-Pleistocene of Nebraska". Transactions of the Nebraska Academy of Sciences and Affiliated Societies. 186.
  26. ^ L.D. Martin; V.L. Naples; J.P. Babiarz (2011). "Revision of the new World Homotheriini". The Other Saber-tooths: Scimitar-tooth Cats of the Western Hemisphere. Baltimore: Johns Hopkins University Press. pp. 185–194.
  27. ^ Rincón, Ascanio D.; Prevosti, Francisco J.; Parra, Gilberto E. (2011). "New Saber-Toothed Cat Records (Felidae: Machairodontinae) for the Pleistocene of Venezuela, and the Great American Biotic Interchange". Journal of Vertebrate Paleontology. 31 (2): 468–478. Bibcode:2011JVPal..31..468R. doi:10.1080/02724634.2011.550366. hdl:11336/69016. JSTOR 25835839. S2CID 129693331.
  28. ^ Jiangzuo, Q.; Werdelin, L.; Sun, Y. (2022). "A dwarf sabertooth cat (Felidae: Machairodontinae) from Shanxi, China, and the phylogeny of the sabertooth tribe Machairodontini". Quaternary Science Reviews. 284: Article 107517. Bibcode:2022QSRv..28407517J. doi:10.1016/j.quascirev.2022.107517.
  29. ^ a b Paijmans, Johanna L.A.; Barnett, Ross; Gilbert, M. Thomas P.; Zepeda-Mendoza, M. Lisandra; Reumer, Jelle W.F.; de Vos, John; Zazula, Grant; Nagel, Doris; Baryshnikov, Gennady F.; Leonard, Jennifer A.; Rohland, Nadin; Westbury, Michael V.; Barlow, Axel; Hofreiter, Michael (November 2017). "Evolutionary History of Saber-Toothed Cats Based on Ancient Mitogenomics". Current Biology. 27 (21): 3330–3336.e5. doi:10.1016/j.cub.2017.09.033. PMID 29056454.
  30. ^ Lihoreau, Fabrice; Sarr, Raphaël; Chardon, Domininique; Boisserie, Jean-Renaud; Lebrun, Renaud; Adnet, Sylvain; Martin, Jeremy E.; Pallas, Laurent; Sambou, Bernard; Tabuce, Rodolphe; Thiam, Mohamadou M.; Hautier, Lionel (November 2021). "A fossil terrestrial fauna from Tobène (Senegal) provides a unique early Pliocene window in western Africa". Gondwana Research. 99: 21–35. doi:10.1016/j.gr.2021.06.013.
  31. ^ Rincón, Ascanio D.; Prevosti, Francisco J.; Parra, Gilberto E. (17 March 2011). "New saber-toothed cat records (Felidae: Machairodontinae) for the Pleistocene of Venezuela, and the Great American Biotic Interchange". Journal of Vertebrate Paleontology. 31 (2): 468–478. doi:10.1080/02724634.2011.550366. hdl:11336/69016. S2CID 129693331.
  32. ^ Turner, Alan (1990). "The evolution of the guild of larger terrestrial carnivores during the Plio-Pleistocene in Africa". Geobios. 23 (3): 349–368. doi:10.1016/0016-6995(90)80006-2.
  33. ^ Reumer, Jelle W. F.; Rook, Lorenzo; Van Der Borg, Klaas; Post, Klaas; Mol, Dick; De Vos, John (11 April 2003). "Late Pleistocene survival of the saber-toothed cat Homotherium in northwestern Europe". Journal of Vertebrate Paleontology. 23 (1): 260–262. doi:10.1671/0272-4634(2003)23[260:LPSOTS]2.0.CO;2. S2CID 140187064.
  34. ^ Ewald, Tatyanna; Hills, L.V.; Tolman, Shayne; Kooyman, Brian (January 2018). "Scimitar cat ( Homotherium serum Cope) from southwestern Alberta, Canada". Canadian Journal of Earth Sciences. 55 (1): 8–17. doi:10.1139/cjes-2017-0130. hdl:1807/79756. ISSN 0008-4077.
  35. ^ Sorkin, Boris (2008). "A biomechanical constraint on body mass in terrestrial mammalian predators". Lethaia. 41 (4): 333–347. doi:10.1111/j.1502-3931.2007.00091.x.
  36. ^ Meade, G.E. 1961: The saber-toothed cat Dinobastis serus. Bulletin of the Texas Memorial Museum 2(II), 23–60.
  37. ^ Figueirido, Borja; Lautenschlager, Stephan; Pérez-Ramos, Alejandro; Van Valkenburgh, Blaire (October 2018). "Distinct Predatory Behaviors in Scimitar- and Dirk-Toothed Sabertooth Cats". Current Biology. 28 (20): 3260–3266.e3. doi:10.1016/j.cub.2018.08.012. hdl:10630/29727. PMID 30293717.
  38. ^ Antón, Mauricio; Siliceo, Gema; Pastor, Juan F.; Salesa, Manuel J. (2022). "Concealed weapons: A revised reconstruction of the facial anatomy and life appearance of the sabre-toothed cat Homotherium latidens (Felidae, Machairodontinae)". Quaternary Science Reviews. 284: 107471. doi:10.1016/j.quascirev.2022.107471. hdl:10261/270770.
  39. ^ Anton, M; Galobart, A; Turner, A (May 2005). "Co-existence of scimitar-toothed cats, lions and hominins in the European Pleistocene. Implications of the post-cranial anatomy of (Owen) for comparative palaeoecology". Quaternary Science Reviews. 24 (10–11): 1287–1301. doi:10.1016/j.quascirev.2004.09.008.
  40. ^ Barnett, Ross; Westbury, Michael V.; Sandoval-Velasco, Marcela; Vieira, Filipe Garrett; Jeon, Sungwon; Zazula, Grant; Martin, Michael D.; Ho, Simon Y. W.; Mather, Niklas; Gopalakrishnan, Shyam; Ramos-Madrigal, Jazmín; Manuel, Marc de; Zepeda-Mendoza, M. Lisandra; Antunes, Agostinho; Baez, Aldo Carmona; Cahsan, Binia De; Larson, Greger; O'Brien, Stephen J.; Eizirik, Eduardo; Johnson, Warren E.; Koepfli, Klaus-Peter; Wilting, Andreas; Fickel, Jörns; Dalén, Love; Lorenzen, Eline D.; Marques-Bonet, Tomas; Hansen, Anders J.; Zhang, Guojie; Bhak, Jong; Yamaguchi, Nobuyuki; Gilbert, M. Thomas P. (21 December 2020). "Genomic Adaptations and Evolutionary History of the Extinct Scimitar-Toothed Cat, Homotherium latidens". Current Biology. 30 (24): 5018–5025.e5. doi:10.1016/j.cub.2020.09.051. PMC 7762822. PMID 33065008.
  41. ^ "Deinotheres for lunch? A sabertooth's tough-skinned diet". 2017-03-23.
  42. ^ Metcalfe, Jessica (2011). Late Pleistocene climate and proboscidean paleoecology in North America: Insights from stable isotope compositions of skeletal remains (Thesis).
  43. ^ Antón, Mauricio (2013). Sabertooth. Bloomington, Indiana: University of Indiana Press. pp. 227–228. ISBN 978-0-253-01042-1.

External links edit

 
Wikimedia Commons has media related to Homotherium.
 
Wikispecies has information related to Homotherium.
  • The saber-toothed cat of the North Sea, 2008, accessed 10/28/2019
  • Saber-toothed cat jaw
  • South America gets two more sabercats


May 03, 2024
homotherium, extinct, genus, machairodontine, scimitar, toothed, that, inhabited, north, america, south, america, eurasia, africa, during, pliocene, pleistocene, epochs, from, around, million, years, comparison, smilodon, canines, were, shorter, probably, adap. Homotherium is an extinct genus of machairodontine scimitar toothed cat that inhabited North America South America Eurasia and Africa during the Pliocene and Pleistocene epochs from around 4 million to 12 000 years ago 1 2 In comparison to Smilodon the canines of Homotherium were shorter and it was probably adapted to running down rather than ambushing prey HomotheriumTemporal range Early Pliocene to Late Pleistocene 4 0 012 Ma 1 PreꞒ Ꞓ O S D C P T J K Pg N Skeleton of H serum from Friesenhahn cave Texas Memorial Museum University of Texas at Austin Austin Texas Scientific classification Domain Eukaryota Kingdom Animalia Phylum Chordata Class Mammalia Order Carnivora Suborder Feliformia Family Felidae Subfamily Machairodontinae Tribe Homotherini Genus HomotheriumFabrini 1890 Type species Homotherium latidensOwen 1846 Other species Homotherium ischyrus Merriam 1905 Homotherium serum Cope 1893 Homotherium venezuelensis Rincon et al 2011 Synonyms Dinobastis Cope 1893 Contents 1 History and taxonomy 1 1 Eurasia 1 2 Africa 1 3 Americas 2 Evolutionary history 3 Description 4 Diet and habitats 5 See also 6 References 7 External linksHistory and taxonomy editEurasia edit nbsp nbsp Cast of the fossil skulls of H latidens left and H serum right The first fossils of this genus were described in 1846 by Richard Owen as the species Machairodus latidens 3 The name Homotherium Greek ὁmos homos same and 8hrion therion beast was proposed by Emilio Fabrini 1890 without further explanation for a new subgenus of Machairodus whose main distinguishing feature was the presence of a large diastema between the two inferior premolars He further described two species in this new subgenus Machairodus Megantereon crenatidens and Machairodus Megantereon nestianus 4 In 1918 the species Homotherium moravicum was described by Woldrich 5 In 1936 Teilhard de Chardin described the new species Homotherium ultimus based on fossils from the middle Pleistocene aged site at Zhoukoudian 6 In 1972 a species Homotherium davitasvlii was described based on fragmentary material found at Kvabebi in Georgia 7 Further material from Odessa was tentatively assigned to this species in 2004 8 In 1986 the species Homotherium darvasicum was described based on material from Kuruksay Turkey 9 In 1989 another species Homotherium tielhardipiveteaui was named based on fossils from Tajikistan 10 In 1996 Homotherium hengduanshanense was described based on fossils from the Hengduan Mountains 11 There is currently only one recognised species Homotherium in Eurasia during the Late Pliocene Pleistocene Homotherium latidens other species including H nestianus H sainzelli H crenatidens H nihowanensis and H ultimum were proposed mainly on size differences and do not appear to be distinct 12 Africa edit In 1972 a species Homotherium problematicum originally Megantereon problematicus was named based on fragmentary material from Africa 13 A second African species discovered in Ethiopia Homotherium hadarensis was described in 1988 14 In 1990 Alan Turner challenged the validity of these two species and later authors typically refrained from referring the African fossils to any specific species 12 Although in 2015 further material from Dikika was tentatively referred to H hadarensis 15 A third species Homotherium africanum originally Machairodus africanus has also been included 16 17 18 Americas edit In 1905 Merriam described a new species Machaerodus ischyrus 19 Subsequently in 1918 Merriam reassigned it to a new genus Ischyrosmilus along with the new species Ischyrosmilus idahoensis 20 The genus Dinobastis was originally named by Cope in 1893 with the type species Dinobastis serus 21 In 1965 the species Ischyrosmilus johnstoni was described In the same paper it was noted that a comparative study of both Ischyrosmilus and Homotherium might conclude them as synonyms 22 In 1966 Churcher named Dinobastis a junior synonym of Homotherium and recombined D serus as Homotherium serum 23 In 1970 a new species Ischyrosmilus crusafonti was described from the early Pleistocene of Nebraska 24 In 1988 after some debate the genus Ischyrosmilus was declared a junior synonym of Homotherium and all four species were reassigned to that genus as H ischyrus H idahoensis and H johnstoni The same paper also proposed keeping Dinobastis serus separate from Homotherium 25 Up to five species have been recognised from North America H idahoensis H crusafonti H ischyrus H johnstoni and H serum 26 while other authors suggest that there are only two species with older Blancan specimens are assigned to the species H ischyrus while the younger ones are assigned to the species H serum 12 In 2005 a new species Homotherium venezuelensis was described based on fossils from the Pleistocene of Venezuela 27 In 2022 it was proposed that Homotherium venezuelensis be reassigned to the genus Xenosmilus 28 Evolutionary history editThe lineage of Homotherium is estimated based on mitochondrial DNA sequences to have diverged from that of Smilodon about 18 million years ago 29 Homotherium has been suggested to have originated from African species of the genus Amphimachairodus 30 Homotherium first appeared during the Early Pliocene about 4 million years ago with its oldest remains being from the Odesa catacombs in Ukraine and Koobi Fora in Kenya which are close in age making the origin location of the genus uncertain The genus arrived in North America during the late Pliocene 12 Specimens of Homotherium are known from Venezuela in northern South America of an uncertain Early Middle Pleistocene age 31 On the African continent the genus disappeared about 1 5 million years ago during the Early Pleistocene 32 Homotherium was formerly thought to have become extinct in Eurasia during the late Middle Pleistocene around 300 000 years ago until the discovery of a single jaw bone from the North Sea which dates to around 28 30 000 years ago 33 The mitochondrial genome of this specimen is nearly identical to specimens known from North America suggesting that this may have represented a Late Pleistocene dispersal from North America rather than a continuous undocumented occupation of the region 29 Homotherium became extinct in North America around 12 000 years ago as part of the Quaternary extinction event along with most other large mammals in the Americas 34 Description edit nbsp H serum size comparison Homotherium reached 1 1 m 3 ft 7 in at the shoulder and weighed an estimated 190 kg 420 lb and was therefore about the size of a male lion 35 36 Homotherium had shorter upper canines than other machariodonts such as Smilodon or Megantereon but these were still longer than those of extant cats The incisors and lower canines of Homotherium formed a powerful puncturing and gripping device and its large canine teeth were crenulated The jaws of Homotherium may have been adapted to clamp and hold prey while inflicting damage with the canine teeth due to comparable amounts of trabecular bone present in skulls of the genus to those of the modern lion 37 nbsp H venezuelensis skeleton The large upper canines of Homotherium were likely hidden by the upper lips and gum tissues of the lower lips jaw similar to extant cats unlike the larger upper canines of Smilodon This hypothesis is further supported by comparable space between the canines and mandible at full closure of the jaws to modern cats while Smilodon has significantly more space in this respect likely for soft tissue to fit between the canine and mandible 38 The visual cortex in the brain of Homotherium was large and complex similar to the modern cheetah implying that it relied heavily on vision during the hunt citation needed Diet and habitats edit nbsp H serum restoration The decline of Homotherium could be a result of the disappearance of large herbivorous mammals like mammoths in America at the end of the Pleistocene citation needed In North America fossil remains of Homotherium are less abundant than those of its contemporary Smilodon citation needed For the most part it probably inhabited higher latitudes and altitudes and therefore was likely to be well adapted to the colder conditions of the mammoth steppe environment citation needed The reduced claws relatively slender limbs and sloping back all appear to be adaptations for endurance running in open habitats 39 Genomic analysis supports the hypothesis that Homotherium was social and well adapted to life as a pursuit predator The study also revealed that this genus of machairodont was most likely diurnal and would have mainly hunted in daylight 40 African Homotherium species seem to have hunted early Pleistocene species of Deinotherium likely preferring to target the more vulnerable adolescents or calves in a herd Due to their saber teeth an attack on such thick skinned prey would have likely been significantly easier and less time consuming compared to a similar hunt on modern elephants by lions 41 At the well known Friesenhahn Cave site in Texas the remains of almost 400 juvenile mammoths were discovered along with numerous Homotherium skeletons of all ages from elderly specimens to cubs Based on this fossil site Homotherium was likely a social predator that would have been specialized in hunting young mammoths and that subsequently dragged the kills into secluded caves to eat in relative peace Homotherium also seemed to have retained the excellent nocturnal vision typical of most cats and hunting at night in the arctic regions where many Homotherium have been found would have been a prime hunting method 42 The sloped back and powerful lumbar section of Homotherium s vertebrae suggest a bear like build and thus that these animals could have been capable of pulling formidable loads further broken upper canines a common injury in fossils of other machairodonts such as Machairodus and Smilodon that would have resulted from struggling with their prey is not seen in Homotherium perhaps because their social groups would completely restrain prey items before any of the cats attempted to kill the target with their saber teeth Moreover the bones of the young mammoths found in Friesenhahn Cave show distinctive marks matching the incisors of Homotherium indicating that they could efficiently process most of the meat on a carcass and that the mammoths had been deposited in the caves by the cats themselves and not by scavengers Examination of the bones also indicates that the carcasses of these juvenile mammoths were dismembered after being killed by the cats before being dragged away suggesting that Homotherium would disarticulate their kill to transport it to a safe area such as a hidden lair or den and prevent competitors such as dire wolves and American lions from usurping the carcass 43 See also edit nbsp Paleontology portalReferences edit a b Anton Mauricio Sabertooth Indiana University Press 2013 Turner A 1997 The big cats and their fossil relatives Columbia University Press ISBN 0 231 10229 1 Owen Richard 1846 A History of British Mammals and Birds Fabrini E 1890 I Machairodus Meganthereon del Val d Arno superiore Bollettino Comitato Geologico d Italia in Italian 21 121 144 161 177 Woldrich J 1916 Prvni nalezy Machaerodu v jeskynnim diluviu moravskem a dolnorakouskem Rozpravy Ceske akademie cis Fr Josefa pro vedy slovesnost a umeni trida II in Czech 25 12 1 8 P Teilhard de Chardin 1936 Fossil mammals from Locality 9 of Choukoutien Palaeontol Sin Ser C 7 1 61 A K Vekua 1972 Kvabebskaya Fauna Akchagyl skikh pozvonochnykh The Kvabebi Fauna of Akchagylian Vertebrates a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help M V Sotnikova 2004 New data on the Pliocene carnivore fauna of Odessa Catacombs Problems of Stratigraphy of the Phanerozoic of Ukraine Institute of Geological Sciences Kiev 199 202 Scharapov S 1986 Kuruksajskij kompleks pozdnepliocenovych mlekopitajushchikh Afgano Tadshikskoj depressii Duanbe Donis 272 S Scharapov 1989 On a new species of the saber toothed cat from the Late Eopleistocene of the Afgano Tadjik depression and the evolution of the genus Homotherium Fabrini 1890 Paleontological Journal Moscow 3 73 83 Zong G 1996 Cenozoic mammals and environment of Hengduan Mountains region China Ocean Press a b c d Anton M Salesa M J Galobart A Tseng Z J July 2014 The Plio Pleistocene scimitar toothed felid genus Homotherium Fabrini 1890 Machairodontinae Homotherini diversity palaeogeography and taxonomic implications Quaternary Science Reviews 96 259 268 doi 10 1016 j quascirev 2013 11 022 Collings G E 1972 A new species of machairodont from Makapansgat Palaeont Afr 14 87 92 G Petter F C Howell 1988 Nouveau felide machairodonte Mammalia Carnivora de la faune pliocene de l Afar Ethiopie Homotherium hadarensis n sp C R Acad Sci Paris 306 731 738 Geraads Denis Alemseged Zeresenay Bobe Rene Reed Denne 2015 Pliocene Carnivora Mammalia from the Hadar Formation at Dikika Lower Awash Valley Ethiopia Journal of African Earth Sciences 107 28 35 Bibcode 2015JAfES 107 28G doi 10 1016 j jafrearsci 2015 03 020 Arambourg C 1970 Les vertebres du Pleistocene de l Afrique du Nord Archives du Museum national d Histoire naturelle 10 1 127 Petter G Howell F C 1987 Machairodus africanus Arambourg 1970 Carnivora Mammalia du Villafranchien d Ain Brimba Tunisie Bulletin du Museum National d Histoire Naturelle Paris 4Eme SEr C 9 4 97 119 Werdelin Lars Lewis Margaret E 2020 A contextual review of the Carnivora of Kanapoi Journal of Human Evolution 140 doi 10 1016 j jhevol 2017 05 001 PMID 28625408 S2CID 23285088 Merriam J C 1905 A new saber tooth from California Univ Calif Publ B Geol 4 171 175 Merriam J C 1918 New mammalia from the Idaho formation Univ Calif Publ Bull Dept Geol 10 523 530 Cope E D 1893 A new Pleistocene sabre tooth The American Naturalist 27 896 897 Mawby John E 1965 Machairodonts from the Late Cenozoic of the Panhandle of Texas Jour Mammal 46 4 573 587 doi 10 2307 1377928 JSTOR 1377928 Churcher C S 1966 The affinities of Dinobastis serus Cope 1893 Quaternaria 8 263 275 Schultz C Martin Larry November 1970 Machairodont Cats from the Early Pleistocene Broadwater and Lisco Local Faunas Bulletin of the University of Nebraska State Museum Martin Larry D Schultz C B Schultz M R 1988 Saber Toothed Cats from the Plio Pleistocene of Nebraska Transactions of the Nebraska Academy of Sciences and Affiliated Societies 186 L D Martin V L Naples J P Babiarz 2011 Revision of the new World Homotheriini The Other Saber tooths Scimitar tooth Cats of the Western Hemisphere Baltimore Johns Hopkins University Press pp 185 194 Rincon Ascanio D Prevosti Francisco J Parra Gilberto E 2011 New Saber Toothed Cat Records Felidae Machairodontinae for the Pleistocene of Venezuela and the Great American Biotic Interchange Journal of Vertebrate Paleontology 31 2 468 478 Bibcode 2011JVPal 31 468R doi 10 1080 02724634 2011 550366 hdl 11336 69016 JSTOR 25835839 S2CID 129693331 Jiangzuo Q Werdelin L Sun Y 2022 A dwarf sabertooth cat Felidae Machairodontinae from Shanxi China and the phylogeny of the sabertooth tribe Machairodontini Quaternary Science Reviews 284 Article 107517 Bibcode 2022QSRv 28407517J doi 10 1016 j quascirev 2022 107517 a b Paijmans Johanna L A Barnett Ross Gilbert M Thomas P Zepeda Mendoza M Lisandra Reumer Jelle W F de Vos John Zazula Grant Nagel Doris Baryshnikov Gennady F Leonard Jennifer A Rohland Nadin Westbury Michael V Barlow Axel Hofreiter Michael November 2017 Evolutionary History of Saber Toothed Cats Based on Ancient Mitogenomics Current Biology 27 21 3330 3336 e5 doi 10 1016 j cub 2017 09 033 PMID 29056454 Lihoreau Fabrice Sarr Raphael Chardon Domininique Boisserie Jean Renaud Lebrun Renaud Adnet Sylvain Martin Jeremy E Pallas Laurent Sambou Bernard Tabuce Rodolphe Thiam Mohamadou M Hautier Lionel November 2021 A fossil terrestrial fauna from Tobene Senegal provides a unique early Pliocene window in western Africa Gondwana Research 99 21 35 doi 10 1016 j gr 2021 06 013 Rincon Ascanio D Prevosti Francisco J Parra Gilberto E 17 March 2011 New saber toothed cat records Felidae Machairodontinae for the Pleistocene of Venezuela and the Great American Biotic Interchange Journal of Vertebrate Paleontology 31 2 468 478 doi 10 1080 02724634 2011 550366 hdl 11336 69016 S2CID 129693331 Turner Alan 1990 The evolution of the guild of larger terrestrial carnivores during the Plio Pleistocene in Africa Geobios 23 3 349 368 doi 10 1016 0016 6995 90 80006 2 Reumer Jelle W F Rook Lorenzo Van Der Borg Klaas Post Klaas Mol Dick De Vos John 11 April 2003 Late Pleistocene survival of the saber toothed cat Homotherium in northwestern Europe Journal of Vertebrate Paleontology 23 1 260 262 doi 10 1671 0272 4634 2003 23 260 LPSOTS 2 0 CO 2 S2CID 140187064 Ewald Tatyanna Hills L V Tolman Shayne Kooyman Brian January 2018 Scimitar cat Homotherium serum Cope from southwestern Alberta Canada Canadian Journal of Earth Sciences 55 1 8 17 doi 10 1139 cjes 2017 0130 hdl 1807 79756 ISSN 0008 4077 Sorkin Boris 2008 A biomechanical constraint on body mass in terrestrial mammalian predators Lethaia 41 4 333 347 doi 10 1111 j 1502 3931 2007 00091 x Meade G E 1961 The saber toothed cat Dinobastis serus Bulletin of the Texas Memorial Museum 2 II 23 60 Figueirido Borja Lautenschlager Stephan Perez Ramos Alejandro Van Valkenburgh Blaire October 2018 Distinct Predatory Behaviors in Scimitar and Dirk Toothed Sabertooth Cats Current Biology 28 20 3260 3266 e3 doi 10 1016 j cub 2018 08 012 hdl 10630 29727 PMID 30293717 Anton Mauricio Siliceo Gema Pastor Juan F Salesa Manuel J 2022 Concealed weapons A revised reconstruction of the facial anatomy and life appearance of the sabre toothed cat Homotherium latidens Felidae Machairodontinae Quaternary Science Reviews 284 107471 doi 10 1016 j quascirev 2022 107471 hdl 10261 270770 Anton M Galobart A Turner A May 2005 Co existence of scimitar toothed cats lions and hominins in the European Pleistocene Implications of the post cranial anatomy of Owen for comparative palaeoecology Quaternary Science Reviews 24 10 11 1287 1301 doi 10 1016 j quascirev 2004 09 008 Barnett Ross Westbury Michael V Sandoval Velasco Marcela Vieira Filipe Garrett Jeon Sungwon Zazula Grant Martin Michael D Ho Simon Y W Mather Niklas Gopalakrishnan Shyam Ramos Madrigal Jazmin Manuel Marc de Zepeda Mendoza M Lisandra Antunes Agostinho Baez Aldo Carmona Cahsan Binia De Larson Greger O Brien Stephen J Eizirik Eduardo Johnson Warren E Koepfli Klaus Peter Wilting Andreas Fickel Jorns Dalen Love Lorenzen Eline D Marques Bonet Tomas Hansen Anders J Zhang Guojie Bhak Jong Yamaguchi Nobuyuki Gilbert M Thomas P 21 December 2020 Genomic Adaptations and Evolutionary History of the Extinct Scimitar Toothed Cat Homotherium latidens Current Biology 30 24 5018 5025 e5 doi 10 1016 j cub 2020 09 051 PMC 7762822 PMID 33065008 Deinotheres for lunch A sabertooth s tough skinned diet 2017 03 23 Metcalfe Jessica 2011 Late Pleistocene climate and proboscidean paleoecology in North America Insights from stable isotope compositions of skeletal remains Thesis Anton Mauricio 2013 Sabertooth Bloomington Indiana University of Indiana Press pp 227 228 ISBN 978 0 253 01042 1 External links edit nbsp Wikimedia Commons has media related to Homotherium nbsp Wikispecies has information related to Homotherium The saber toothed cat of the North Sea 2008 accessed 10 28 2019 American Scimitar Cat Saber toothed cat jaw South America gets two more sabercats Retrieved from https en wikipedia org w index php title Homotherium amp oldid 1217839070, wikipedia, wiki, book, books, library,

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