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Steppe mammoth

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Steppe mammoth
Temporal range: Early Pleistocene-Middle Pleistocene[1] 1.7–0.2 Ma
Possible Late Pleistocene records
Skeleton
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Proboscidea
Family: Elephantidae
Genus: Mammuthus
Species:
M. trogontherii
Binomial name
Mammuthus trogontherii
(Pohlig, 1885)[2]
Synonyms
  • Mammuthus armeniacus Falconer, 1857
  • Elephas trogontherii Pohlig, 1885
  • Euelephas protomammonteus Matsumoto, 1924
  • Mammuthus protomammonteus (Matsumoto, 1924)
  • Mammuthus sungari Zhou, 1959
  • Mammuthus trogontherii chosaricus Dubrovo, 1966

Mammuthus trogontherii, sometimes called the steppe mammoth, is an extinct species of mammoth that ranged over most of northern Eurasia during the Early and Middle Pleistocene, approximately 1.7 million to 200,000 years ago. The evolution of the steppe mammoth marked the initial adaptation of the mammoth lineage towards cold environments, with the species probably being covered in a layer of fur. One of the largest mammoth species, it evolved in East Asia during the Early Pleistocene, around 1.8 million years ago, before migrating into North America around 1.3 million years ago, and into Europe during the Early/Middle Pleistocene transition, around 1 to 0.7 million years ago (replacing the earlier mammoth species Mammuthus meridionalis). It was the ancestor of the woolly mammoth and Columbian mammoth of the later Pleistocene (as well as the dwarf Sardinian mammoth Mammuthus lamarmorai).

Taxonomy

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There was historically confusion about the correct scientific name for the steppe mammoth, either Mammuthus armeniacus , named by Hugh Falconer in 1857 or Mammuthus trogontherii, named by Hans Pohlig in 1885. Falconer described M. armeniacus based on molar teeth collected from near Erzurum in eastern Turkey, of uncertain age, while Pohlig described M. trogontherii from fossil remains found in Europe.[3] A first taxonomical overhaul was done by Maglio (1973) who decided that both names were synonyms, armeniacus being the older, hence the preferred name.[4] However, in Shoshani & Tassy (1996) it was decided that the description of Pohlig prevailed, and consequently the correct name for the steppe mammoth is M. trogontherii.[5] The status of Mammuthus armeniacus as a synonym of Mammuthus trogontherii has been supported by most recent authors.[6] The type specimens of the species are molars from the Süssenborn (also spelled Süßenborn) locality in Germany, dating to the early Middle Pleistocene, (Marine Isotope Stage/MIS 16, approximately 676-621,000 years ago).[7]

Several Early Pleistocene Japanese mammoth species and subspecies (including Mammuthus protomammonteus, Mammuthus paramammonteus shigensis, Mammuthus meridionalis shigensis and Mammuthus meridionalis proximus) are now thought to be synonyms of M. trogontherii.[8] The species M. sungari named by Zhou 1959 from specimens found in Zalainuoer, Inner Mongolia, China, that was formerly widely used for mammoths in China is now also recognised as a synonym for M. trogontherii.[9]

Analysis of ancient DNA showing deep genetic divergences between early steppe-like mammoths in Siberia, dating around one million years ago, has led to questions about what material should be attributed to the species. In a 2024 review, Adrian Lister and Love Dalén argued that the species should be retained for now in a broad morphospecies sense for mammoth remains found across Eurasia.[10]

Description

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Skeletal diagram of the 3.89 metre tall Zhalainuoer III specimen, including side on view (centre), top-down (above) and from the front minus the head (left)
Size comparison of the fragmentary "Mosbach mammoth" estimated to be 4.5 metres tall.

Mammuthus trogontherii was one of the largest mammoth species, with males on average being about 4 m (13.1 ft) tall at the shoulders and about 11 tonnes (24,000 lb) in weight and females on average being about 3.7 m (12.1 ft) tall at the shoulders and about 9.5 tonnes (21,000 lb) in weight, considerably exceeding the size of modern elephants.[11][1] A largely complete specimen (Zhalainuoer III) from Inner Mongolia, China, was estimated to have had a shoulder height of around 3.69 m (12.1 ft) measured at the top of the scapula, which represents a flesh shoulder height of 3.89 m (12.8 ft), with a body mass estimated via volumetric analysis at 10.4 tonnes (23,000 lb).[12][11] A larger bull, (Azov I), estimated to be 3.96 m (13.0 ft) tall at the shoulder (previously erroneously estimated as 4.5 m (15 ft) due to incorrect mounting) was estimated to weigh 11.5 tonnes (25,000 lb) via volumetric analysis. Another individual represented by a single giant humerus 1.46 m (4.8 ft) long and an associated pelvis found in Mosbach Sande, Germany, is estimated to have had a shoulder height of 4.5 metres (14.8 ft) and a weight of 14.3 tonnes (32,000 lb) via regression analysis.[11] Steppe mammoths from the late Middle Pleistocene of Europe were considerably smaller than these "typical" M. trogontherii specimens, with the smallest M. trogontherii population being from Stanton Harcourt, England, dating to MIS 7 (around 200,000 years ago), among the last records of the species in Europe,[7] which have an estimated shoulder height of only 2.1–2.9 m (6.9–9.5 ft).[13]

Jaw with molar teeth

The skull was high-domed and short, and bore twisted tusks. The lower jaw was short and deep.[12] The number of lamellae on the third molars is around 18–22, significantly higher than the number in earlier mammoth species, but noticeably lower than the number typically present in woolly mammoths (M. primigenius), though some European specimens of M. primigenius have counts which overlap with those of M. trogontherii.[7] Compared to M. primigenius, the teeth of calves of M. trogontherii were proportionally larger.[14] The body has around 19 thoracic vertebrae and 5 or 6 sacral vertebrae, with the first few thoracic vertebrae having long neural spines.[12] The tusks were proportionally large, among the largest known among proboscideans, with one large tusk from the Kostolac Basin in Serbia measuring 4.2 metres (14 ft) in length, with an estimated mass of 213 kilograms (470 lb).[15]

Sequenced genomes suggests that Early Pleistocene M. trogontherii specimens from Siberia, around 1 million years old, had already developed many of the genetic changes thought to be responsible for traits that were adaptations for living in cold environments characteristic of woolly mammoths.[16] Due to the cold climates it inhabited and short tail, Mammuthus trogontherii is suggested to have borne a coat of fur, which was probably somewhat thinner than that of the woolly mammoth.[12]

Distribution and habitat

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Fossils of M. trogontherii are known from across northern Eurasia, spanning from Western Europe to Eastern Asia, and into the high latitudes of Northern Asia.[17] Among the southernmost records of the species are known from Taiwan and Miyako Island in the Ryukyu Islands, dating to around 700-500,000 years ago. The species is notably absent from adjacent mainland Southern China.[18] Steppe mammoths were often associated with cold open steppe environments, as its common name would suggest, but was not confined to them, as evidenced by the early Middle Pleistocene West Runton Mammoth specimen from Norfolk, England, which was associated with a temperate forested environment during an interglacial period.[19] In Central Europe, the steppe mammoth was common during glacial periods where it inhabited open landscapes, while remains of steppe mammoths are rare in the more temperate landscapes of Southern Europe.[20] At times during glacial periods the species expanded as far south in Europe as the Peloponnese in Greece and Andalusia in the Iberian Peninsula, though no records are known any farther south than Rome in the Italian Peninsula.[21] In Western Asia, remains are known from several sites across Anatolia in Turkey,[21] as well in the Caucasus in Armenia,[22] Georgia, and Azerbaijan.[23] Some remains of the species have been reported from the Levant in Syria and Israel, but their attribution to the species has been questioned.[21]

Ecology

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Life restoration with a coat of fur

Based on dental microwear analysis, steppe mammoths are thought to have been grazers to mixed feeders, having a similar dietary breadth to Mammuthus meridionalis though considerably more shifted toward grazing on average, and distinct from the predominantly grazing diet inferred for woolly mammoths. The presence of wide scratches on the teeth suggests that steppe mammoths consumed bark and twigs of woody plants (browse), though the proportion of this consumed seems to have varied widely between steppe mammoth populations, with some populations exhibiting browse-dominated mixed feeding, while others consumed little to no browse. The lack of pits on analysed teeth suggests that steppe mammoths did not consume fruit, unlike earlier mammoth species.[24]

Evolution

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M. trogontherii is suggested to have derived from an early population of Mammuthus meridionalis in East Asia. The oldest records M. trogontherii are known from China, around 1.7 million years old, from the Nihewan Formation near Majuangou, Hebei. Steppe mammoths arrived in North America across Beringia around 1.5-1.3 million years ago, giving rise to the Columbian mammoth (the ancestor was previously thought to be M. meridionalis but this was due to misinterpretation of tooth wear patterns).[25][16] Steppe mammoths replaced European Mammuthus meridionalis between 1–0.7 million years ago, in a complex diachronous mosaic pattern, coincident with the arrival of the temperate-adapted straight-tusked elephant (Palaeoloxodon antiquus) to Europe.[26] European populations of M. trogontherii experienced progressive size reduction towards the end of the Middle Pleistocene, from around 400,000-300,000 years ago onwards.[26][7]

The woolly mammoth (Mammuthus primigenius) had emerged in Northeast Siberia from M. trogontherii by around 600-500,000 years ago, reaching the typical molar morphology of M. primigenius around 400,000 years ago. Mammoths with M. primigenius type molar morphology displaced those of M. trogontherii type in Europe over the course of the late Middle Pleistocene, which was largely complete by 200,000 years ago (~MIS 7/6 boundary) in a protracted highly complex pattern including some molars with intermediate morphology between the two species that likely reflects gene flow from Siberian woolly mammoths into European M. trogontherii. Some authors have given remains intermediate between M. trogontherii and M. primigenius the species names Mammuthus intermedius and Mammuthus chosaricus (sometimes Mammuthus trogontherii chosaricus), though the definitions of these supposed species are poorly defined, and some remains attributed to these forms are similar in enamel thickness and lamellar length to "classic" early Middle Pleistocene M. trogontherii.[7] The replacement of European M. trogontherii by woolly mammoths is widely considered to mark the extinction of the species,[16] though some authors have suggested that M. trogontherii survived in northern China and southern Siberia into the Last Glacial Period, and at least one specimen from China has been dated to between 40,000-30,000 years ago.[27][9][1]

M. trogontherii is suggested to be the ancestor of the dwarf mammoth species Mammuthus lamarmorai which inhabited the island of Sardinia in the Mediterranean during the late Middle Pleistocene and Late Pleistocene.[28]

Relationship with humans

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At the Majuangou site in northern China, a M. trogontherii rib is suggested to display cutting marks.[9] At the Bełchatów coal mine in Poland, dating to the late Middle Pleistocene (in the interglacial period of either MIS 11 or MIS 9, around 425-300,000 years ago), remains of M. trogontherii have been found with cut marks, suggested to represent evidence of butchery by archaic humans, possibly Homo heidelbergensis, though no stone tools were found at the site.[29] Sites with evidence of both humans and M. trogontherii in Europe are rare, especially compared to the contemporaneous straight-tusked elephant, which is suggested to be the result of humans and steppe mammoths primarily occupying different habitats in Europe during the Middle Pleistocene.[20]

See also

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References

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  1. ^ a b c Larramendi, Asier; Palombo, Maria Rita; Marano, Federica (2017). "Reconstructing the life appearance of a Pleistocene giant: size, shape, sexual dimorphism and ontogeny of Palaeoloxodon antiquus (Proboscidea: Elephantidae) from Neumark-Nord 1 (Germany)" (PDF). Bollettino della Società Paleontologica Italiana (3): 299–317. doi:10.4435/BSPI.2017.29 (inactive 2024-11-20). ISSN 0375-7633. Archived from the original (PDF) on 2023-09-30. Retrieved 2023-10-29.{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
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  15. ^ Larramendi, Asier (2023-12-10). "Estimating tusk masses in proboscideans: a comprehensive analysis and predictive model". Historical Biology: 1–14. doi:10.1080/08912963.2023.2286272. ISSN 0891-2963.
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  22. ^ Tesakov, Alexey; Simakova, Alexandra; Frolov, Pavel; Sytchevskaya, Eugenia; Syromyatnikova, Elena; Foronova, Irina; Shalaeva, Eugenia; Trifonov, Vladimir (2019). "Early-Middle Pleistocene environmental and biotic transition in NW Armenia, southern Caucasus". Palaeontologia Electronica. doi:10.26879/916.
  23. ^ Bukhsianidze, Maia; Koiava, Kakhaber (2018). "Synopsis of the terrestrial vertebrate faunas from the Middle Kura Basin (Eastern Georgia and Western Azerbaijan, South Caucasus)". Acta Palaeontologica Polonica. 63. doi:10.4202/app.00499.2018.
  24. ^ Rivals, Florent; Semprebon, Gina M.; Lister, Adrian M. (September 2019). "Feeding traits and dietary variation in Pleistocene proboscideans: A tooth microwear review". Quaternary Science Reviews. 219: 145–153. Bibcode:2019QSRv..219..145R. doi:10.1016/j.quascirev.2019.06.027. S2CID 200073388.
  25. ^ Lister, A. M.; Sher, A. V. (2015-11-13). "Evolution and dispersal of mammoths across the Northern Hemisphere". Science. 350 (6262): 805–809. Bibcode:2015Sci...350..805L. doi:10.1126/science.aac5660. ISSN 0036-8075. PMID 26564853. S2CID 206639522.
  26. ^ a b Lister, Adrian M.; Sher, Andrei V.; van Essen, Hans; Wei, Guangbiao (January 2005). "The pattern and process of mammoth evolution in Eurasia" (PDF). Quaternary International. 126–128: 49–64. Bibcode:2005QuInt.126...49L. doi:10.1016/j.quaint.2004.04.014. ISSN 1040-6182.
  27. ^ Shpansky, Andrei V; Kuzmin, Yaroslav V (April 2021). "Chronology of the MIS 3 megafauna in southeastern West Siberia and the possibility of late survival of the Khosarian steppe mammoth (Mammuthus trogontherii chosaricus)". Radiocarbon. 63 (2): 575–584. Bibcode:2021Radcb..63..575S. doi:10.1017/RDC.2021.6. ISSN 0033-8222.
  28. ^ Palombo, Maria Rita; Zedda, Marco; Zoboli, Daniel (March 2024). "The Sardinian Mammoth's Evolutionary History: Lights and Shadows". Quaternary. 7 (1): 10. doi:10.3390/quat7010010. ISSN 2571-550X.
  29. ^ Haynes, Gary (March 2022). "Late Quaternary Proboscidean Sites in Africa and Eurasia with Possible or Probable Evidence for Hominin Involvement". Quaternary. 5 (1): 18. doi:10.3390/quat5010018. ISSN 2571-550X.

Further reading

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  • Benes, Josef (1979). Prehistoric Animals and Plants. London: Hamlyn. p. 271. ISBN 0-600-30341-1.
  • Augusti, Jordi; Anton, Mauricio (2002). Mammoths, Sabertooths and Hominids 65 Million Years of Mammalian Evolution in Europe. Columbia University Press. ISBN 0-231-11640-3.
  • Lister, Adrian; Bahn, Paul (1997). Mammuts : Riesen der Eiszeit (in German). Sigmaringen: Thorbecke Verlag. ISBN 3-7995-9050-1.
  • Mol, Dick; Lacombat, Frédéric (2010). Mammoths & Mastodons of Haute-Loire. Drukware. p. 271. ISBN 978-2-911794-97-1. (English and French)
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