Stephanorhinus kirchbergensis, also known as Merck's rhinoceros or the forest rhinoceros, is an extinct species of rhinoceros belonging to the genus Stephanorhinus from the Middle to Late Pleistocene of Eurasia. Its range spanned from western Europe to eastern Asia. Among the last members of the genus, it co-existed alongside Stephanorhinus hemitoechus (the narrow-nosed or steppe rhinoceros) in the western part of its range.
Etymology and taxonomy
The first part of the genus name is derived from that of King Stephen I of Hungary, and the second part from 'rhinos' (ρινος, meaning "nose"), as with Dicerorhinus. The species name was given by Georg Friedrich von Jäger in 1839 for Kirchberg an der Jagst in Baden-Württemberg, Germany where the type specimens had been found.[1] It is often known in English (and equivalents in other languages) as Merck's rhinoceros after Carl Heinrich Merck, who gave the initial name to the species in 1784 as Rhinoceros incisivus, that is now considered a nomen oblitum, and who after a widely used junior synonym of the species, Rhinoceros merckii (historically several alternate spellings) was named by Johann Jakob Kaup in 1841.[2]
Description
Comparison of the head angle of Merck's rhinoceros (top) with that of Stephanorhinus hemitoechus and the woolly rhinoceros (middle and bottom, respectively)
Merck's rhinoceros was a large rhinoceros, with a body mass in the range of 1,500–3,000 kilograms (3,300–6,600 lb),[3] with a particularly large specimen from Poland reaching an estimated height at the withers of 1.82 metres (6.0 ft).[4] It is one of the largest species of Stephanorhinus, exceeding S. hundsheimensis and S. hemitoechus in size.[5] The bones of the skeleton are robust and massive. The skull of Merck's rhinoceros is elongated, with the septum nasalis ossified only towards its anterior (front) end. The mandibular symphysis is relatively long and the mandible has a horizontal high, thick branch.[6]
Dental anatomy
The enamel of the teeth is very thick, and often bright coloured and smooth, with very thin or absent coronal cement. The buccal (cheek-facing) sides of the teeth often have sub-vertical bluish lines. Tooth dimensions are highly variable in comparison to other Stephanorhinus species. The upper teeth, especially the molars, are much higher towards the buccal side than to the lingual (towards the tongue) side. The ectolophs of the first and second upper molars have shallower folds, especially the fold between the paracone and mesostyle, than those of S. hemitoechus, resulting in a less pronounced undulation. In comparison to other species of Stephanorhinus, the premolars of S. kirchbergensis are mesially (towards the front of the tooth) broad and relatively lingually short. The upper premolar ectoloph folds are shallow, and have narrow anterior valleys. The ectoloph curves strongly mesially and often distally (towards the hind portion of the tooth) towards the inside of the tooth. In both upper molars and premolars, the metalophs and the protolophs are distinctly bulbous. The lower premolars and molars are similar and hard to distinguish.[6]
Origin
The earliest definitive records are from Choukoutien Locality 13, in Fangshan District near Beijing at around the Early-Middle Pleistocene transition.[7]Stephanorhinus yunchuchenensis from Shanxi, China, likely represents a junior synonym of S. kirchbergensis, its precise age is uncertain, but it has been suggested to date to the late Early Pleistocene.[8]S. kirchbergensis appears in Europe during the early Middle Pleistocene between 0.7 and 0.6 million years ago, existing alongside the already present S. hundsheimensis.[9] Mitochondrial and nuclear genomes obtained from a permafrost specimen[10][11] and a dental proteome[12] suggest that it is more closely related to the woolly rhinoceros than the Sumatran rhinoceros. A 2023 morphological study suggested its closest relative was the narrow-nosed rhinoceros (S. hemitoechus).[13]
Relationships among Late Pleistocene and modern rhinoceros genera, based on nuclear DNA, after Liu et al, 2021:[11]
Stephanorhinus kirchbergensis (Merck's or forest rhinoceros)
Distribution and Chronology
Approximate time averaged range of Stephanorhinus kirchbergensis (red) and Stephanorhinus hemitoechus (blue), with overlapping range in purple.
Its range spans from Europe to East Asia, but appears to be absent from the Iberian Peninsula.[14][15] It was predominantly present in Europe during interglacial periods where it formed part of the Palaeoloxodon antiquus assemblage, where it occurred alongside the straight-tusked elephant (Palaeoloxodon antquus) the narrow-nosed rhinoceros (Stephanorhinus hemitoechus), and the hippopotamus (Hippopotamus amphibius).[16] The northeast most extent of its range of its range is in Denmark[17] and southern Britain[14] (though it appears to have been absent from Britain during the Last Interglacial).[9] It is presumed to have had a preference for closed forest and woodland habitats, as opposed to the open grassland habitats favoured by S. hemitoechus.[16] Its range extended into the Arctic Circle in Eastern Siberia, with a 70–48,000 year old skull known from arctic Yakutia in the Chondon River valley[10] and a late Middle Pleistocene aged lower jaw from the Yana River valley.[18] Teeth are known from caves in Primorsky Krai , suggested to date between 50,000 and 25,000 years ago based on dates of other bones found in the deposit, which are the easternmost known records,[19] along with a record from the Middle Pleistocene of western Japan.[20] A tooth of S. cf. kirchbergensis of an unknown age is known from the Lut Desert in eastern Iran.[21] It is fairly common throughout the Pleistocene in North China,[22] but is a rarer component of South Chinese assemblages,[23] being known from around 30 localities in the region.[7] Antoine (2012) states that D.choukoutienensis, D. lantianensis, and D. yunchuchenensis are local names for the taxon, without elaboration.[22] Its range was strongly controlled by glacial cycles, with the species experiencing repeated cycles of expansion and contraction as the ice sheets advanced, this accounts for the relative rarity of its remains in comparison to the woolly rhinoceros.[14] During the Last Glacial Period, the species range contracted. The timing of its extinction in Europe is uncertain, thought it postdates the end of the Last Interglacial around 115,000 years ago.[24] Radiocarbon dated remains from the Altai date to around 40,000 years ago.[25] The youngest reliable records in China are from the Rhino Cave in Hubei, which is early Late Pleistocene in age.[23] Though less definitive remains are known from near Harbin in Heilongjiang, which are thought to be 20 kya in age.[7] Records from Migong Cave just south of the Yangtze River in the Three Gorges area in northeastern Chongqing are suggested to date to MIS 2 (29,000-14,000 years ago).[26]
Diet
Restoration of two Merck's rhinoceros in open wooded landscape with oak trees during the Eemian interglacial in Europe
Merck's rhinoceros has been interpreted as a browser or a mixed feeder, consuming both browse such as branches and leaves of trees and shrubs, as well as low-lying vegetation. Its diet appears to have varied according to local conditions.[27][28][9] Analysis of plant material embedded within teeth from the Neumark-Nord locality in Germany found remains of Populus (poplar or aspen) Quercus (oak), Crataegus (hawthorn), Pyracantha, Urtica (nettles) and Nymphaea (water lilies) as well as indeterminate remains of Betulaceae, Rosaceae, and Poaceae (grass).[3] Preserved plant remains found with the teeth on the arctic Chondon skull included twigs of Salix (willow), Betula (birch) and abundant Larix (larch) alongside fragments of Ericaceae (heather); sedges were notably absent.[10] A specimen from Eemian aged deposits in Gorzów Wielkopolski in Poland had twigs of Corylus (hazel), Carpinus (hornbeam), and Viscum (mistletoe), alongside fruit scales of birch, with hazel and birch dominating amongst the pollen.[27] The pollen from a specimen found at Spinadesco in Italy was dominated (~50%) by trees, particularly Alnus (alder) and Fagus (beech), with Hippophae rhamnoides (sea buckthorn), dominating amongst the shrubs, with around 30% of the total contribution being from a variety of herbaceous plants.[29]
Human exploitation
Cut marks are known on bones of S. kirchbergensis from the Guado San Nicola site in central Italy, which dates to the late Middle Pleistocene, around 400-345,000 years ago.[30] Remains of S. kirchbergensis with cut marks have also been reported from the Medzhibozh locality in western Ukraine, dating to MIS 11, around 425-375,000 years ago.[31] At the Taubach travertine site in Thuringia, Germany, which dates to the Eemian (approximately 130,000-115,000 years ago) abundant remains of Merck's rhinoceros with cut marks are known. The vast majority of remains were of young subadults, alongside a much smaller number of adults. It has been suggested that the rhinoceroses were killed and butchered on site by Neanderthals.[32]
Gallery
Partial skull in Stuttgart
300,000 year old dentary fragment from the United Kingdom in the NHM, London
Remains of Merck's rhinoceros from Germany
View of the top of the snout of a S. kirchbergensis skull, showing the rugose texture of the horn attachment area
References
^Georg Friedrich Jäger: Über die fossilen Säugetiere welche in Württemberg in verschiedenen Formationen aufgefunden worden sind, nebst geognostischen Bemerkungen über diese Formationen. C. Erhard Verlag, Stuttgart, 1835–39
^Johann Jakob Kaup: Akten der Urwelt oder Osteologie der urweltlichen Säugethiere und Amphibien. Darmstadt, Verlag des Herausgebers, 1841
^ abcBilla, E.M.E. 2011a. Occurrences of Stephanorhinus kirchbergensis (Jäger, 1839) (Mammalia, Rhinocerotidae) in Eurasia - An account. Acta Palaeontologica Romaniae 7: 17-40
^Billia, E.M.E., Zervanová, J., 2015. New Stephanorhinus kirchbergensis(Mammalia, Rhinocerotidae) records in Eurasia. Addenda to a previous work. Gortania.Geologia, Paleontologia, Paletnologia36, 55–68.
^ abPushkina, Diana (July 2007). "The Pleistocene easternmost distribution in Eurasia of the species associated with the Eemian Palaeoloxodon antiquus assemblage". Mammal Review. 37 (3): 224–245. doi:10.1111/j.1365-2907.2007.00109.x. ISSN0305-1838.
^Billia, E.M.E. and Zervanovȧ, J., New Stephanorhinus kirchbergensis (Jäger, 1839) (Mammalia, Rhinocerotidae) records in Eurasia. Addenda to a previous work, Geol., Paleontol., Paletnol., 2015, vol. 36, pp. 55–68.
^Shpansky, A. V.; Boeskorov, G. G. (July 2018). "Northernmost Record of the Merck's Rhinoceros Stephanorhinus kirchbergensis (Jäger) and Taxonomic Status of Coelodonta jacuticus Russanov (Mammalia, Rhinocerotidae)". Paleontological Journal. 52 (4): 445–462. Bibcode:2018PalJ...52..445S. doi:10.1134/S003103011804010X. ISSN0031-0301. S2CID91447285.
^Kosintsev, P. A.; Zykov, S. V.; Tiunov, M. P.; Shpansky, A. V.; Gasilin, V. V.; Gimranov, D. O.; Devjashin, M. M. (March 2020). "The First Find of Merck's Rhinoceros (Mammalia, Perissodactyla, Rhinocerotidae, Stephanorhinus kirchbergensis Jäger, 1839) Remains in the Russian Far East". Doklady Biological Sciences. 491 (1): 47–49. doi:10.1134/S0012496620010032. ISSN0012-4966. PMID32483707. S2CID219156923.
^Pang, Libo; Chen, Shaokun; Huang, Wanbo; Wu, Yan; Wei, Guangbiao (April 2017). "Paleoenvironmental and chronological analysis of the mammalian fauna from Migong Cave in the Three Gorges Area, China". Quaternary International. 434: 25–31. Bibcode:2017QuInt.434...25P. doi:10.1016/j.quaint.2014.11.039.