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Aurochs

November 16, 2023

Not to be confused with Bos taurus, European bison, or Oryx.

The aurochs (Bos primigenius) (/ˈɔːrɒks/ or /ˈrɒks/) is an extinct cattle species, considered to be the wild ancestor of modern domestic cattle. With a shoulder height of up to 180 cm (71 in) in bulls and 155 cm (61 in) in cows, it was one of the largest herbivores in the Holocene; it had massive elongated and broad horns that reached 80 cm (31 in) in length.

Aurochs
Temporal range: Early Pleistocene–Recent
Mounted skeleton of an aurochs bull at the National Museum of Denmark

Extinct (1627) (IUCN 3.1)[1]
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Family: Bovidae
Subfamily: Bovinae
Genus: Bos
Species:
B. primigenius
Binomial name
Bos primigenius
Subspecies
List
Former distribution of the aurochs

The aurochs was part of the Pleistocene megafauna. It probably evolved in Asia and migrated west and north during warm interglacial periods. The oldest known aurochs fossils found in India and North Africa date to the Middle Pleistocene and in Europe to the Holstein interglacial. As indicated by fossil remains in Northern Europe, it reached Denmark and southern Sweden during the Holocene. The aurochs declined during the late Holocene due to habitat loss and hunting, and became extinct around the 17th century.

The aurochs is depicted in Paleolithic cave paintings, Neolithic petroglyphs, Ancient Egyptian reliefs and Bronze Age figurines. It symbolised power, sexual potency and prowess in religions of the ancient Near East. Its horns were used in votive offerings, as trophies and drinking horns.

Two aurochs domestication events occurred during the Neolithic Revolution. One gave rise to the domestic cattle (Bos taurus) in the Fertile Crescent in the Near East that was introduced to Europe via the Balkans and the coast of the Mediterranean Sea. Hybridisation between aurochs and early domestic cattle occurred during the early Holocene. Domestication of the Indian aurochs led to the zebu cattle (Bos indicus) that hybridised with early taurine cattle in the Near East about 4,000 years ago. Some modern cattle breeds exhibit features reminiscent of the aurochs, such as the dark colour and light eel stripe along the back of bulls, the lighter colour of cows, or an aurochs-like horn shape.

Etymology edit

Both "aur" and "ur" are Germanic or Celtic words meaning "wild ox".[3][4] The Old High German words ūr meaning "primordial" and ohso for "ox" were compounded to ūrohso, which became the early modern Aurochs.[5] The Latin word "urus" was used for wild ox from the Gallic Wars onwards.[4][6]

The use of the plural form aurochsen in English is a direct parallel of the German plural Ochsen and recreates the same distinction by analogy as English singular ox and plural oxen.[7] "Aurochs" is both the singular and the plural term used to refer to the animal.[8]

Taxonomy and evolution edit

The scientific name Bos taurus was introduced by Carl Linnaeus in 1758 for feral cattle in Poland.[9] The scientific name Bos primigenius was proposed for the aurochs by Ludwig Heinrich Bojanus in 1825 (this was dated to 1827 by some authors[10]) who described the skeletal differences between the aurochs and domestic cattle.[2] The name Bos namadicus was used by Hugh Falconer in 1859 for cattle fossils found in Nerbudda deposits.[11]Bos primigenius mauritanicus was coined by Philippe Thomas in 1881 who described fossils found in deposits near Oued Seguen west of Constantine, Algeria.[12]

In 2003, the International Commission on Zoological Nomenclature placed Bos primigenius on the Official List of Specific Names in Zoology and thereby recognized the validity of this name for a wild species.[13][14]

Four aurochs subspecies are recognised:

Evolution edit

Calibrations using fossils of 16 Bovidae species indicate that the Bovini tribe evolved about 11.7 million years ago.[18] The Bos and Bison genetic lineages are estimated to have genetically diverged from the Bovini about 2.5 to 1.65 million years ago.[19][20] The following cladogram shows the phylogenetic relationships of the aurochs based on analysis of nuclear and mitochondrial genomes in the Bovini tribe:[21][22][23][19][24]

Bovini 

Pseudoryx nghetinhensis (Asian unicorn)  

Bubalina 

Bubalus (Asian buffaloes)

Syncerus (African buffaloes)

Bovina
Bos
subgenus Bison
Bos bison (American bison) 

B. b. bison (plains bison)

B. b. athabascae (wood bison)  

Bos bonasus (wisent) 

B. b. bonasus (lowland wisent)[a]

B. b. hungarorum (Carpathian wisent)  [b] 

B. b. caucasicus (Caucasian wisent) [c]

Bos priscus (steppe wisent)

Bos schoetensacki (Pleistocene wood bison)

Bos occidentalis (Holocene bison)

Bos antiquus (ancient bison)

Bos latifrons (long-horned bison)

Bos sivalensis

Bos palaeosinensis

Bos hanaizumiensis

Bos tamanensis

Bos voigtstedtensis

Bos suchovi

Bos georgicus

Bos menneri

Bos degiulii

Bos satrianensis

subgenus Poephagus
Bos mutus (wild yak)   

B. mutus (wild yak)   

 B. m. grunniens (domestic yak)

Bos baikalensis

subgenus Bos
Bos primigenius

B. primigenius (aurochs)

Bos taurus

B. t. taurus (Taurine cattle)

B. t. indicus (Indicine cattle)

B. t. africanus (Sanga cattle)

(domestic cattle)
(aurochs)

Bos acutifrons

Bos caucasicus

Bos buiaensis

subgenus Novibos

Bos sauveli (kouprey)  / [d]
 
 

subgenus Bibos
Bos gaurus (gaur)   

B. gaurus (gaur)   

 B. g. frontalis (gayal)

Bos javanicus (banteng)   

B. javanicus (banteng)   

 B. j. domesticus (Bali cattle)

Bos palaesondaicus

(cattle)

Leptobos

Pelorovis

Platycerabos

Urmiabos

Yakopsis

Epileptobos

Ioribos

Protobison

Adjiderebos

  1. ^ survived only in captivity from 1921 to 1951[25][26]
  2. ^ survived until 1852[27]
  3. ^ survived until 1927[28]
  4. ^ last seen in 1982[29][30]

The cold Pliocene climate caused an extension of open grassland, which enabled the evolution of large grazers.[5] Bos acutifrons is a possible ancestor of the aurochs, of which a fossil skull was excavated in the Sivalik Hills in India that dates to the Early Pleistocene about 2 million years ago.

An aurochs skull excavated in Tunisia's Kef Governorate from early Middle Pleistocene strata dating about 0.78 million years ago is the oldest known fossil specimen to date, indicating that the genus Bos might have evolved in Africa and migrated to Eurasia during the Middle Pleistocene.[31] Middle Pleistocene aurochs fossils were also excavated in a Saharan erg in the Hoggar Mountains.[32]

The earliest aurochs fossils excavated in Europe date to the Holstein interglacial 230,000 years Before Present (BP).[33] A mitochondrial DNA analysis showed that hybridisation between the aurochs and the steppe bison (Bos priscus) occurred about 120,000 years ago; the European bison (Bos bonasus) contains up to 10% aurochs ancestry.[34]

Fossils of the Indian subspecies (Bos primigenius namadicus) were excavated in alluvial deposits in South India dating to the Middle Pleistocene.[35] This lead Van Vuure to conclude that it possibly migrated west into the Middle East during the Middle or Late Pleistocene.[5]

Late Pleistocene aurochs fossils were found in Affad 23 in Sudan dating to 50,000 years ago when the climate in this region was more humid than during the African humid period.[36] Two aurochs bones found in the Romito Cave in Italy were radiocarbon dated to 20,210 and 19,351 years BP.[37] Aurochs bones found in a cave near San Teodoro, Sicily date to the Late Epigravettian 14,785–14,781 years BP.[38]

Fossils found at various locations in Denmark date to the Holocene 9,925–2,865 years BP.[39]Mesowear analysis of aurochs premolar teeth indicates that it changed from an abrasion-dominated grazer in the Danish Preboreal to a mixed feeder in the Boreal, Atlantic and Subboreal periods of the Holocene.[40]

Description edit

 
Illustration by Sigismund von Herberstein captioned: Urus sum, polonis Tur, germanis Aurox; ignari Bisontis nomen dederant; translated: "I am Urus, Tur in Polish, Aurox in German; the ignorant ones gave me the name Bison".
 
Aurochs skeleton from Zealand island in Denmark on display in the Natural History Museum of Denmark

According to a 16th century description by Sigismund von Herberstein, the aurochs was pitch-black with a grey streak along the back; his wood carving made in 1556 was based on a culled aurochs, which he had received in Mazovia.[41] In 1827, Charles Hamilton Smith published an image of an aurochs that was based on an oil painting that he had purchased from a merchant in Augsburg, which is thought to have been made in the early 16th century.[42] This painting is thought to have shown an aurochs,[5][43] although some authors suggested it may have shown a hybrid between an aurochs and domestic cattle, or a Polish steer.[44] Contemporary reconstructions of the aurochs are based on skeletons and the information derived from contemporaneous artistic depictions and historic descriptions of the animal.[5]

Coat colour edit

Remains of aurochs hair were not known until the early 1980s.[45] Depictions show that the North African aurochs may have had a light saddle marking on its back.[43] Calves were probably born with a chestnut colour, and young bulls changed to black with a white eel stripe running down the spine, while cows retained a reddish-brown colour. Both sexes had a light-coloured muzzle, but evidence for variation in coat colour does not exist. Egyptian grave paintings show cattle with a reddish-brown coat colour in both sexes, with a light saddle, but the horn shape of these suggest that they may depict domesticated cattle.[5] Many primitive cattle breeds, particularly those from Southern Europe, display similar coat colours to the aurochs, including the black colour in bulls with a light eel stripe, a pale mouth, and similar sexual dimorphism in colour.[5][43] A feature often attributed to the aurochs is blond forehead hairs. According to historical descriptions of the aurochs, it had long and curly forehead hair, but none mentions a certain colour. Although the colour is present in a variety of primitive cattle breeds, it is probably a discolouration that appeared after domestication.[5]

Body shape edit

 
Drawing based on an aurochs bull skeleton from Lund and a cow skeleton from Cambridge, with characteristic features of the aurochs
 
Speculative profile of an Indian aurochs

The proportions and body shape of the aurochs were strikingly different from many modern cattle breeds. For example, the legs were considerably longer and more slender, resulting in a shoulder height that nearly equalled the trunk length. The skull, carrying the large horns, was substantially larger and more elongated than in most cattle breeds. As in other wild bovines, the body shape of the aurochs was athletic, and especially in bulls, showed a strongly expressed neck and shoulder musculature. Therefore, the fore hand was larger than the rear, similar to the wisent, but unlike many domesticated cattle. Even in carrying cows, the udder was small and hardly visible from the side; this feature is equal to that of other wild bovines.[5]

Size edit

The aurochs was one of the largest herbivores in Holocene Europe. The size of an aurochs appears to have varied by region, with larger specimens in northern Europe than farther south. Aurochs in Denmark and Germany ranged in height at the shoulders between 155–180 cm (61–71 in) in bulls and 135–155 cm (53–61 in) in cows, while aurochs bulls in Hungary reached 160 cm (63 in).[46]

The African aurochs was similar in size to the European aurochs in the Pleistocene, but declined in size during the transition to the Holocene; it may have also varied in size geographically.[47]

The body mass of aurochs appears to have shown some variability. Some individuals reached around 700 kg (1,540 lb), whereas those from the late Middle Pleistocene are estimated to have weighed up to 1,500 kg (3,310 lb).[5] The aurochs exhibited considerable sexual dimorphism in the size of males and females.[48]

Horns edit

The horns were massive, reaching 80 cm (31 in) in length and between 10 and 20 cm (3.9 and 7.9 in) in diameter.[43] Its horns grew from the skull at a 60° angle to the muzzle facing forwards and were curved in three directions, namely upwards and outwards at the base, then swinging forwards and inwards, then inwards and upwards. The curvature of bull horns was more strongly expressed than horns of cows.[5] The basal circumference of horn cores reached 44.5 cm (17.5 in) in the largest Chinese specimen and 48 cm (19 in) in a French specimen.[49] Some cattle breeds still show horn shapes similar to that of the aurochs, such as the Spanish fighting bull, and occasionally also individuals of derived breeds.[5]

Genetics edit

A well-preserved aurochs bone yielded sufficient mitochondrial DNA for a sequence analysis, which showed that its genome consists of 16,338 base pairs.[50] Further studies using the aurochs whole genome sequence have identified candidate microRNA-regulated domestication genes.[51]

Distribution and habitat edit

The aurochs was widely distributed in North Africa, Mesopotamia, and throughout Europe to the Pontic–Caspian steppe, Caucasus and Western Siberia in the west and to the Gulf of Finland and Lake Ladoga in the north.[52]

Fossil horns attributed to the aurochs were found in Late Pleistocene deposits at an elevation of 3,400 m (11,200 ft) on the eastern margin of the Tibetan plateau close to the Heihe River in Zoigê County that date to about 26,620±600 years BP. Most fossils in China were found in plains below 1,000 m (3,300 ft) in Heilongjiang, Yushu, Jilin, northeastern Manchuria, Inner Mongolia, near Beijing, Yangyuan County in Hebei province, Datong and Dingcun in Shanxi province, Huan County in Gansu and in Guizhou provinces.[49] Ancient DNA in aurochs fossils found in Northeast China indicate that the aurochs survived in the region until at least 5,000 years BP.[53] Fossils were also excavated on the Korean Peninsula,[54] and in the Japanese archipelago.[55][56]

Landscapes in Europe probably consisted of dense forests throughout much of the last few thousand years. The aurochs is likely to have used riparian forests and wetlands along lakes.[48] Pollen of mostly small shrubs found in fossiliferous sediments with aurochs remains in China indicate that it preferred temperate grassy plains or grasslands bordering woodlands.[49] It may have also lived in open grasslands.[57] In the warm Atlantic period of the Holocene, it was restricted to remaining open country and forest margins, where competition with livestock and humans gradually increased leading to a successive decline of the aurochs.[40]

Extinction edit

The Indian aurochs (B. p. namadicus) became extinct during the Indus Valley Civilisation likely due to habitat loss, caused by expanding pastoralism and interbreeding with domestic zebu.[58][59] Its latest remains ever found were dated to 3,800 YBP, making it the first of the three aurochs subspecies to die out.[60][61]

The African aurochs (B. p. mauritanicus) may have survived until at least to the Roman period, as indicated by fossils found in Buto and Faiyum in the Nile Delta.[47][need quotation to verify]

The Eurasian aurochs (B. p. primigenius) was present in southern Sweden during the Holocene climatic optimum until at least 7,800 years BP.[62] In Denmark, the first known local extinction of the aurochs occurred after the sea level rise on the newly formed Danish islands about 8,000–7,500 years BP, and the last documented aurochs lived in southern Jutland around 3,000 years BP.[39] The latest known aurochs fossil in Great Britain dates to 3,245 years BP, and it was probably extinct by 3,000 years ago.[63]

Aurochs was still widespread in Europe during the time of the Roman Empire, when it was widely popular as a battle beast in Roman amphitheatres.[citation needed] Excessive hunting began and continued until it was nearly extinct. The gradual extinction of the aurochs in Central Europe was concurrent with the clearcutting of large forest tracts between the 9th and 12th centuries.[52]

By the 13th century, the aurochs existed only in small numbers in Eastern Europe, and hunting it became a privilege of nobles and later royals.[5] The population in Hungary declined since at least the 9th century and was extinct in the 13th century.[64][65]

Findings from subfossil records indicate that wild aurochs might have survived in northwestern Transylvania until the 14th to 16th century, in western Moldavia until probably the early 17th century,[66][failed verification][67][failed verification] and in northeastern Bulgaria and around Sofia until the 17th century at most.[68][failed verification] An aurochs horn found at a medieval site in Sofia indicates that it survived in western Bulgaria until the second half of the 17th to the first half of the 18th century, although these records have been found to stem from domestic cattle (Bos taurus taurus).[69][70]

The last known aurochs herd lived in a marshy woodland in Poland's Jaktorów Forest. It decreased from around 50 individuals in the mid 16th century to four individuals by 1601. The last aurochs cow died in 1627 from natural causes.[71]

Behaviour and ecology edit

Aurochs formed small herds mainly in winter, but typically lived singly or in smaller groups during the summer.[52] If aurochs had social behaviour similar to their descendants, social status would have been gained through displays and fights, in which both cows and bulls engaged.[43] With its hypsodont jaw, the aurochs was probably a grazer, with a food selection very similar to domesticated cattle[5] feeding on grass, twigs and acorns.[52]

Mating season was in September, and calves were born in spring.[52] Rutting bulls had violent fights, and evidence from the Jaktorów forest shows that they were fully capable of mortally wounding one another. In autumn, aurochs fed for the winter, gaining weight and possessing a shinier coat than during the rest of the year. Calves stayed with their mothers until they were strong enough to join and keep up with the herd on the feeding grounds. Aurochs calves would have been vulnerable to predation by such animals as grey wolves (Canis lupus) and brown bears (Ursus arctos), while the immense size and strength of healthy adult aurochs meant they likely did not need to fear most predators. The lion (Panthera leo), tiger (Panthera tigris) and hyena (Crocuta crocuta) were probable predators in prehistoric times. According to historical descriptions, the aurochs was swift despite its build and could be very aggressive if provoked, but was not generally fearful of humans.[5]

Cultural significance edit

 
Seal from Mohenjo-daro
 
Relief on the Ishtar Gate on display at the Pergamon Museum

In Asia edit

Acheulean layers in Hunasagi on India's southern Deccan Plateau yielded aurochs bones with cut marks.[72] An aurochs bone with cut marks induced with flint was found in a Middle Paleolithic layer at the Nesher Ramla Homo site in Israel; it was dated to Marine Isotope Stage 5 about 120,000 years ago.[73] An archaeological excavation in Israel found traces of a feast held by the Natufian culture around 12,000 years BP, in which three aurochs were eaten. This appears to be an uncommon occurrence in the culture and was held in conjunction with the burial of an older woman, presumably of some social status.[74] Petroglyphs depicting aurochs in Gobustan Rock Art in Azerbaijan date to the Upper Paleolithic to Neolithic periods.[75] Aurochs bones and skulls found at the settlements of Mureybet, Hallan Çemi and Çayönü indicate that people stored and shared food in the Pre-Pottery Neolithic B culture.[76] Remains of an aurochs were also found in a necropolis in Sidon, Lebanon, dating to around 3,700 years BP; the aurochs was buried together with numerous animals, a few human bones and foods.[77]

Seals dating to the Indus Valley civilisation found in Harappa and Mohenjo-daro show an animal with curved horns like an aurochs.[78][79] Aurochs figurines were made by the Maykop culture in the Western Caucasus.[80]

The aurochs is denoted in the Akkadian words rīmu and rēmu, both used in the context of hunts by rulers such as Naram-Sin of Akkad, Tiglath-Pileser I and Shalmaneser III; in Mesopotamia, it symbolised power and sexual potency, was an epithet of the gods Enlil and Shamash, denoted prowess as an epithet of the king Sennacherib and the hero Gilgamesh. Wild bulls are frequently referred to in Ugaritic texts as hunted by and sacrificed to the god Baal.[81] An aurochs is depicted on Babylon's Ishtar Gate, constructed in the 6th century BC.[82]

In Africa edit

Petroglyphs depicting aurochs found in Qurta in the upper Nile valley were dated to the Late Pleistocene about 19–15,000 years BP using luminescence dating and are the oldest engravings found to date in Africa.[83] Aurochs are part of hunting scenes in reliefs in a tomb at Thebes, Egypt dating to the 20th century BC, and in the mortuary temple of Ramesses III at Medinet Habu dating to around 1175 BC. The latter is the youngest depiction of aurochs in Ancient Egyptian art to date.[84]

In Europe edit

 
Aurochs in a cave painting in Lascaux
 
A cup from Vaphio showing an aurochs hunt, 15th century BC
 
Coat of arms of Moldavia from 1481 at Putna Monastery

The aurochs is widely represented in Paleolithic cave paintings in the Chauvet and Lascaux caves in southern France dating to 36,000 and 21,000 years BP, respectively.[85] Two Paleolithic rock engravings in the Calabrian Romito Cave depict an aurochs.[86] Palaeolithic engravings showing aurochs were also found in the Grotta del Genovese on the Italian island of Levanzo.[87] Upper Paleolithic rock engravings and paintings depicting the aurochs were also found in caves on the Iberian Peninsula dating from the Gravettian to the Magdalenian cultures.[88][89][90] Aurochs bones with chop and cut marks were found at various Mesolithic hunting and butchering sites in France, Luxemburg, Germany, the Netherlands, England and Denmark.[91] Aurochs bones were also found in Mesolithic settlements by the Narva and Emajõgi rivers in Estonia.[92] Aurochs and human bones were uncovered from pits and burnt mounds at several Neolithic sites in England.[93] A cup found in the Greek site of Vaphio shows a hunting scene, in which people try to capture an aurochs.[94] One of the bulls throws one hunter on the ground while attacking the second with its horns. The cup seems to date to Mycenaean Greece.[95][96] Greeks and Paeonians hunted aurochs and used their huge horns as trophies, cups for wine, and offerings to the gods and heroes. The ox mentioned by Samus, Philippus of Thessalonica and Antipater as killed by Philip V of Macedon on the foothills of mountain Orvilos, was actually an aurochs; Philip offered the horns, which were 105 cm (41 in) long and the skin to a temple of Hercules.[97] The aurochs was described in Julius Caesar's Commentarii de Bello Gallico.[6] Aurochs were occasionally captured and exhibited in venatio shows in Roman amphitheatres such as the Colosseum.[98] Aurochs horns were often used by Romans as hunting horns.[5]

In the Nibelungenlied, Sigurd kills four aurochs.[99] During the Middle Ages, aurochs horns were used as drinking horns including the horn of the last bull; many aurochs horn sheaths are preserved today.[100] The aurochs drinking horn at Corpus Christi College, Cambridge was engraved with the college's coat of arms in the 17th century.[101] An aurochs head with a star between its horns and Christian iconographic elements represents the official coat of arms of Moldavia perpetuated for centuries.[102]

Aurochs were hunted with arrows, nets and hunting dogs, and its hair on the forehead was cut from the living animal; belts were made out of this hair and believed to increase the fertility of women. When the aurochs was slaughtered, the os cordis was extracted from the heart; this bone contributed to the mystique and magical powers that were attributed to it.[5] In eastern Europe, the aurochs has left traces in expressions like "behaving like an aurochs" for a drunken person behaving badly, and "a bloke like an aurochs" for big and strong people.[48]

Domestication edit

The earliest known domestication of the aurochs dates to the Neolithic Revolution in the Fertile Crescent, where cattle hunted and kept by Neolithic farmers gradually decreased in size between 9800 and 7500 BC. Aurochs bones found at Mureybet and Göbekli Tepe are larger in size than cattle bones from later Neolithic settlements in northern Syria like Dja'de el-Mughara and Tell Halula.[103] In Late Neolithic sites of northern Iraq and western Iran dating to the sixth millennium BC, cattle remains are also smaller but more frequent, indicating that domesticated cattle were imported during the Halaf culture from the central Fertile Crescent region.[104] Results of genetic research indicate that the modern taurine cattle (Bos taurus) arose from 80 aurochs tamed in southeastern Anatolia and northern Syria about 10,500 years ago.[15] Taurine cattle spread into the Balkans and northern Italy along the Danube River and the coast of the Mediterranean Sea.[105] Hybridisation between male aurochs and early domestic cattle occurred in central Europe between 9500 and 1000 BC.[106] Analyses of mitochondrial DNA sequences of Italian aurochs specimens dated to 17–7,000 years ago and 51 modern cattle breeds revealed some degree of introgression of aurochs genes into south European cattle, indicating that female aurochs had contact with free-ranging domestic cattle.[107] Cattle bones of various sizes found at a Chalcolithic settlement in the Kutná Hora District provide further evidence for hybridisation of aurochs and domestic cattle between 3000 and 2800 BC in the Bohemian region.[46]Whole genome sequencing of a 6,750-year-old aurochs bone found in England was compared with genome sequence data of 81 cattle and single-nucleotide polymorphism data of 1,225 cattle. Results revealed that British and Irish cattle breeds share some genetic variants with the aurochs specimen; early herders in Britain might have been responsible for the local gene flow from aurochs into the ancestors of British and Irish cattle.[108] The Murboden cattle breed also exhibits sporadic introgression of female European aurochs into domestic cattle in the Alps.[109] Domestic cattle continued to diminish in both body and horn size until the Middle Ages.[94]

The Indian aurochs is thought to have been domesticated 10–8,000 years ago.[110] Aurochs fossils found at the Neolithic site of Mehrgarh in Pakistan are dated to around 8,000 years BP and represent some of the earliest evidence for its domestication on the Indian subcontinent.[61] Female Indian aurochs contributed to the gene pool of zebu (Bos indicus) between 5,500 and 4,000 years BP during the expansion of pastoralism in northern India. The zebu initially spread eastwards to Southeast Asia.[111] Hybridisation between zebu and early taurine cattle occurred in the Near East after 4,000 years BP coinciding with the drought period during the 4.2-kiloyear event.[112] The zebu was introduced to East Africa about 3,500–2,500 years ago,[105] and reached Mongolia in the 13th and 14th centuries.[113]

A third domestication event thought to have occurred in Egypt's Western Desert is not supported by results of an analysis of genetic admixture, introgression and migration patterns of 3,196 domestic cattle representing 180 populations.[105]

Breeding of aurochs-like cattle edit

 
Heck cattle in Lainzer Tiergarten

In the early 1920s, Heinz Heck initiated a selective breeding program in Hellabrunn Zoo attempting to breed back the aurochs using several cattle breeds; the result is called Heck cattle.[114] Herds of these cattle were released to Oostvaardersplassen, a polder in the Netherlands in the 1980s as aurochs surrogates for naturalistic grazing with the aim to restore prehistorical landscapes.[115] Large numbers of them died of starvation during the cold winters of 2005 and 2010, and the project of no interference ended in 2018.[116]

Starting in 1996, Heck cattle were crossed with southern European cattle breeds such as Sayaguesa Cattle, Chianina and to a lesser extent Spanish Fighting Bulls in the hope of creating a more aurochs-like animal. The resulting crossbreeds are called Taurus cattle.[117] Other breeding-back projects are the Tauros Programme and the Uruz Project.[115] However, approaches aiming at breeding an aurochs-like phenotype do not equate to an aurochs-like genotype.[118]

See also edit

References edit

  1. ^ Tikhonov, A. (2008). "Bos primigenius". IUCN Red List of Threatened Species. 2008: e.T136721A4332142. doi:10.2305/IUCN.UK.2008.RLTS.T136721A4332142.en. Retrieved 19 November 2021.
  2. ^ a b Bojanus, L.H. (1827). "De Uro nostrate eiusque sceleto commentation". Nova Acta Physico-medica Academiae Caesareae Leopoldino-Carolinae Naturae Curiosum (in Latin). 13 (5): 53–478.
  3. ^ Partridge, E. (1983). "Urus, Uri gallica". Origins: A Short Etymological Dictionary of Modern English. New York: Greenwich House. p. 523. ISBN 978-0-517-41425-5.
  4. ^ a b Lewis, C. T. & Short, C. (1879). "ūrus". A Latin Dictionary. Oxford: Clarendon Press. p. 1936.
  5. ^ a b c d e f g h i j k l m n o p q r Van Vuure, C. (2005). Retracing the Aurochs: History, Morphology and Ecology of an extinct wild Ox. Sofia: Pensoft Publishers. ISBN 954-642-235-5.
  6. ^ a b McDevitte, W. A. (1869). "Book 6, Chapter 28". The Gallic Wars by Julius Caesar. Harper's New Classical Library. Translated by Bohn, W. S. (First ed.). New York: Harper & Brothers.
  7. ^ Crystal, D. (2003). The Cambridge Encyclopedia of the English Language (Second ed.). Cambridge: Cambridge University Press. ISBN 0-521-53033-4.
  8. ^ Campbell, D.I. & Whittle, P.M. (2017). "Three Case Studies: Aurochs, Mammoths and Passenger Pigeons". Resurrecting Extinct Species. Cham: Palgrave Macmillan. pp. 29–48. doi:10.1007/978-3-319-69578-5_2. ISBN 978-3-319-69578-5.
  9. ^ Linnaeus, C. (1758). "Bos Taurus". Systema naturae per regna tria naturae: secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis (in Latin). Vol. 1 (Tenth reformed ed.). Holmiae: Laurentii Salvii. p. 71.
  10. ^ Daszkiewicz, Piotr; Samojlik, Tomasz (2019). "Corrected date of the first description of aurochs Bos primigenius (Bojanus, 1827) and steppe bison Bison priscus (Bojanus, 1827)". Mammal Research. 64 (2): 299–300. doi:10.1007/s13364-018-0389-6. ISSN 2199-2401.
  11. ^ Falconer, H. (1859). "Notice of the various species of bovine animals". The Zoologist. 17: 6414–6429.
  12. ^ Thomas, P. (1881). "Recherches sur les bovidés fossiles de l'Algérie". Bulletin de la Société Zoologique de France. 6 (Avril): 92–136.
  13. ^ International Commission on Zoological Nomenclature (2003). "Opinion 2027 (Case 3010). Usage of 17 specific names based on wild species which are pre-dated by or contemporary with those based on domestic animals (Lepidoptera, Osteichthyes, Mammalia)". The Bulletin of Zoological Nomenclature. 60 (1): 81–84.
  14. ^ Gentry, A.; Clutton-Brock, J. & Groves, C.P. (2004). "The naming of wild animal species and their domestic derivatives". Journal of Archaeological Science. 31 (5): 645–651. Bibcode:2004JArSc..31..645G. doi:10.1016/j.jas.2003.10.006.
  15. ^ a b Bollongino, R.; Burger, J.; Powell, A.; Mashkour, M.; Vigne, J.-D. & Thomas, M. G. (2012). "Modern Taurine Cattle descended from small number of Near-Eastern founders". Molecular Biology and Evolution. 29 (9): 2101–2104. doi:10.1093/molbev/mss092. PMID 22422765.
  16. ^ Avise, J.C. & Ayala, F.J. (2009). In the Light of Evolution. Vol. 106. pp. 9933–9938. doi:10.17226/12692. ISBN 978-0-309-13986-1. PMID 25032348.
  17. ^ Siarabi, S.; Kostopoulos, D. S.; Bartsiokas, A.; Rozzi, R. (2023). "Insular aurochs (Mammalia, Bovidae) from the Pleistocene of Kythera Island, Greece". Quaternary Science Reviews. 319. 108342. doi:10.1016/j.quascirev.2023.108342.
  18. ^ Bibi, F. (2013). "A multi-calibrated mitochondrial phylogeny of extant Bovidae (Artiodactyla, Ruminantia) and the importance of the fossil record to systematics". BMC Evolutionary Biology. 13: 166. doi:10.1186/1471-2148-13-166. PMC 3751017. PMID 23927069.
  19. ^ a b Wang, K.; Lenstra, J.A.; Liu, L.; Hu, Q.; Ma, T.; Qiu, Q. & Liu, J. (2018). "Incomplete lineage sorting rather than hybridization explains the inconsistent phylogeny of the wisent". Communications Biology. 1 (1): 169. doi:10.1038/s42003-018-0176-6. PMC 6195592. PMID 30374461.
  20. ^ Zeyland, J.; Wolko, Ł.; Lipiński, D.; Woźniak, A.; Nowak, A.; Szalata, M.; Bocianowski, J. & Słomski, R. (2012). "Tracking of wisent–bison–yak mitochondrial evolution". Journal of Applied Genetics. 53 (3): 317–322. doi:10.1007/s13353-012-0090-4. PMC 3402669. PMID 22415349.
  21. ^ Hassanin, A.; An, J.; Ropiquet, A.; Nguyen, T. T. & Couloux, A. (2013). "Combining multiple autosomal introns for studying shallow phylogeny and taxonomy of Laurasiatherian mammals: Application to the tribe Bovini (Cetartiodactyla, Bovidae)". Molecular Phylogenetics and Evolution. 66 (3): 766–775. doi:10.1016/j.ympev.2012.11.003. PMID 23159894.
  22. ^ Bibi, F. (2013). "A multi-calibrated mitochondrial phylogeny of extant Bovidae (Artiodactyla, Ruminantia) and the importance of the fossil record to systematics". BMC Evolutionary Biology. 13 (1): 166. doi:10.1186/1471-2148-13-166. PMC 3751017. PMID 23927069.
  23. ^ Castelló, J.R. (2016). Bovids of the world : antelopes, gazelles, cattle, goats, sheep and relatives. Princeton: Princeton University Press. ISBN 978-0-691-16717-6.
  24. ^ Grange, Thierry; Brugal, Jean-Philip; Flori, Laurence; Gautier, Mathieu; Uzunidis, Antigone; Geigl, Eva-Maria (18 July 2018). "The Evolution and Population Diversity of Bison in Pleistocene and Holocene Eurasia: Sex Matters". Diversity. 10 (3): 65. doi:10.3390/d10030065. ISSN 1424-2818.
  25. ^ Pucek, Z.; Belousova, I.P.; Krasiñska, M.; Krasiñski, Z.A. & Olech, W. (2004). European bison : status survey and conservation action plan. Gland, Switzerland: IUCN/SSC Bison Specialist Group. ISBN 2831707625.
  26. ^ Pucek, Z.; Belousova, I.P.; Krasiñski, Z.A.; Krasiñska, M.; Olech, W. (10 October 2003). . Convention on the Conservation of European Wildlife and Natural Habitats. Białowieża, Polish People's Republic: Standing Committee of the Council of Europe. Archived from the original on 2 March 2014.
  27. ^ Tokarska, Małgorzata; Pertoldi, Cino; Kowalczyk, Rafał; Perzanowski, Kajetan (April 2011). "Genetic status of the European bison Bison bonasus after extinction in the wild and subsequent recovery: European bison conservation genetics". Mammal Review. 41 (2): 151–162. doi:10.1111/j.1365-2907.2010.00178.x.
  28. ^ Bashkirov, I. S. (1939). Caucasian European Bison (in Russian). Moscow: Central Board for Reserves, Forest Parks and Zoological Gardens, Council of the People's Commissars of the RSFSR.
  29. ^ Considine, Douglas M.; Considine, Glenn D. (1995). Van Nostrand's scientific encyclopedia (8th ed.). New York: Springer Science & Business Media. p. 446. ISBN 978-1-4757-6918-0.
  30. ^ Charles McDermid; Cheang Sokha (4 May 2006). . Wild Cattle News. Archived from the original on 10 October 2007. 1982: A small herd of kouprey is spotted along Cambodia's border in Thailand. A massive search is forced to turn back when a tripped landmine injures the guide ... the last credible first-hand reports of kouprey sightings in Cambodia occurred in the 1980s.
  31. ^ Martínez-Navarro, B.; Karoui-Yaakoub, N.; Oms, O.; Amri, L.; López-García, J.M.; Zerai, K.; Blain, H.A.; Mtimet, M.S.; Espigares, M.P.; Ali, N.B.H.; Ros-Montoya, S.; Boughdiri, M.; Agustí J.; Khayati-Ammar, H.; Maalaoui K.; El Khir, M.O.; Sala, R.; Othmani, A.; Hawas, R.; Gómez-Merino, G.; Solè, À.; Carbonell, E. & Palmqvist, P. (2014). "The early Middle Pleistocene archeopaleontological site of Wadi Sarrat (Tunisia) and the earliest record of Bos primigenius". Quaternary Science Reviews. 90: 37–46. Bibcode:2014QSRv...90...37M. doi:10.1016/j.quascirev.2014.02.016.
  32. ^ Thomas, H. (1977). Géologie et paléontologie du gisement acheuléen de l'erg Tihodaïne, Ahaggar Sahara Algérien. Paris: Memoires du centre de recherches anthlropologiques, prehistoriques et ethnographiques.
  33. ^ Kurten, B. (1968). "Order Artiodactyla". Pleistocene Mammals of Europe. London: Aldine Publishing Company. pp. 171–190.
  34. ^ Soubrier, J.; Gower, G.; Chen, K.; Richards, S.M.; Llamas, B.; Mitchell, K.J.; Ho, S.Y.W.; Kosintsev, P.; Lee, M.S.Y.; Baryshnikov, G.; Bollongino, R.; Bover, P.; Burger, J.; Chivall, D.; Crégut-Bonnoure, E.; Decker, J.E.; Doronichev, V.B.; Douka, K.; Fordham, D.A.; Fontana, F.; Fritz, C.; Glimmerveen, J.; Golovanova, L.V.; Groves, C.; Guerreschi, A.; Haak, W.; Higham, T.; Hofman-Kamińska, E.; Immel, A.; Julien, M.-A.; Krause, J.; Krotova, O.; Langbein, F.; Larson, G.; Rohrlach, A.; Scheu, A.; Schnabel, R.D.; Taylor, J.F.; Tokarska, M.; Tosello, G.; van der Plicht, J.; van Loenen, A.; Vigne, J.-D.; Wooley, O.; Orlando, L.; Kowalczyk, R.; Shapiro, B. & Cooper, A. (2016). "Early cave art and ancient DNA record the origin of European bison". Nature Communications. 7 (13158): 13158. Bibcode:2016NatCo...713158S. doi:10.1038/ncomms13158. PMC 5071849. PMID 27754477.
  35. ^ Pilgrim, G.E. (1947). "The evolution of the buffaloes, oxen, sheep and goats". Zoological Journal of the Linnean Society. 41 (279): 272–286. doi:10.1111/j.1096-3642.1940.tb02077.x.
  36. ^ Osypinska, M.; Osypinski, P.; Belka, Z.; Chlodnicki, M.; Wiktorowicz, P.; Ryndziewicz, R. & Kubiak, M. (2021). "Wild and Domestic Cattle in the Ancient Nile Valley: Marks of ecological change". Journal of Field Archaeology. 46 (7): 429–447. doi:10.1080/00934690.2021.1924491. S2CID 236373843.
  37. ^ Craig, O.E.; Biazzo, M.; Colonese, A.C.; Di Giuseppe, Z.; Martinez-Labarga, C.; Vetro, D.L.; Lelli, R.; Martini, F. & Rickards, O. (2010). "Stable isotope analysis of Late Upper Palaeolithic human and faunal remains from Grotta del Romito (Cosenza), Italy". Journal of Archaeological Science. 37 (10): 2504–2512. Bibcode:2010JArSc..37.2504C. doi:10.1016/j.jas.2010.05.010. S2CID 129496788.
  38. ^ Mannino, M.A.; Di Salvo, R.; Schimmenti, V.; Di Patti, C.; Incarbona, A.; Sineo, L. & Richards, M.P. (2011). "Upper Palaeolithic hunter-gatherer subsistence in Mediterranean coastal environments: an isotopic study of the diets of the earliest directly-dated humans from Sicily" (PDF). Journal of Archaeological Science. 38 (11): 3094–3100. Bibcode:2011JArSc..38.3094M. doi:10.1016/j.jas.2011.07.009. hdl:10447/61514. Archived (PDF) from the original on 9 October 2022.
  39. ^ a b Gravlund, P.; Aaris-Sørensen, K.; Hofreiter, M.; Meyer, M.; Bollback, J.P. & Noe-Nygaard, N (2012). "Ancient DNA extracted from Danish aurochs (Bos primigenius): genetic diversity and preservation". Annals of Anatomy. 194 (1): 103–111. CiteSeerX 10.1.1.392.4989. doi:10.1016/j.aanat.2011.10.011. PMID 22188739.
  40. ^ a b Schulz, E. & Kaiser, T.M. (2007). "Feeding strategy of the Urus Bos primigenius Bojanus, 1827 from the Holocene of Denmark". Courier Forschungsinstitut Senckenberg. 259: 155–164.
  41. ^ Senglaub, K. (2002). "Sigmund von Herberstein (1486–1566) und die historischen Konfusionen um Ur und Wisent" (PDF). Säugetierkundliche Informationen. 5 (26): 253–266. Archived (PDF) from the original on 9 October 2022.
  42. ^ Lydekker, R. (1912). "The wild Ox and its extermination". The ox and its kindred. London: Methuen &Co. Ltd. pp. 37–67.
  43. ^ a b c d e Frisch, W. (2010). Der Auerochs: Das europäische Rind. Starnberg: Lipp Graphische Betriebe. ISBN 978-3-00-026764-2.
  44. ^ Pyle, C.M. (1995). "Update to: "Some late sixteenth-century depictions of the aurochs (Bos primigenius Bojanus, extinct 1627): New evidence from Vatican MS Urb. Lat. 276". Archives of Natural History. 22 (3): 437–438. doi:10.3366/anh.1995.22.3.437.
  45. ^ Ryder, M.L. (1984). "The first hair remains from an aurochs (Bos primigenius) and some medieval domestic cattle hair". Journal of Archaeological Science. 11 (1): 99–101. Bibcode:1984JArSc..11...99R. doi:10.1016/0305-4403(84)90045-1.
  46. ^ a b Kysely, R. (2008). "Aurochs and potential crossbreeding with domestic cattle in Central Europe in the Eneolithic period. A metric analysis of bones from the archaeological site of Kutná Hora-Denemark (Czech Republic)". Anthropozoologica. 43 (2): 7–37.
  47. ^ a b Linseele, V. (2004). "Size and size change of the African aurochs during the Pleistocene and Holocene". Journal of African Archaeology. 2 (2): 165–185. doi:10.3213/1612-1651-10026.
  48. ^ a b c Van Vuure, T. (2002). "History, morphology and ecology of the Aurochs (Bos primigenius)". Lutra. 45 (1): 1–16. CiteSeerX 10.1.1.534.6285.
  49. ^ a b c Zong, G. (1984). Translated by Dehut, J. (PDF). Vertebrata PalAsiatica. 22 (3): 239–245. Archived from the original (PDF) on 27 September 2007.
  50. ^ Edwards, C.J.; Magee, D.A.; Park, S.D.E.; McGettigan, P.A. & Lohan, A.J. (2010). "A complete mitochondrial genome sequence from a mesolithic wild Aurochs (Bos primigenius)". PLOS ONE. 5 (2): e9255. Bibcode:2010PLoSO...5.9255E. doi:10.1371/journal.pone.0009255. PMC 2822870. PMID 20174668.
  51. ^ Braud, M.; Magee, D.A.; Park, S.D.E.; Sonstegard, T.S.; Waters, S.M.; MacHugh, D.E. & Spillane, C. (2017). "Genome-wide microRNA binding site variation between extinct wild Aurochs and modern cattle identifies candidate microRNA-regulated domestication genes". Frontiers in Genetics. 8: 3. doi:10.3389/fgene.2017.00003. PMC 5281612. PMID 28197171.
  52. ^ a b c d e Heptner, V.G.; Nasimovich, A.A. & Bannikov, A.G. (1988) [1961]. "Aurochs, primitive cattle". Mlekopitajuščie Sovetskogo Soiuza. Moskva: Vysšaia Škola [Mammals of the Soviet Union]. Vol. Volume I. Artiodactyla and Perissodactyla. Washington DC: Smithsonian Institution and the National Science Foundation. pp. 539–549.
  53. ^ Cai, D.; Zhang, N.; Zhu, S.; Chen, Q.; Wang, L.; Zhao, X.; Ma, X.; Royle, T.C.; Zhou, H. & Yang, D.Y. (2018). "Ancient DNA reveals evidence of abundant aurochs (Bos primigenius) in Neolithic Northeast China" (PDF). Journal of Archaeological Science. 98: 72–80. Bibcode:2018JArSc..98...72C. doi:10.1016/j.jas.2018.08.003. S2CID 135295723. Archived (PDF) from the original on 9 October 2022.
  54. ^ Jo, Y.-S.; Baccus, J.T. & Koprowski, J. (2018). Mammals of Korea. Seoul: Magnolia Press. ISBN 978-89-6811-369-7.
  55. ^ Kurosawa Y. "モノが語る牛と人間の文化 - ② 岩手の牛たち" (PDF). LIAJ. Oshu city Cattle Museum (109): 29–31. Archived (PDF) from the original on 9 October 2022. Retrieved 6 April 2016.
  56. ^ Hasegawa, Y.; Okumura, Y. & Tatsukawa, H. (2009). (PDF). Bulletin of Gunma Museum of Natural History (13): 47–52. Archived from the original (PDF) on 24 September 2015. Retrieved 6 April 2016.
  57. ^ Beutler, A. (1996). "Die Großtierfauna Europas und ihr Einfluss auf Vegetation und Landschaft". Natur und Kulturlandschaft. 1: 51–106.
  58. ^ Chen, S.; Lin, B.-Z.; Baig, M.; Mitra, B.; Lopes, R. J.; Santos, A. M.; Magee, D. A.; Azevedo, M.; Tarroso, P.; Sasazaki, S.; Ostrowski, S.; Mahgoub, O.; Chaudhuri, T. K.; Zhang, Y.-p.; Costa, V.; Royo, L. J.; Goyache, F.; Luikart, G.; Boivin, N.; Fuller, D. Q.; Mannen, H.; Bradley, D. G.; Beja-Pereira, A. (1 January 2010). "Zebu Cattle Are an Exclusive Legacy of the South Asia Neolithic". Molecular Biology and Evolution. 27 (1): 1–6. doi:10.1093/molbev/msp213. ISSN 0737-4038.
  59. ^ Rangarajan, M. (2001). India's Wildlife History. Delhi, India: Permanent Black. p. 4. ISBN 978-81-7824-140-1.
  60. ^ Chen, S.; Lin, B.-Z.; Baig, M.; Mitra, B.; Lopes, R. J.; Santos, A. M.; Magee, D. A.; Azevedo, M.; Tarroso, P.; Sasazaki, S.; Ostrowski, S.; Mahgoub, O.; Chaudhuri, T. K.; Zhang, Y.-p.; Costa, V.; Royo, L. J.; Goyache, F.; Luikart, G.; Boivin, N.; Fuller, D. Q.; Mannen, H.; Bradley, D. G.; Beja-Pereira, A. (1 January 2010). "Zebu Cattle Are an Exclusive Legacy of the South Asia Neolithic". Molecular Biology and Evolution. 27 (1): 1–6. doi:10.1093/molbev/msp213. ISSN 0737-4038.
  61. ^ a b Turvey, S.T.; Sathe, V.; Crees, J.J.; Jukar, A.M.; Chakraborty, P. & Lister, A.M. (2021). "Late Quaternary megafaunal extinctions in India: How much do we know?" (PDF). Quaternary Science Reviews. 252: 106740. Bibcode:2021QSRv..25206740T. doi:10.1016/j.quascirev.2020.106740. S2CID 234265221.
  62. ^ Magnell, O. (2017). "Climate Change at the Holocene Thermal Maximum and Its Impact on Wild Game Populations in South Scandinavia". In Monks, G.G. (ed.). Climate Change and Human Responses. Vertebrate Paleobiology and Paleoanthropology. Dordrecht: Springer. pp. 123–135. doi:10.1007/978-94-024-1106-5_7. ISBN 978-94-024-1105-8.
  63. ^ Clutton-Brock, J. (1989). "Five thousand years of livestock in Britain". Biological Journal of the Linnean Society. 38 (1): 31–37. doi:10.1111/j.1095-8312.1989.tb01560.x.
  64. ^ Bartosiewicz, L. (2006). "Interdisciplinary analysis of an Iron Age Aurochs horn core from Hungary: a case study". Acta Archaeologica Academiae Scientiarum Hungaricae. 57 (1–3): 153–163. doi:10.1556/AArch.57.2006.1-3.10.
  65. ^ Bartosiewicz, L. (1997). "A horn worth blowing? A stray find of aurochs from Hungary". Antiquity. 71 (274): 1007–1010. doi:10.1017/S0003598X00085902. S2CID 161722401.
  66. ^ Bejenaru, L.; Stanc, S.; Popovici, M.; Balasescu, A. & Cotiuga, V. (2013). "Holocene subfossil records of the auroch (Bos primigenius) in Romania". The Holocene. 23 (4): 603–614. Bibcode:2013Holoc..23..603B. doi:10.1177/0959683612465448. S2CID 131580290.
  67. ^ Nemeth, A.; Barany, A.; Csorba, G.; Magyari, E.; Pazonyi, P. & Palfy, J. (2016). "Holocene mammal extinctions in the Carpathian Basin: A review" (PDF). Mammal Review. 47 (1): 38–52. doi:10.1111/mam.12075. Archived (PDF) from the original on 9 October 2022.
  68. ^ Boev, Z. (2016). "Subfossil vertebrate fauna from Forum Serdica (Sofia, Bulgaria), 16–18th Century AD". Acta Zoologica Bulgarica. 68 (3): 415–424.
  69. ^ Boev, Z. (2021). "The last Bos primigenius survived in Bulgaria (Cetartiodactyla: Bovidae)". Lynx. New Series. 52: 139–142. doi:10.37520/lynx.2021.010. S2CID 246761121.
  70. ^ Németh, Attila; Bárány, Annamária; Csorba, Gábor; Magyari, Enikö; Pazonyi, Piroska; Pálfy, József (January 2017). "Holocene mammal extinctions in the Carpathian Basin: a review". Mammal Review. 47 (1): 38–52. doi:10.1111/mam.12075. ISSN 0305-1838. all Late Medieval and younger remains, artefacts (including drinking horns), and illustrations represent long-horned large domestic cattle, rather than aurochs
  71. ^ Rokosz, M. (1995). (PDF). Animal Genetics Resources Information. 16: 5–12. doi:10.1017/S1014233900004582. Archived from the original (PDF) on 14 January 2013.
  72. ^ Sathe, V. & Paddayya, K. (2012). "The faunal background of the stone age cultures of Hunsgi and Baichbal Valleys, Southern Deccan". Bulletin of the Deccan College Research Institute. 72: 79–97. JSTOR 43610690.
  73. ^ Prévost, M.; Groman-Yaroslavski, I.; Gershtein, K.M.C.; Tejero, J.M. & Zaidner, Y. (2021). "Early evidence for symbolic behavior in the Levantine Middle Paleolithic: A 120 ka old engraved aurochs bone shaft from the open-air site of Nesher Ramla, Israel". Quaternary International. early view: 80–93. doi:10.1016/j.quaint.2021.01.002. S2CID 234236699.
  74. ^ Munro, N.D. & Grosman, L. (2010). "Early evidence (ca. 12,000 B.P.) for feasting at a burial cave in Israel". Proceedings of the National Academy of Sciences of the United States of America. 107 (35): 15362–15366. Bibcode:2010PNAS..10715362M. doi:10.1073/pnas.1001809107. PMC 2932561. PMID 20805510.
  75. ^ Farajova, M. (2011). "Gobustan: Rock Art Cultural Landscape" (PDF). Adoranten. 11: 41–66. Archived (PDF) from the original on 9 October 2022.
  76. ^ Bogaard, A.; Charles, M.; Twiss, K.C.; Fairbairn, A.; Yalman, N.; Filipović, D.; Demirergi, G.A.; Ertuğ, F.; Russell, N. & Henecke, J. (2009). "Private pantries and celebrated surplus: storing and sharing food at Neolithic Çatalhöyük, Central Anatolia". Antiquity. 83 (321): 649–668. doi:10.1017/S0003598X00098896. S2CID 162522860.
  77. ^ Makarem, M. (2012). . L'Orient Le Jour. Beirut. Archived from the original on 25 May 2013. Retrieved 3 January 2020.
  78. ^ Mackay, E.J.H. (1935). "Steatite pectoral, once mounted in metal and filled with inlay". The Indus civilization. London: Lovat Dickson & Thompson Ltd. p. Plate J.
  79. ^ Geer, A.A.E. (2008). "Bos primigenius. The Aurochs". Animals in stone: Indian mammals sculptured through time. Leiden: Brill. pp. 111–114. ISBN 978-90-04-16819-0.
  80. ^ Reinhold, S.; Gresky, J.; Berezina, N.; Kantorovich, A.R.; Knipper, C.; Maslov, V.E.; Petrenko, V.G.; Alt, K.W. & Belinsky, A.B. (2017). "Contextualising Innovation: Cattle Owners and Wagon Drivers in the North Caucasus and Beyond". In Maran, J. & Stockhammer, P. (eds.). Appropriating Innovations. Entangled Knowledge in Eurasia, 5000-150 BCE. Oxford: Oxbow Books. pp. 78–97. ISBN 9781785707247.
  81. ^ Wyatt, S. & Wyatt, N. (2013). "The longue durée in the beef business". In Loretz, O.; Ribichini, S.; Watson, W.G.E. & Zamora, J.Á. (eds.). Ritual, Religion, and Reason. Studies in the Ancient World in Honour of Paolo Xella. Münster: Ugarit-Verlag. pp. 417–450. ISBN 9783868350876.
  82. ^ Shugart, H.H. (2014). "Taming the Unicorn, Yoking the Aurochs: Animal and Plant Domestication and the Consequent Alteration of the Surface of the Earth". Foundations of the Earth. Columbia University Press. pp. 35–70. doi:10.7312/shug16908-003. ISBN 9780231537698.
  83. ^ Huyge, D.; Vandenberghe, D.A.; De Dapper, M.; Mees, F.; Claes, W. & Darnell, J.C. (2011). "First evidence of Pleistocene rock art in North Africa: securing the age of the Qurta petroglyphs (Egypt) through OSL dating". Antiquity. 85 (330): 1184–1193. doi:10.1017/S0003598X00061998. S2CID 130471822.
  84. ^ Beierkuhnlein, C. (2015). "Bos primigenius in Ancient Egyptian art – historical evidence for the continuity of occurrence and ecology of an extinct key species" (PDF). Frontiers of Biogeography. 7 (3): 107–118. doi:10.21425/F5FBG21527. S2CID 55643283. Archived (PDF) from the original on 9 October 2022.
  85. ^ Geneste, J.M. (2017). "From Chauvet to Lascaux: 15,000 years of cave art". Archaeology, Ethnology & Anthropology of Eurasia. 45 (3): 29–40. doi:10.17746/1563-0110.2017.45.3.029-040.
  86. ^ Vacca, B.B. (2012). "The hunting of large mammals in the Upper Palaeolithic of southern Italy: A diachronic case study from Grotta del Romito". Quaternary International. 252: 155–164. Bibcode:2012QuInt.252..155V. doi:10.1016/j.quaint.2011.06.054.
  87. ^ Di Maida, G.; García-Diez, M.; Pastoors, A. & Terberger, T. (2018). "Palaeolithic art at Grotta di Cala dei Genovesi, Sicily: a new chronology for mobiliary and parietal depictions". Antiquity. 92 (361): 38–55. doi:10.15184/aqy.2017.209. S2CID 166147585.
  88. ^ Weniger, G.C. (1999). "Representations of the Aurochs in the Upper Palaeolithic and Epipalaeolithic on the Iberian Peninsula". In Weniger, G.C. (ed.). Archäologie und Biologie des Aurochsen. Bonn: Neanderthal Museum. pp. 133–140. ISBN 9783980583961.
  89. ^ Fernandes, A.P.B. (2008). "Aesthetics, ethics, and rock art conservation: How far can we go? The case of recent conservation tests carried out in un-engraved outcrops in the Côa Valley, Portugal" (PDF). In Heyd, T.; Clegg, J. (eds.). Aesthetics and Rock Art III: Symposium. British Archaeological Reports. Vol. 1818. Oxford: Archaeopress. pp. 85–92. ISBN 9781407303048. Archived (PDF) from the original on 9 October 2022.
  90. ^ Soares De Figueiredo, S.; Botica, N.; Bueno Ramirez, P.; Tsoupra, A. & Mirao, J. (2020). "Analysis of portable rock art from Foz do Medal (Northwest Iberia): Magdalenian images of horses and aurochs". Comptes Rendus Palevol. 19 (4): 63–77. doi:10.5852/cr-palevol2020v19a4.
  91. ^ Prummel, W. & Niekus, M.J.L.T. (2011). "Late Mesolithic hunting of a small female aurochs in the valley of the River Tjonger (the Netherlands) in the light of Mesolithic aurochs hunting in NW Europe". Journal of Archaeological Science. 38 (7): 1456–1467. Bibcode:2011JArSc..38.1456P. doi:10.1016/j.jas.2011.02.009.
  92. ^ Kriiska, A. (2000). "Settlements of coastal Estonia and maritime hunter-gatherer economy". Lietuvos Archeologija. 19: 153–166.
  93. ^ Lynch, A.H.; Hamilton, J. & Hedges, R.E.M. (2008). "Where the wild things are: Aurochs and Cattle in England". Antiquity. 82 (318): 1025–1039. doi:10.1017/S0003598X00097751. S2CID 161079743.
  94. ^ a b Ajmone-Marsan, P.; Garcia, J.F. & Lenstra, J.A. (2010). "On the origin of cattle: How Aurochs became cattle and colonized the World". Evolutionary Anthropology. 19 (4): 148–157. doi:10.1002/evan.20267. S2CID 86035650.
  95. ^ Davis, E.N. (1974). "The Vapheio Cups: One Minoan and One Mycenean?". The Art Bulletin. 56 (4): 472–487. doi:10.1080/00043079.1974.10789932.
  96. ^ De Grummond, W.W. (1980). "Hands and Tails on the Vapheio Cups". American Journal of Archaeology. 84 (3): 335–337. doi:10.2307/504710. JSTOR 504710.
  97. ^ Douglas, N. (1927). Birds and Beasts of the Greek Anthology. Florence: B. Blom. ISBN 9780405084614.
  98. ^ Knight, C. (1847). "European bison, or Aurochs". The National Cyclopaedia of Useful Knowledge. Vol. (Volume III). London: Little, Brown and Co. pp. 367–371.
  99. ^ Heinzle, J., ed. (2013). Das Nibelungenlied und die Klage: Nach der Handschrift 857 der Stiftsbibliothek St. Gallen. Deutscher Klassiker Verlag. p. 300. ISBN 9783618661207.
  100. ^ Bro-Jørgensen, M.H.; Carøe, C.; Vieira, F.G.; Nestor, S.; Hallström, A.; Gregersen, K.M.; Etting, V.; Gilbert, M.T.P. & Sinding, M.H.S. (2018). "Ancient DNA analysis of Scandinavian medieval drinking horns and the horn of the last aurochs bull". Journal of Archaeological Science. 99: 47–54. Bibcode:2018JArSc..99...47B. doi:10.1016/j.jas.2018.09.001. S2CID 133684586.
  101. ^ Oman, C. (1972). "Cambridge and Cornelimünster". Aachener Kunstblätter. 43: 305–307.
  102. ^ Boutiuc, M.; Florescu, O.; Vasilache, V. & Sandu, I. (2020). "The comparative study of the state of conservation of two medieval documents on parchment from different historical periods". Materials. 13 (21): 4766. Bibcode:2020Mate...13.4766H. doi:10.3390/ma13214766. PMC 7662666. PMID 33114524.
  103. ^ Helmer, D.; Gourichon, L.; Monchot, H.; Peters, J. & Segui, M.S. (2005). "Identifying early domestic cattle from pre-pottery Neolithic sites on the Middle Euphrates using sexual dimorphism". In Vigne, J.D.; Peters, J. & Helmer, D. (eds.). The first steps of animal domestication: new archeological approaches. Oxford: Oxbow Books. pp. 86–95. ISBN 1-84217-121-6.
  104. ^ Arbuckle, B.S.; Price, M.D.; Hongo, H. & Öksüz, B. (2016). "Documenting the initial appearance of domestic cattle in the Eastern Fertile Crescent (northern Iraq and western Iran)" (PDF). Journal of Archaeological Science. 72: 1–9. Bibcode:2016JArSc..72....1A. doi:10.1016/j.jas.2016.05.008. Archived (PDF) from the original on 9 October 2022.
  105. ^ a b c Pitt, D.; Sevane, N.; Nicolazzi, E.L.; MacHugh, D.E.; Park, S.D.; Colli, L.; Martinez, R.; Bruford, M.W. & Orozco-terWengel, P. (2019). "Domestication of cattle: Two or three events?". Evolutionary Applications. 12 (1): 123–136. doi:10.1111/eva.12674. PMC 6304694. PMID 30622640.
  106. ^ Götherström, A.; Anderung, C.; Hellborg, L.; Elburg, R.; Smith, C.; Bradley, D.G. & Ellegren, H. (2005). "Cattle domestication in the Near East was followed by hybridization with aurochs bulls in Europe". Proceedings of the Royal Society B: Biological Sciences. 272 (1579): 2345–2351. doi:10.1098/rspb.2005.3243. PMC 1559968. PMID 16243693.
  107. ^ Beja-Pereira, A.; Caramelli, D.; Lalueza-Fox, C.; Vernesi, C.; Ferrand, N.; Casoli, A.; Goyache, F.; Royo, L.J.; Conti, S.; Lari, M.; Martini, A.; Ouragh, L.; Magid, A.; Atash, A.; Zsolnai, A.; Boscato, P.; Triantaphylidis, C.; Ploumi, K.; Sineo, L.; Mallegni, F.; Taberlet, P.; Erhardt, G.; Sampietro, L.; Bertranpetit, J.; Barbujani, G.; Luikart, G. & Bertorelle, G. (2006). "The origin of European cattle: Evidence from modern and ancient DNA". Proceedings of the National Academy of Sciences of the United States of America. 103 (21): 8113–8118. Bibcode:2006PNAS..103.8113B. doi:10.1073/pnas.0509210103. PMC 1472438. PMID 16690747.
  108. ^ Park, S.D.E.; Magee, D.A.; McGettigan, P.A.; Teasdale, M.D.; Edwards, C.J.; Lohan, A.J.; Murphy, A.; Braud, M.; Donoghue, M.T.; Liu, Y.; Chamberlain, A.T.; Rue-Albrecht, K.; Schroeder, S.; Spillane, C.; Tai, S.; Bradley, D.G.; Sonstegard, T.S.; Loftus, B.J. & MacHugh, D.E. (2015). "Genome sequencing of the extinct Eurasian wild aurochs, Bos primigenius, illuminates the phylogeography and evolution of cattle". Genome Biology. 16 (1): 234. doi:10.1186/s13059-015-0790-2. PMC 4620651. PMID 26498365.
  109. ^ Cubric-Curik, V.; Novosel, D.; Brajkovic, V.; Rota Stabelli, O.; Krebs, S.; Sölkner, J.; Šalamon, D.; Ristov, S.; Berger, B.; Trivizaki, S.; Bizelis, I.; Ferenčaković, M.; Rothammer, S.; Kunz, E.; Simčič, M.; Dovč, P.; Bunevski, G.; Bytyqi, H.; Marković, B.; Brka, M.; Kume, K.; Stojanović, S.; Nikolov, V.; Zinovieva, N.; Schönherz, A.A.; Guldbrandtsen, B.; Čačić, M.; Radović, S.; Miracle, P.; Vernesi, C.; Curik, I. & Medugorac, I. (2021). "Large-scale mitogenome sequencing reveals consecutive expansions of domestic taurine cattle and supports sporadic aurochs introgression". Evolutionary Applications. early view (4): 663–678. doi:10.1111/eva.13315. PMC 9046920. PMID 35505892.
  110. ^ Bradley, D.G.; MacHugh, D.E.; Cunningham, P. & Loftus, R.T. (1996). "Mitochondrial diversity and the origins of African and European cattle". Proceedings of the National Academy of Sciences of the United States of America. 93 (10): 5131–5135. Bibcode:1996PNAS...93.5131B. doi:10.1073/pnas.93.10.5131. PMC 39419. PMID 8643540.
  111. ^ Chen, S.; Lin, B.Z.; Baig, M.; Mitra, B.; Lopes, R.J.; Santos, A.M.; Magee, D.A.; Azevedo, M.; Tarroso, P.; Sasazaki, S. & Ostrowski, S. (2010). "Zebu cattle are an exclusive legacy of the South Asia Neolithic". Molecular Biology and Evolution. 27 (1): 1–6. doi:10.1093/molbev/msp213. PMID 19770222.
  112. ^ Verdugo, M.P.; Mullin, V.E.; Scheu, A.; Mattiangeli, V.; Daly, K.G.; Delser, P.M.; Hare, A.J.; Burger, J.; Collins, M.J.; Kehati, R. & Hesse, P. (2019). "Ancient cattle genomics, origins, and rapid turnover in the Fertile Crescent" (PDF). Science. 365 (6449): 173–176. Bibcode:2019Sci...365..173V. doi:10.1126/science.aav1002. PMID 31296769. S2CID 195894128. Archived (PDF) from the original on 9 October 2022.
  113. ^ Mannen, H.; Kohno, M.; Nagata, Y.; Tsuji, S.; Bradley, D.G.; Yeo, J.S.; Nyamsamba, D.; Zagdsuren, Y.; Yokohama, M.; Nomura, K. & Amano, T. (2004). "Independent mitochondrial origin and historical genetic differentiation in North Eastern Asian cattle" (PDF). Molecular Phylogenetics and Evolution. 32 (2): 539–544. doi:10.1016/j.ympev.2004.01.010. PMID 15223036.
  114. ^ Heck, H. (1951). "The breeding-back of the Aurochs". Oryx. 1 (3): 117–122. doi:10.1017/S0030605300035286.
  115. ^ a b Lorimer, J. & Driessen, C. (2016). "From "Nazi cows" to cosmopolitan "ecological engineers": specifying rewilding through a history of Heck cattle". Annals of the American Association of Geographers. 106 (3): 631–652. Bibcode:2016AAAG..106..631L. doi:10.1080/00045608.2015.1115332. S2CID 131547744.
  116. ^ Theunissen, B. (2019). "The Oostvaardersplassen Fiasco". Isis. 110 (2): 341–345. doi:10.1086/703338.
  117. ^ Bunzel-Drüke, M. (2001). "Ecological substitutes for Wild Horse (Equus ferus, Boddaert 1785 = E. przewalskii, Poljakov 1881) and Aurochs (Bos primigenius, Bojanus 1827)". Natur- und Kulturlandschaft. 4: 240–252. CiteSeerX 10.1.1.403.8349.
  118. ^ Sinding, M.-H.S. & Gilbert, M.T.P. (2016). "The draft genome of extinct European Aurochs and its implications for de-extinction". Open Quaternary. 2. doi:10.5334/oq.25.

External links edit

 
Wikisource has the text of the 1911 Encyclopædia Britannica article "Aurochs".
  •   Media related to Bos primigenius at Wikimedia Commons
  •   Data related to Aurochs at Wikispecies

November 16, 2023
aurochs, confused, with, taurus, european, bison, oryx, aurochs, primigenius, ɔː, extinct, cattle, species, considered, wild, ancestor, modern, domestic, cattle, with, shoulder, height, bulls, cows, largest, herbivores, holocene, massive, elongated, broad, hor. Not to be confused with Bos taurus European bison or Oryx The aurochs Bos primigenius ˈ ɔː r ɒ k s or ˈ aʊ r ɒ k s is an extinct cattle species considered to be the wild ancestor of modern domestic cattle With a shoulder height of up to 180 cm 71 in in bulls and 155 cm 61 in in cows it was one of the largest herbivores in the Holocene it had massive elongated and broad horns that reached 80 cm 31 in in length AurochsTemporal range Early Pleistocene Recent PreꞒ Ꞓ O S D C P T J K Pg N Mounted skeleton of an aurochs bull at the National Museum of DenmarkConservation statusExtinct 1627 IUCN 3 1 1 Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass MammaliaOrder ArtiodactylaFamily BovidaeSubfamily BovinaeGenus BosSpecies B primigeniusBinomial name Bos primigeniusBojanus 1825 2 SubspeciesList Bos primigenius primigenius Bojanus 1825 Bos primigenius namadicus Falconer 1859 Bos primigenius mauritanicus Thomas 1881 Bos primigenius thrinacius Siarabi 2023Former distribution of the aurochsThe aurochs was part of the Pleistocene megafauna It probably evolved in Asia and migrated west and north during warm interglacial periods The oldest known aurochs fossils found in India and North Africa date to the Middle Pleistocene and in Europe to the Holstein interglacial As indicated by fossil remains in Northern Europe it reached Denmark and southern Sweden during the Holocene The aurochs declined during the late Holocene due to habitat loss and hunting and became extinct around the 17th century The aurochs is depicted in Paleolithic cave paintings Neolithic petroglyphs Ancient Egyptian reliefs and Bronze Age figurines It symbolised power sexual potency and prowess in religions of the ancient Near East Its horns were used in votive offerings as trophies and drinking horns Two aurochs domestication events occurred during the Neolithic Revolution One gave rise to the domestic cattle Bos taurus in the Fertile Crescent in the Near East that was introduced to Europe via the Balkans and the coast of the Mediterranean Sea Hybridisation between aurochs and early domestic cattle occurred during the early Holocene Domestication of the Indian aurochs led to the zebu cattle Bos indicus that hybridised with early taurine cattle in the Near East about 4 000 years ago Some modern cattle breeds exhibit features reminiscent of the aurochs such as the dark colour and light eel stripe along the back of bulls the lighter colour of cows or an aurochs like horn shape Contents 1 Etymology 2 Taxonomy and evolution 2 1 Evolution 3 Description 3 1 Coat colour 3 2 Body shape 3 3 Size 3 4 Horns 3 5 Genetics 4 Distribution and habitat 4 1 Extinction 5 Behaviour and ecology 6 Cultural significance 6 1 In Asia 6 2 In Africa 6 3 In Europe 7 Domestication 8 Breeding of aurochs like cattle 9 See also 10 References 11 External linksEtymology editBoth aur and ur are Germanic or Celtic words meaning wild ox 3 4 The Old High German words ur meaning primordial and ohso for ox were compounded to urohso which became the early modern Aurochs 5 The Latin word urus was used for wild ox from the Gallic Wars onwards 4 6 The use of the plural form aurochsen in English is a direct parallel of the German plural Ochsen and recreates the same distinction by analogy as English singular ox and plural oxen 7 Aurochs is both the singular and the plural term used to refer to the animal 8 Taxonomy and evolution editThe scientific name Bos taurus was introduced by Carl Linnaeus in 1758 for feral cattle in Poland 9 The scientific name Bos primigenius was proposed for the aurochs by Ludwig Heinrich Bojanus in 1825 this was dated to 1827 by some authors 10 who described the skeletal differences between the aurochs and domestic cattle 2 The name Bos namadicus was used by Hugh Falconer in 1859 for cattle fossils found in Nerbudda deposits 11 Bos primigenius mauritanicus was coined by Philippe Thomas in 1881 who described fossils found in deposits near Oued Seguen west of Constantine Algeria 12 In 2003 the International Commission on Zoological Nomenclature placed Bos primigenius on the Official List of Specific Names in Zoology and thereby recognized the validity of this name for a wild species 13 14 Four aurochs subspecies are recognised The Eurasian aurochs B p primigenius was part of the Pleistocene megafauna in Eurasia 15 The Indian aurochs B p namadicus lived on the Indian subcontinent 16 The North African aurochs B p mauritanicus lived north of the Sahara 5 B p thrinacius from the Greek island of Kythira 17 Evolution edit Calibrations using fossils of 16 Bovidae species indicate that the Bovini tribe evolved about 11 7 million years ago 18 The Bos and Bison genetic lineages are estimated to have genetically diverged from the Bovini about 2 5 to 1 65 million years ago 19 20 The following cladogram shows the phylogenetic relationships of the aurochs based on analysis of nuclear and mitochondrial genomes in the Bovini tribe 21 22 23 19 24 Bovini Pseudoryx nghetinhensis Asian unicorn nbsp Bubalina Bubalus Asian buffaloes Syncerus African buffaloes Bovina Bos subgenus Bison Bos bison American bison B b bison plains bison B b athabascae wood bison nbsp Bos bonasus wisent B b bonasus lowland wisent a B b hungarorum Carpathian wisent nbsp b B b caucasicus Caucasian wisent nbsp c Bos priscus steppe wisent Bos schoetensacki Pleistocene wood bison Bos occidentalis Holocene bison Bos antiquus ancient bison Bos latifrons long horned bison Bos sivalensis Bos palaeosinensis Bos hanaizumiensis Bos tamanensis Bos voigtstedtensis Bos suchovi Bos georgicus Bos menneri Bos degiulii Bos satrianensissubgenus Poephagus Bos mutus wild yak nbsp B mutus wild yak nbsp B m grunniens domestic yak Bos baikalensissubgenus Bos Bos primigenius B primigenius aurochs Bos taurus B t taurus Taurine cattle B t indicus Indicine cattle B t africanus Sanga cattle domestic cattle aurochs Bos acutifrons Bos caucasicus Bos buiaensissubgenus Novibos Bos sauveli kouprey nbsp nbsp d subgenus Bibos Bos gaurus gaur nbsp B gaurus gaur nbsp B g frontalis gayal Bos javanicus banteng nbsp B javanicus banteng nbsp B j domesticus Bali cattle Bos palaesondaicus cattle Leptobos Pelorovis Platycerabos Urmiabos Yakopsis Epileptobos Ioribos Protobison Adjiderebos survived only in captivity from 1921 to 1951 25 26 survived until 1852 27 survived until 1927 28 last seen in 1982 29 30 The cold Pliocene climate caused an extension of open grassland which enabled the evolution of large grazers 5 Bos acutifrons is a possible ancestor of the aurochs of which a fossil skull was excavated in the Sivalik Hills in India that dates to the Early Pleistocene about 2 million years ago An aurochs skull excavated in Tunisia s Kef Governorate from early Middle Pleistocene strata dating about 0 78 million years ago is the oldest known fossil specimen to date indicating that the genus Bos might have evolved in Africa and migrated to Eurasia during the Middle Pleistocene 31 Middle Pleistocene aurochs fossils were also excavated in a Saharan erg in the Hoggar Mountains 32 The earliest aurochs fossils excavated in Europe date to the Holstein interglacial 230 000 years Before Present BP 33 A mitochondrial DNA analysis showed that hybridisation between the aurochs and the steppe bison Bos priscus occurred about 120 000 years ago the European bison Bos bonasus contains up to 10 aurochs ancestry 34 Fossils of the Indian subspecies Bos primigenius namadicus were excavated in alluvial deposits in South India dating to the Middle Pleistocene 35 This lead Van Vuure to conclude that it possibly migrated west into the Middle East during the Middle or Late Pleistocene 5 Late Pleistocene aurochs fossils were found in Affad 23 in Sudan dating to 50 000 years ago when the climate in this region was more humid than during the African humid period 36 Two aurochs bones found in the Romito Cave in Italy were radiocarbon dated to 20 210 and 19 351 years BP 37 Aurochs bones found in a cave near San Teodoro Sicily date to the Late Epigravettian 14 785 14 781 years BP 38 Fossils found at various locations in Denmark date to the Holocene 9 925 2 865 years BP 39 Mesowear analysis of aurochs premolar teeth indicates that it changed from an abrasion dominated grazer in the Danish Preboreal to a mixed feeder in the Boreal Atlantic and Subboreal periods of the Holocene 40 Description edit nbsp Illustration by Sigismund von Herberstein captioned Urus sum polonis Tur germanis Aurox ignari Bisontis nomen dederant translated I am Urus Tur in Polish Aurox in German the ignorant ones gave me the name Bison nbsp Aurochs skeleton from Zealand island in Denmark on display in the Natural History Museum of Denmark According to a 16th century description by Sigismund von Herberstein the aurochs was pitch black with a grey streak along the back his wood carving made in 1556 was based on a culled aurochs which he had received in Mazovia 41 In 1827 Charles Hamilton Smith published an image of an aurochs that was based on an oil painting that he had purchased from a merchant in Augsburg which is thought to have been made in the early 16th century 42 This painting is thought to have shown an aurochs 5 43 although some authors suggested it may have shown a hybrid between an aurochs and domestic cattle or a Polish steer 44 Contemporary reconstructions of the aurochs are based on skeletons and the information derived from contemporaneous artistic depictions and historic descriptions of the animal 5 Coat colour edit Remains of aurochs hair were not known until the early 1980s 45 Depictions show that the North African aurochs may have had a light saddle marking on its back 43 Calves were probably born with a chestnut colour and young bulls changed to black with a white eel stripe running down the spine while cows retained a reddish brown colour Both sexes had a light coloured muzzle but evidence for variation in coat colour does not exist Egyptian grave paintings show cattle with a reddish brown coat colour in both sexes with a light saddle but the horn shape of these suggest that they may depict domesticated cattle 5 Many primitive cattle breeds particularly those from Southern Europe display similar coat colours to the aurochs including the black colour in bulls with a light eel stripe a pale mouth and similar sexual dimorphism in colour 5 43 A feature often attributed to the aurochs is blond forehead hairs According to historical descriptions of the aurochs it had long and curly forehead hair but none mentions a certain colour Although the colour is present in a variety of primitive cattle breeds it is probably a discolouration that appeared after domestication 5 Body shape edit nbsp Drawing based on an aurochs bull skeleton from Lund and a cow skeleton from Cambridge with characteristic features of the aurochs nbsp Speculative profile of an Indian aurochs The proportions and body shape of the aurochs were strikingly different from many modern cattle breeds For example the legs were considerably longer and more slender resulting in a shoulder height that nearly equalled the trunk length The skull carrying the large horns was substantially larger and more elongated than in most cattle breeds As in other wild bovines the body shape of the aurochs was athletic and especially in bulls showed a strongly expressed neck and shoulder musculature Therefore the fore hand was larger than the rear similar to the wisent but unlike many domesticated cattle Even in carrying cows the udder was small and hardly visible from the side this feature is equal to that of other wild bovines 5 Size edit The aurochs was one of the largest herbivores in Holocene Europe The size of an aurochs appears to have varied by region with larger specimens in northern Europe than farther south Aurochs in Denmark and Germany ranged in height at the shoulders between 155 180 cm 61 71 in in bulls and 135 155 cm 53 61 in in cows while aurochs bulls in Hungary reached 160 cm 63 in 46 The African aurochs was similar in size to the European aurochs in the Pleistocene but declined in size during the transition to the Holocene it may have also varied in size geographically 47 The body mass of aurochs appears to have shown some variability Some individuals reached around 700 kg 1 540 lb whereas those from the late Middle Pleistocene are estimated to have weighed up to 1 500 kg 3 310 lb 5 The aurochs exhibited considerable sexual dimorphism in the size of males and females 48 Horns edit The horns were massive reaching 80 cm 31 in in length and between 10 and 20 cm 3 9 and 7 9 in in diameter 43 Its horns grew from the skull at a 60 angle to the muzzle facing forwards and were curved in three directions namely upwards and outwards at the base then swinging forwards and inwards then inwards and upwards The curvature of bull horns was more strongly expressed than horns of cows 5 The basal circumference of horn cores reached 44 5 cm 17 5 in in the largest Chinese specimen and 48 cm 19 in in a French specimen 49 Some cattle breeds still show horn shapes similar to that of the aurochs such as the Spanish fighting bull and occasionally also individuals of derived breeds 5 Genetics edit A well preserved aurochs bone yielded sufficient mitochondrial DNA for a sequence analysis which showed that its genome consists of 16 338 base pairs 50 Further studies using the aurochs whole genome sequence have identified candidate microRNA regulated domestication genes 51 Distribution and habitat editThe aurochs was widely distributed in North Africa Mesopotamia and throughout Europe to the Pontic Caspian steppe Caucasus and Western Siberia in the west and to the Gulf of Finland and Lake Ladoga in the north 52 Fossil horns attributed to the aurochs were found in Late Pleistocene deposits at an elevation of 3 400 m 11 200 ft on the eastern margin of the Tibetan plateau close to the Heihe River in Zoige County that date to about 26 620 600 years BP Most fossils in China were found in plains below 1 000 m 3 300 ft in Heilongjiang Yushu Jilin northeastern Manchuria Inner Mongolia near Beijing Yangyuan County in Hebei province Datong and Dingcun in Shanxi province Huan County in Gansu and in Guizhou provinces 49 Ancient DNA in aurochs fossils found in Northeast China indicate that the aurochs survived in the region until at least 5 000 years BP 53 Fossils were also excavated on the Korean Peninsula 54 and in the Japanese archipelago 55 56 Landscapes in Europe probably consisted of dense forests throughout much of the last few thousand years The aurochs is likely to have used riparian forests and wetlands along lakes 48 Pollen of mostly small shrubs found in fossiliferous sediments with aurochs remains in China indicate that it preferred temperate grassy plains or grasslands bordering woodlands 49 It may have also lived in open grasslands 57 In the warm Atlantic period of the Holocene it was restricted to remaining open country and forest margins where competition with livestock and humans gradually increased leading to a successive decline of the aurochs 40 Extinction edit The Indian aurochs B p namadicus became extinct during the Indus Valley Civilisation likely due to habitat loss caused by expanding pastoralism and interbreeding with domestic zebu 58 59 Its latest remains ever found were dated to 3 800 YBP making it the first of the three aurochs subspecies to die out 60 61 The African aurochs B p mauritanicus may have survived until at least to the Roman period as indicated by fossils found in Buto and Faiyum in the Nile Delta 47 need quotation to verify The Eurasian aurochs B p primigenius was present in southern Sweden during the Holocene climatic optimum until at least 7 800 years BP 62 In Denmark the first known local extinction of the aurochs occurred after the sea level rise on the newly formed Danish islands about 8 000 7 500 years BP and the last documented aurochs lived in southern Jutland around 3 000 years BP 39 The latest known aurochs fossil in Great Britain dates to 3 245 years BP and it was probably extinct by 3 000 years ago 63 Aurochs was still widespread in Europe during the time of the Roman Empire when it was widely popular as a battle beast in Roman amphitheatres citation needed Excessive hunting began and continued until it was nearly extinct The gradual extinction of the aurochs in Central Europe was concurrent with the clearcutting of large forest tracts between the 9th and 12th centuries 52 By the 13th century the aurochs existed only in small numbers in Eastern Europe and hunting it became a privilege of nobles and later royals 5 The population in Hungary declined since at least the 9th century and was extinct in the 13th century 64 65 Findings from subfossil records indicate that wild aurochs might have survived in northwestern Transylvania until the 14th to 16th century in western Moldavia until probably the early 17th century 66 failed verification 67 failed verification and in northeastern Bulgaria and around Sofia until the 17th century at most 68 failed verification An aurochs horn found at a medieval site in Sofia indicates that it survived in western Bulgaria until the second half of the 17th to the first half of the 18th century although these records have been found to stem from domestic cattle Bos taurus taurus 69 70 The last known aurochs herd lived in a marshy woodland in Poland s Jaktorow Forest It decreased from around 50 individuals in the mid 16th century to four individuals by 1601 The last aurochs cow died in 1627 from natural causes 71 Behaviour and ecology editAurochs formed small herds mainly in winter but typically lived singly or in smaller groups during the summer 52 If aurochs had social behaviour similar to their descendants social status would have been gained through displays and fights in which both cows and bulls engaged 43 With its hypsodont jaw the aurochs was probably a grazer with a food selection very similar to domesticated cattle 5 feeding on grass twigs and acorns 52 Mating season was in September and calves were born in spring 52 Rutting bulls had violent fights and evidence from the Jaktorow forest shows that they were fully capable of mortally wounding one another In autumn aurochs fed for the winter gaining weight and possessing a shinier coat than during the rest of the year Calves stayed with their mothers until they were strong enough to join and keep up with the herd on the feeding grounds Aurochs calves would have been vulnerable to predation by such animals as grey wolves Canis lupus and brown bears Ursus arctos while the immense size and strength of healthy adult aurochs meant they likely did not need to fear most predators The lion Panthera leo tiger Panthera tigris and hyena Crocuta crocuta were probable predators in prehistoric times According to historical descriptions the aurochs was swift despite its build and could be very aggressive if provoked but was not generally fearful of humans 5 Cultural significance edit nbsp Seal from Mohenjo daro nbsp Relief on the Ishtar Gate on display at the Pergamon Museum In Asia edit Acheulean layers in Hunasagi on India s southern Deccan Plateau yielded aurochs bones with cut marks 72 An aurochs bone with cut marks induced with flint was found in a Middle Paleolithic layer at the Nesher Ramla Homo site in Israel it was dated to Marine Isotope Stage 5 about 120 000 years ago 73 An archaeological excavation in Israel found traces of a feast held by the Natufian culture around 12 000 years BP in which three aurochs were eaten This appears to be an uncommon occurrence in the culture and was held in conjunction with the burial of an older woman presumably of some social status 74 Petroglyphs depicting aurochs in Gobustan Rock Art in Azerbaijan date to the Upper Paleolithic to Neolithic periods 75 Aurochs bones and skulls found at the settlements of Mureybet Hallan Cemi and Cayonu indicate that people stored and shared food in the Pre Pottery Neolithic B culture 76 Remains of an aurochs were also found in a necropolis in Sidon Lebanon dating to around 3 700 years BP the aurochs was buried together with numerous animals a few human bones and foods 77 Seals dating to the Indus Valley civilisation found in Harappa and Mohenjo daro show an animal with curved horns like an aurochs 78 79 Aurochs figurines were made by the Maykop culture in the Western Caucasus 80 The aurochs is denoted in the Akkadian words rimu and remu both used in the context of hunts by rulers such as Naram Sin of Akkad Tiglath Pileser I and Shalmaneser III in Mesopotamia it symbolised power and sexual potency was an epithet of the gods Enlil and Shamash denoted prowess as an epithet of the king Sennacherib and the hero Gilgamesh Wild bulls are frequently referred to in Ugaritic texts as hunted by and sacrificed to the god Baal 81 An aurochs is depicted on Babylon s Ishtar Gate constructed in the 6th century BC 82 In Africa edit Petroglyphs depicting aurochs found in Qurta in the upper Nile valley were dated to the Late Pleistocene about 19 15 000 years BP using luminescence dating and are the oldest engravings found to date in Africa 83 Aurochs are part of hunting scenes in reliefs in a tomb at Thebes Egypt dating to the 20th century BC and in the mortuary temple of Ramesses III at Medinet Habu dating to around 1175 BC The latter is the youngest depiction of aurochs in Ancient Egyptian art to date 84 In Europe edit nbsp Aurochs in a cave painting in Lascaux nbsp A cup from Vaphio showing an aurochs hunt 15th century BC nbsp Coat of arms of Moldavia from 1481 at Putna Monastery The aurochs is widely represented in Paleolithic cave paintings in the Chauvet and Lascaux caves in southern France dating to 36 000 and 21 000 years BP respectively 85 Two Paleolithic rock engravings in the Calabrian Romito Cave depict an aurochs 86 Palaeolithic engravings showing aurochs were also found in the Grotta del Genovese on the Italian island of Levanzo 87 Upper Paleolithic rock engravings and paintings depicting the aurochs were also found in caves on the Iberian Peninsula dating from the Gravettian to the Magdalenian cultures 88 89 90 Aurochs bones with chop and cut marks were found at various Mesolithic hunting and butchering sites in France Luxemburg Germany the Netherlands England and Denmark 91 Aurochs bones were also found in Mesolithic settlements by the Narva and Emajogi rivers in Estonia 92 Aurochs and human bones were uncovered from pits and burnt mounds at several Neolithic sites in England 93 A cup found in the Greek site of Vaphio shows a hunting scene in which people try to capture an aurochs 94 One of the bulls throws one hunter on the ground while attacking the second with its horns The cup seems to date to Mycenaean Greece 95 96 Greeks and Paeonians hunted aurochs and used their huge horns as trophies cups for wine and offerings to the gods and heroes The ox mentioned by Samus Philippus of Thessalonica and Antipater as killed by Philip V of Macedon on the foothills of mountain Orvilos was actually an aurochs Philip offered the horns which were 105 cm 41 in long and the skin to a temple of Hercules 97 The aurochs was described in Julius Caesar s Commentarii de Bello Gallico 6 Aurochs were occasionally captured and exhibited in venatio shows in Roman amphitheatres such as the Colosseum 98 Aurochs horns were often used by Romans as hunting horns 5 In the Nibelungenlied Sigurd kills four aurochs 99 During the Middle Ages aurochs horns were used as drinking horns including the horn of the last bull many aurochs horn sheaths are preserved today 100 The aurochs drinking horn at Corpus Christi College Cambridge was engraved with the college s coat of arms in the 17th century 101 An aurochs head with a star between its horns and Christian iconographic elements represents the official coat of arms of Moldavia perpetuated for centuries 102 Aurochs were hunted with arrows nets and hunting dogs and its hair on the forehead was cut from the living animal belts were made out of this hair and believed to increase the fertility of women When the aurochs was slaughtered the os cordis was extracted from the heart this bone contributed to the mystique and magical powers that were attributed to it 5 In eastern Europe the aurochs has left traces in expressions like behaving like an aurochs for a drunken person behaving badly and a bloke like an aurochs for big and strong people 48 Domestication editThe earliest known domestication of the aurochs dates to the Neolithic Revolution in the Fertile Crescent where cattle hunted and kept by Neolithic farmers gradually decreased in size between 9800 and 7500 BC Aurochs bones found at Mureybet and Gobekli Tepe are larger in size than cattle bones from later Neolithic settlements in northern Syria like Dja de el Mughara and Tell Halula 103 In Late Neolithic sites of northern Iraq and western Iran dating to the sixth millennium BC cattle remains are also smaller but more frequent indicating that domesticated cattle were imported during the Halaf culture from the central Fertile Crescent region 104 Results of genetic research indicate that the modern taurine cattle Bos taurus arose from 80 aurochs tamed in southeastern Anatolia and northern Syria about 10 500 years ago 15 Taurine cattle spread into the Balkans and northern Italy along the Danube River and the coast of the Mediterranean Sea 105 Hybridisation between male aurochs and early domestic cattle occurred in central Europe between 9500 and 1000 BC 106 Analyses of mitochondrial DNA sequences of Italian aurochs specimens dated to 17 7 000 years ago and 51 modern cattle breeds revealed some degree of introgression of aurochs genes into south European cattle indicating that female aurochs had contact with free ranging domestic cattle 107 Cattle bones of various sizes found at a Chalcolithic settlement in the Kutna Hora District provide further evidence for hybridisation of aurochs and domestic cattle between 3000 and 2800 BC in the Bohemian region 46 Whole genome sequencing of a 6 750 year old aurochs bone found in England was compared with genome sequence data of 81 cattle and single nucleotide polymorphism data of 1 225 cattle Results revealed that British and Irish cattle breeds share some genetic variants with the aurochs specimen early herders in Britain might have been responsible for the local gene flow from aurochs into the ancestors of British and Irish cattle 108 The Murboden cattle breed also exhibits sporadic introgression of female European aurochs into domestic cattle in the Alps 109 Domestic cattle continued to diminish in both body and horn size until the Middle Ages 94 The Indian aurochs is thought to have been domesticated 10 8 000 years ago 110 Aurochs fossils found at the Neolithic site of Mehrgarh in Pakistan are dated to around 8 000 years BP and represent some of the earliest evidence for its domestication on the Indian subcontinent 61 Female Indian aurochs contributed to the gene pool of zebu Bos indicus between 5 500 and 4 000 years BP during the expansion of pastoralism in northern India The zebu initially spread eastwards to Southeast Asia 111 Hybridisation between zebu and early taurine cattle occurred in the Near East after 4 000 years BP coinciding with the drought period during the 4 2 kiloyear event 112 The zebu was introduced to East Africa about 3 500 2 500 years ago 105 and reached Mongolia in the 13th and 14th centuries 113 A third domestication event thought to have occurred in Egypt s Western Desert is not supported by results of an analysis of genetic admixture introgression and migration patterns of 3 196 domestic cattle representing 180 populations 105 Breeding of aurochs like cattle edit nbsp Heck cattle in Lainzer Tiergarten In the early 1920s Heinz Heck initiated a selective breeding program in Hellabrunn Zoo attempting to breed back the aurochs using several cattle breeds the result is called Heck cattle 114 Herds of these cattle were released to Oostvaardersplassen a polder in the Netherlands in the 1980s as aurochs surrogates for naturalistic grazing with the aim to restore prehistorical landscapes 115 Large numbers of them died of starvation during the cold winters of 2005 and 2010 and the project of no interference ended in 2018 116 Starting in 1996 Heck cattle were crossed with southern European cattle breeds such as Sayaguesa Cattle Chianina and to a lesser extent Spanish Fighting Bulls in the hope of creating a more aurochs like animal The resulting crossbreeds are called Taurus cattle 117 Other breeding back projects are the Tauros Programme and the Uruz Project 115 However approaches aiming at breeding an aurochs like phenotype do not equate to an aurochs like genotype 118 See also edit nbsp Paleontology portalUr rune Sacred bull Chillingham cattleReferences edit Tikhonov A 2008 Bos primigenius IUCN Red List of Threatened Species 2008 e T136721A4332142 doi 10 2305 IUCN UK 2008 RLTS T136721A4332142 en Retrieved 19 November 2021 a b Bojanus L H 1827 De Uro nostrate eiusque sceleto commentation Nova Acta Physico medica Academiae Caesareae Leopoldino Carolinae Naturae Curiosum in Latin 13 5 53 478 Partridge E 1983 Urus Uri gallica Origins A Short Etymological Dictionary of Modern English New York Greenwich House p 523 ISBN 978 0 517 41425 5 a b Lewis C T amp Short C 1879 urus A Latin Dictionary Oxford Clarendon Press p 1936 a b c d e f g h i j k l m n o p q r Van Vuure C 2005 Retracing the Aurochs History Morphology and Ecology of an extinct wild Ox Sofia Pensoft Publishers ISBN 954 642 235 5 a b McDevitte W A 1869 Book 6 Chapter 28 The Gallic Wars by Julius Caesar Harper s New Classical Library Translated by Bohn W S First ed New York Harper amp Brothers Crystal D 2003 The Cambridge Encyclopedia of the English Language Second ed Cambridge Cambridge University Press ISBN 0 521 53033 4 Campbell D I amp Whittle P M 2017 Three Case Studies Aurochs Mammoths and Passenger Pigeons Resurrecting Extinct Species Cham Palgrave Macmillan pp 29 48 doi 10 1007 978 3 319 69578 5 2 ISBN 978 3 319 69578 5 Linnaeus C 1758 Bos Taurus Systema naturae per regna tria naturae secundum classes ordines genera species cum characteribus differentiis synonymis locis in Latin Vol 1 Tenth reformed ed Holmiae Laurentii Salvii p 71 Daszkiewicz Piotr Samojlik Tomasz 2019 Corrected date of the first description of aurochs Bos primigenius Bojanus 1827 and steppe bison Bison priscus Bojanus 1827 Mammal Research 64 2 299 300 doi 10 1007 s13364 018 0389 6 ISSN 2199 2401 Falconer H 1859 Notice of the various species of bovine animals The Zoologist 17 6414 6429 Thomas P 1881 Recherches sur les bovides fossiles de l Algerie Bulletin de la Societe Zoologique de France 6 Avril 92 136 International Commission on Zoological Nomenclature 2003 Opinion 2027 Case 3010 Usage of 17 specific names based on wild species which are pre dated by or contemporary with those based on domestic animals Lepidoptera Osteichthyes Mammalia The Bulletin of Zoological Nomenclature 60 1 81 84 Gentry A Clutton Brock J amp Groves C P 2004 The naming of wild animal species and their domestic derivatives Journal of Archaeological Science 31 5 645 651 Bibcode 2004JArSc 31 645G doi 10 1016 j jas 2003 10 006 a b Bollongino R Burger J Powell A Mashkour M Vigne J D amp Thomas M G 2012 Modern Taurine Cattle descended from small number of Near Eastern founders Molecular Biology and Evolution 29 9 2101 2104 doi 10 1093 molbev mss092 PMID 22422765 Avise J C amp Ayala F J 2009 In the Light of Evolution Vol 106 pp 9933 9938 doi 10 17226 12692 ISBN 978 0 309 13986 1 PMID 25032348 Siarabi S Kostopoulos D S Bartsiokas A Rozzi R 2023 Insular aurochs Mammalia Bovidae from the Pleistocene of Kythera Island Greece Quaternary Science Reviews 319 108342 doi 10 1016 j quascirev 2023 108342 Bibi F 2013 A multi calibrated mitochondrial phylogeny of extant Bovidae Artiodactyla Ruminantia and the importance of the fossil record to systematics BMC Evolutionary Biology 13 166 doi 10 1186 1471 2148 13 166 PMC 3751017 PMID 23927069 a b Wang K Lenstra J A Liu L Hu Q Ma T Qiu Q amp Liu J 2018 Incomplete lineage sorting rather than hybridization explains the inconsistent phylogeny of the wisent Communications Biology 1 1 169 doi 10 1038 s42003 018 0176 6 PMC 6195592 PMID 30374461 Zeyland J Wolko L Lipinski D Wozniak A Nowak A Szalata M Bocianowski J amp Slomski R 2012 Tracking of wisent bison yak mitochondrial evolution Journal of Applied Genetics 53 3 317 322 doi 10 1007 s13353 012 0090 4 PMC 3402669 PMID 22415349 Hassanin A An J Ropiquet A Nguyen T T amp Couloux A 2013 Combining multiple autosomal introns for studying shallow phylogeny and taxonomy of Laurasiatherian mammals Application to the tribe Bovini Cetartiodactyla Bovidae Molecular Phylogenetics and Evolution 66 3 766 775 doi 10 1016 j ympev 2012 11 003 PMID 23159894 Bibi F 2013 A multi calibrated mitochondrial phylogeny of extant Bovidae Artiodactyla Ruminantia and the importance of the fossil record to systematics BMC Evolutionary Biology 13 1 166 doi 10 1186 1471 2148 13 166 PMC 3751017 PMID 23927069 Castello J R 2016 Bovids of the world antelopes gazelles cattle goats sheep and relatives Princeton Princeton University Press ISBN 978 0 691 16717 6 Grange Thierry Brugal Jean Philip Flori Laurence Gautier Mathieu Uzunidis Antigone Geigl Eva Maria 18 July 2018 The Evolution and Population Diversity of Bison in Pleistocene and Holocene Eurasia Sex Matters Diversity 10 3 65 doi 10 3390 d10030065 ISSN 1424 2818 Pucek Z Belousova I P Krasinska M Krasinski Z A amp Olech W 2004 European bison status survey and conservation action plan Gland Switzerland IUCN SSC Bison Specialist Group ISBN 2831707625 Pucek Z Belousova I P Krasinski Z A Krasinska M Olech W 10 October 2003 European bison Bison bonasus Current state of the species and an action plan for its conservation Convention on the Conservation of European Wildlife and Natural Habitats Bialowieza Polish People s Republic Standing Committee of the Council of Europe Archived from the original on 2 March 2014 Tokarska Malgorzata Pertoldi Cino Kowalczyk Rafal Perzanowski Kajetan April 2011 Genetic status of the European bison Bison bonasus after extinction in the wild and subsequent recovery European bison conservation genetics Mammal Review 41 2 151 162 doi 10 1111 j 1365 2907 2010 00178 x Bashkirov I S 1939 Caucasian European Bison in Russian Moscow Central Board for Reserves Forest Parks and Zoological Gardens Council of the People s Commissars of the RSFSR Considine Douglas M Considine Glenn D 1995 Van Nostrand s scientific encyclopedia 8th ed New York Springer Science amp Business Media p 446 ISBN 978 1 4757 6918 0 Charles McDermid Cheang Sokha 4 May 2006 Search for the kouprey trail runs cold for Cambodia s national animal Wild Cattle News Archived from the original on 10 October 2007 1982 A small herd of kouprey is spotted along Cambodia s border in Thailand A massive search is forced to turn back when a tripped landmine injures the guide the last credible first hand reports of kouprey sightings in Cambodia occurred in the 1980s Martinez Navarro B Karoui Yaakoub N Oms O Amri L Lopez Garcia J M Zerai K Blain H A Mtimet M S Espigares M P Ali N B H Ros Montoya S Boughdiri M Agusti J Khayati Ammar H Maalaoui K El Khir M O Sala R Othmani A Hawas R Gomez Merino G Sole A Carbonell E amp Palmqvist P 2014 The early Middle Pleistocene archeopaleontological site of Wadi Sarrat Tunisia and the earliest record of Bos primigenius Quaternary Science Reviews 90 37 46 Bibcode 2014QSRv 90 37M doi 10 1016 j quascirev 2014 02 016 Thomas H 1977 Geologie et paleontologie du gisement acheuleen de l erg Tihodaine Ahaggar Sahara Algerien Paris Memoires du centre de recherches anthlropologiques prehistoriques et ethnographiques Kurten B 1968 Order Artiodactyla Pleistocene Mammals of Europe London Aldine Publishing Company pp 171 190 Soubrier J Gower G Chen K Richards S M Llamas B Mitchell K J Ho S Y W Kosintsev P Lee M S Y Baryshnikov G Bollongino R Bover P Burger J Chivall D Cregut Bonnoure E Decker J E Doronichev V B Douka K Fordham D A Fontana F Fritz C Glimmerveen J Golovanova L V Groves C Guerreschi A Haak W Higham T Hofman Kaminska E Immel A Julien M A Krause J Krotova O Langbein F Larson G Rohrlach A Scheu A Schnabel R D Taylor J F Tokarska M Tosello G van der Plicht J van Loenen A Vigne J D Wooley O Orlando L Kowalczyk R Shapiro B amp Cooper A 2016 Early cave art and ancient DNA record the origin of European bison Nature Communications 7 13158 13158 Bibcode 2016NatCo 713158S doi 10 1038 ncomms13158 PMC 5071849 PMID 27754477 Pilgrim G E 1947 The evolution of the buffaloes oxen sheep and goats Zoological Journal of the Linnean Society 41 279 272 286 doi 10 1111 j 1096 3642 1940 tb02077 x Osypinska M Osypinski P Belka Z Chlodnicki M Wiktorowicz P Ryndziewicz R amp Kubiak M 2021 Wild and Domestic Cattle in the Ancient Nile Valley Marks of ecological change Journal of Field Archaeology 46 7 429 447 doi 10 1080 00934690 2021 1924491 S2CID 236373843 Craig O E Biazzo M Colonese A C Di Giuseppe Z Martinez Labarga C Vetro D L Lelli R Martini F amp Rickards O 2010 Stable isotope analysis of Late Upper Palaeolithic human and faunal remains from Grotta del Romito Cosenza Italy Journal of Archaeological Science 37 10 2504 2512 Bibcode 2010JArSc 37 2504C doi 10 1016 j jas 2010 05 010 S2CID 129496788 Mannino M A Di Salvo R Schimmenti V Di Patti C Incarbona A Sineo L amp Richards M P 2011 Upper Palaeolithic hunter gatherer subsistence in Mediterranean coastal environments an isotopic study of the diets of the earliest directly dated humans from Sicily PDF Journal of Archaeological Science 38 11 3094 3100 Bibcode 2011JArSc 38 3094M doi 10 1016 j jas 2011 07 009 hdl 10447 61514 Archived PDF from the original on 9 October 2022 a b Gravlund P Aaris Sorensen K Hofreiter M Meyer M Bollback J P amp Noe Nygaard N 2012 Ancient DNA extracted from Danish aurochs Bos primigenius genetic diversity and preservation Annals of Anatomy 194 1 103 111 CiteSeerX 10 1 1 392 4989 doi 10 1016 j aanat 2011 10 011 PMID 22188739 a b Schulz E amp Kaiser T M 2007 Feeding strategy of the Urus Bos primigenius Bojanus 1827 from the Holocene of Denmark Courier Forschungsinstitut Senckenberg 259 155 164 Senglaub K 2002 Sigmund von Herberstein 1486 1566 und die historischen Konfusionen um Ur und Wisent PDF Saugetierkundliche Informationen 5 26 253 266 Archived PDF from the original on 9 October 2022 Lydekker R 1912 The wild Ox and its extermination The ox and its kindred London Methuen amp Co Ltd pp 37 67 a b c d e Frisch W 2010 Der Auerochs Das europaische Rind Starnberg Lipp Graphische Betriebe ISBN 978 3 00 026764 2 Pyle C M 1995 Update to Some late sixteenth century depictions of the aurochs Bos primigenius Bojanus extinct 1627 New evidence from Vatican MS Urb Lat 276 Archives of Natural History 22 3 437 438 doi 10 3366 anh 1995 22 3 437 Ryder M L 1984 The first hair remains from an aurochs Bos primigenius and some medieval domestic cattle hair Journal of Archaeological Science 11 1 99 101 Bibcode 1984JArSc 11 99R doi 10 1016 0305 4403 84 90045 1 a b Kysely R 2008 Aurochs and potential crossbreeding with domestic cattle in Central Europe in the Eneolithic period A metric analysis of bones from the archaeological site of Kutna Hora Denemark Czech Republic Anthropozoologica 43 2 7 37 a b Linseele V 2004 Size and size change of the African aurochs during the Pleistocene and Holocene Journal of African Archaeology 2 2 165 185 doi 10 3213 1612 1651 10026 a b c Van Vuure T 2002 History morphology and ecology of the Aurochs Bos primigenius Lutra 45 1 1 16 CiteSeerX 10 1 1 534 6285 a b c Zong G 1984 Translated by Dehut J A record of Bos primigenius from the Quaternary of the Aba Tibetan Autonomous Region PDF Vertebrata PalAsiatica 22 3 239 245 Archived from the original PDF on 27 September 2007 Edwards C J Magee D A Park S D E McGettigan P A amp Lohan A J 2010 A complete mitochondrial genome sequence from a mesolithic wild Aurochs Bos primigenius PLOS ONE 5 2 e9255 Bibcode 2010PLoSO 5 9255E doi 10 1371 journal pone 0009255 PMC 2822870 PMID 20174668 Braud M Magee D A Park S D E Sonstegard T S Waters S M MacHugh D E amp Spillane C 2017 Genome wide microRNA binding site variation between extinct wild Aurochs and modern cattle identifies candidate microRNA regulated domestication genes Frontiers in Genetics 8 3 doi 10 3389 fgene 2017 00003 PMC 5281612 PMID 28197171 a b c d e Heptner V G Nasimovich A A amp Bannikov A G 1988 1961 Aurochs primitive cattle Mlekopitajuscie Sovetskogo Soiuza Moskva Vyssaia Skola Mammals of the Soviet Union Vol Volume I Artiodactyla and Perissodactyla Washington DC Smithsonian Institution and the National Science Foundation pp 539 549 Cai D Zhang N Zhu S Chen Q Wang L Zhao X Ma X Royle T C Zhou H amp Yang D Y 2018 Ancient DNA reveals evidence of abundant aurochs Bos primigenius in Neolithic Northeast China PDF Journal of Archaeological Science 98 72 80 Bibcode 2018JArSc 98 72C doi 10 1016 j jas 2018 08 003 S2CID 135295723 Archived PDF from the original on 9 October 2022 Jo Y S Baccus J T amp Koprowski J 2018 Mammals of Korea Seoul Magnolia Press ISBN 978 89 6811 369 7 Kurosawa Y モノが語る牛と人間の文化 岩手の牛たち PDF LIAJ Oshu city Cattle Museum 109 29 31 Archived PDF from the original on 9 October 2022 Retrieved 6 April 2016 Hasegawa Y Okumura Y amp Tatsukawa H 2009 First record of Late Pleistocene Bison from the fissure deposits of the Kuzuu Limestone Yamasuge Sano shi Tochigi Prefecture Japan PDF Bulletin of Gunma Museum of Natural History 13 47 52 Archived from the original PDF on 24 September 2015 Retrieved 6 April 2016 Beutler A 1996 Die Grosstierfauna Europas und ihr Einfluss auf Vegetation und Landschaft Natur und Kulturlandschaft 1 51 106 Chen S Lin B Z Baig M Mitra B Lopes R J Santos A M Magee D A Azevedo M Tarroso P Sasazaki S Ostrowski S Mahgoub O Chaudhuri T K Zhang Y p Costa V Royo L J Goyache F Luikart G Boivin N Fuller D Q Mannen H Bradley D G Beja Pereira A 1 January 2010 Zebu Cattle Are an Exclusive Legacy of the South Asia Neolithic Molecular Biology and Evolution 27 1 1 6 doi 10 1093 molbev msp213 ISSN 0737 4038 Rangarajan M 2001 India s Wildlife History Delhi India Permanent Black p 4 ISBN 978 81 7824 140 1 Chen S Lin B Z Baig M Mitra B Lopes R J Santos A M Magee D A Azevedo M Tarroso P Sasazaki S Ostrowski S Mahgoub O Chaudhuri T K Zhang Y p Costa V Royo L J Goyache F Luikart G Boivin N Fuller D Q Mannen H Bradley D G Beja Pereira A 1 January 2010 Zebu Cattle Are an Exclusive Legacy of the South Asia Neolithic Molecular Biology and Evolution 27 1 1 6 doi 10 1093 molbev msp213 ISSN 0737 4038 a b Turvey S T Sathe V Crees J J Jukar A M Chakraborty P amp Lister A M 2021 Late Quaternary megafaunal extinctions in India How much do we know PDF Quaternary Science Reviews 252 106740 Bibcode 2021QSRv 25206740T doi 10 1016 j quascirev 2020 106740 S2CID 234265221 Magnell O 2017 Climate Change at the Holocene Thermal Maximum and Its Impact on Wild Game Populations in South Scandinavia In Monks G G ed Climate Change and Human Responses Vertebrate Paleobiology and Paleoanthropology Dordrecht Springer pp 123 135 doi 10 1007 978 94 024 1106 5 7 ISBN 978 94 024 1105 8 Clutton Brock J 1989 Five thousand years of livestock in Britain Biological Journal of the Linnean Society 38 1 31 37 doi 10 1111 j 1095 8312 1989 tb01560 x Bartosiewicz L 2006 Interdisciplinary analysis of an Iron Age Aurochs horn core from Hungary a case study Acta Archaeologica Academiae Scientiarum Hungaricae 57 1 3 153 163 doi 10 1556 AArch 57 2006 1 3 10 Bartosiewicz L 1997 A horn worth blowing A stray find of aurochs from Hungary Antiquity 71 274 1007 1010 doi 10 1017 S0003598X00085902 S2CID 161722401 Bejenaru L Stanc S Popovici M Balasescu A amp Cotiuga V 2013 Holocene subfossil records of the auroch Bos primigenius in Romania The Holocene 23 4 603 614 Bibcode 2013Holoc 23 603B doi 10 1177 0959683612465448 S2CID 131580290 Nemeth A Barany A Csorba G Magyari E Pazonyi P amp Palfy J 2016 Holocene mammal extinctions in the Carpathian Basin A review PDF Mammal Review 47 1 38 52 doi 10 1111 mam 12075 Archived PDF from the original on 9 October 2022 Boev Z 2016 Subfossil vertebrate fauna from Forum Serdica Sofia Bulgaria 16 18th Century AD Acta Zoologica Bulgarica 68 3 415 424 Boev Z 2021 The last Bos primigenius survived in Bulgaria Cetartiodactyla Bovidae Lynx New Series 52 139 142 doi 10 37520 lynx 2021 010 S2CID 246761121 Nemeth Attila Barany Annamaria Csorba Gabor Magyari Eniko Pazonyi Piroska Palfy Jozsef January 2017 Holocene mammal extinctions in the Carpathian Basin a review Mammal Review 47 1 38 52 doi 10 1111 mam 12075 ISSN 0305 1838 all Late Medieval and younger remains artefacts including drinking horns and illustrations represent long horned large domestic cattle rather than aurochs Rokosz M 1995 History of the Aurochs Bos taurus primigenius in Poland PDF Animal Genetics Resources Information 16 5 12 doi 10 1017 S1014233900004582 Archived from the original PDF on 14 January 2013 Sathe V amp Paddayya K 2012 The faunal background of the stone age cultures of Hunsgi and Baichbal Valleys Southern Deccan Bulletin of the Deccan College Research Institute 72 79 97 JSTOR 43610690 Prevost M Groman Yaroslavski I Gershtein K M C Tejero J M amp Zaidner Y 2021 Early evidence for symbolic behavior in the Levantine Middle Paleolithic A 120 ka old engraved aurochs bone shaft from the open air site of Nesher Ramla Israel Quaternary International early view 80 93 doi 10 1016 j quaint 2021 01 002 S2CID 234236699 Munro N D amp Grosman L 2010 Early evidence ca 12 000 B P for feasting at a burial cave in Israel Proceedings of the National Academy of Sciences of the United States of America 107 35 15362 15366 Bibcode 2010PNAS 10715362M doi 10 1073 pnas 1001809107 PMC 2932561 PMID 20805510 Farajova M 2011 Gobustan Rock Art Cultural Landscape PDF Adoranten 11 41 66 Archived PDF from the original on 9 October 2022 Bogaard A Charles M Twiss K C Fairbairn A Yalman N Filipovic D Demirergi G A Ertug F Russell N amp Henecke J 2009 Private pantries and celebrated surplus storing and sharing food at Neolithic Catalhoyuk Central Anatolia Antiquity 83 321 649 668 doi 10 1017 S0003598X00098896 S2CID 162522860 Makarem M 2012 Et si Europe etait sidonienne L Orient Le Jour Beirut Archived from the original on 25 May 2013 Retrieved 3 January 2020 Mackay E J H 1935 Steatite pectoral once mounted in metal and filled with inlay The Indus civilization London Lovat Dickson amp Thompson Ltd p Plate J Geer A A E 2008 Bos primigenius The Aurochs Animals in stone Indian mammals sculptured through time Leiden Brill pp 111 114 ISBN 978 90 04 16819 0 Reinhold S Gresky J Berezina N Kantorovich A R Knipper C Maslov V E Petrenko V G Alt K W amp Belinsky A B 2017 Contextualising Innovation Cattle Owners and Wagon Drivers in the North Caucasus and Beyond In Maran J amp Stockhammer P eds Appropriating Innovations Entangled Knowledge in Eurasia 5000 150 BCE Oxford Oxbow Books pp 78 97 ISBN 9781785707247 Wyatt S amp Wyatt N 2013 The longue duree in the beef business In Loretz O Ribichini S Watson W G E amp Zamora J A eds Ritual Religion and Reason Studies in the Ancient World in Honour of Paolo Xella Munster Ugarit Verlag pp 417 450 ISBN 9783868350876 Shugart H H 2014 Taming the Unicorn Yoking the Aurochs Animal and Plant Domestication and the Consequent Alteration of the Surface of the Earth Foundations of the Earth Columbia University Press pp 35 70 doi 10 7312 shug16908 003 ISBN 9780231537698 Huyge D Vandenberghe D A De Dapper M Mees F Claes W amp Darnell J C 2011 First evidence of Pleistocene rock art in North Africa securing the age of the Qurta petroglyphs Egypt through OSL dating Antiquity 85 330 1184 1193 doi 10 1017 S0003598X00061998 S2CID 130471822 Beierkuhnlein C 2015 Bos primigenius in Ancient Egyptian art historical evidence for the continuity of occurrence and ecology of an extinct key species PDF Frontiers of Biogeography 7 3 107 118 doi 10 21425 F5FBG21527 S2CID 55643283 Archived PDF from the original on 9 October 2022 Geneste J M 2017 From Chauvet to Lascaux 15 000 years of cave art Archaeology Ethnology amp Anthropology of Eurasia 45 3 29 40 doi 10 17746 1563 0110 2017 45 3 029 040 Vacca B B 2012 The hunting of large mammals in the Upper Palaeolithic of southern Italy A diachronic case study from Grotta del Romito Quaternary International 252 155 164 Bibcode 2012QuInt 252 155V doi 10 1016 j quaint 2011 06 054 Di Maida G Garcia Diez M Pastoors A amp Terberger T 2018 Palaeolithic art at Grotta di Cala dei Genovesi Sicily a new chronology for mobiliary and parietal depictions Antiquity 92 361 38 55 doi 10 15184 aqy 2017 209 S2CID 166147585 Weniger G C 1999 Representations of the Aurochs in the Upper Palaeolithic and Epipalaeolithic on the Iberian Peninsula In Weniger G C ed Archaologie und Biologie des Aurochsen Bonn Neanderthal Museum pp 133 140 ISBN 9783980583961 Fernandes A P B 2008 Aesthetics ethics and rock art conservation How far can we go The case of recent conservation tests carried out in un engraved outcrops in the Coa Valley Portugal PDF In Heyd T Clegg J eds Aesthetics and Rock Art III Symposium British Archaeological Reports Vol 1818 Oxford Archaeopress pp 85 92 ISBN 9781407303048 Archived PDF from the original on 9 October 2022 Soares De Figueiredo S Botica N Bueno Ramirez P Tsoupra A amp Mirao J 2020 Analysis of portable rock art from Foz do Medal Northwest Iberia Magdalenian images of horses and aurochs Comptes Rendus Palevol 19 4 63 77 doi 10 5852 cr palevol2020v19a4 Prummel W amp Niekus M J L T 2011 Late Mesolithic hunting of a small female aurochs in the valley of the River Tjonger the Netherlands in the light of Mesolithic aurochs hunting in NW Europe Journal of Archaeological Science 38 7 1456 1467 Bibcode 2011JArSc 38 1456P doi 10 1016 j jas 2011 02 009 Kriiska A 2000 Settlements of coastal Estonia and maritime hunter gatherer economy Lietuvos Archeologija 19 153 166 Lynch A H Hamilton J amp Hedges R E M 2008 Where the wild things are Aurochs and Cattle in England Antiquity 82 318 1025 1039 doi 10 1017 S0003598X00097751 S2CID 161079743 a b Ajmone Marsan P Garcia J F amp Lenstra J A 2010 On the origin of cattle How Aurochs became cattle and colonized the World Evolutionary Anthropology 19 4 148 157 doi 10 1002 evan 20267 S2CID 86035650 Davis E N 1974 The Vapheio Cups One Minoan and One Mycenean The Art Bulletin 56 4 472 487 doi 10 1080 00043079 1974 10789932 De Grummond W W 1980 Hands and Tails on the Vapheio Cups American Journal of Archaeology 84 3 335 337 doi 10 2307 504710 JSTOR 504710 Douglas N 1927 Birds and Beasts of the Greek Anthology Florence B Blom ISBN 9780405084614 Knight C 1847 European bison or Aurochs The National Cyclopaedia of Useful Knowledge Vol Volume III London Little Brown and Co pp 367 371 Heinzle J ed 2013 Das Nibelungenlied und die Klage Nach der Handschrift 857 der Stiftsbibliothek St Gallen Deutscher Klassiker Verlag p 300 ISBN 9783618661207 Bro Jorgensen M H Caroe C Vieira F G Nestor S Hallstrom A Gregersen K M Etting V Gilbert M T P amp Sinding M H S 2018 Ancient DNA analysis of Scandinavian medieval drinking horns and the horn of the last aurochs bull Journal of Archaeological Science 99 47 54 Bibcode 2018JArSc 99 47B doi 10 1016 j jas 2018 09 001 S2CID 133684586 Oman C 1972 Cambridge and Cornelimunster Aachener Kunstblatter 43 305 307 Boutiuc M Florescu O Vasilache V amp Sandu I 2020 The comparative study of the state of conservation of two medieval documents on parchment from different historical periods Materials 13 21 4766 Bibcode 2020Mate 13 4766H doi 10 3390 ma13214766 PMC 7662666 PMID 33114524 Helmer D Gourichon L Monchot H Peters J amp Segui M S 2005 Identifying early domestic cattle from pre pottery Neolithic sites on the Middle Euphrates using sexual dimorphism In Vigne J D Peters J amp Helmer D eds The first steps of animal domestication new archeological approaches Oxford Oxbow Books pp 86 95 ISBN 1 84217 121 6 Arbuckle B S Price M D Hongo H amp Oksuz B 2016 Documenting the initial appearance of domestic cattle in the Eastern Fertile Crescent northern Iraq and western Iran PDF Journal of Archaeological Science 72 1 9 Bibcode 2016JArSc 72 1A doi 10 1016 j jas 2016 05 008 Archived PDF from the original on 9 October 2022 a b c Pitt D Sevane N Nicolazzi E L MacHugh D E Park S D Colli L Martinez R Bruford M W amp Orozco terWengel P 2019 Domestication of cattle Two or three events Evolutionary Applications 12 1 123 136 doi 10 1111 eva 12674 PMC 6304694 PMID 30622640 Gotherstrom A Anderung C Hellborg L Elburg R Smith C Bradley D G amp Ellegren H 2005 Cattle domestication in the Near East was followed by hybridization with aurochs bulls in Europe Proceedings of the Royal Society B Biological Sciences 272 1579 2345 2351 doi 10 1098 rspb 2005 3243 PMC 1559968 PMID 16243693 Beja Pereira A Caramelli D Lalueza Fox C Vernesi C Ferrand N Casoli A Goyache F Royo L J Conti S Lari M Martini A Ouragh L Magid A Atash A Zsolnai A Boscato P Triantaphylidis C Ploumi K Sineo L Mallegni F Taberlet P Erhardt G Sampietro L Bertranpetit J Barbujani G Luikart G amp Bertorelle G 2006 The origin of European cattle Evidence from modern and ancient DNA Proceedings of the National Academy of Sciences of the United States of America 103 21 8113 8118 Bibcode 2006PNAS 103 8113B doi 10 1073 pnas 0509210103 PMC 1472438 PMID 16690747 Park S D E Magee D A McGettigan P A Teasdale M D Edwards C J Lohan A J Murphy A Braud M Donoghue M T Liu Y Chamberlain A T Rue Albrecht K Schroeder S Spillane C Tai S Bradley D G Sonstegard T S Loftus B J amp MacHugh D E 2015 Genome sequencing of the extinct Eurasian wild aurochs Bos primigenius illuminates the phylogeography and evolution of cattle Genome Biology 16 1 234 doi 10 1186 s13059 015 0790 2 PMC 4620651 PMID 26498365 Cubric Curik V Novosel D Brajkovic V Rota Stabelli O Krebs S Solkner J Salamon D Ristov S Berger B Trivizaki S Bizelis I Ferencakovic M Rothammer S Kunz E Simcic M Dovc P Bunevski G Bytyqi H Markovic B Brka M Kume K Stojanovic S Nikolov V Zinovieva N Schonherz A A Guldbrandtsen B Cacic M Radovic S Miracle P Vernesi C Curik I amp Medugorac I 2021 Large scale mitogenome sequencing reveals consecutive expansions of domestic taurine cattle and supports sporadic aurochs introgression Evolutionary Applications early view 4 663 678 doi 10 1111 eva 13315 PMC 9046920 PMID 35505892 Bradley D G MacHugh D E Cunningham P amp Loftus R T 1996 Mitochondrial diversity and the origins of African and European cattle Proceedings of the National Academy of Sciences of the United States of America 93 10 5131 5135 Bibcode 1996PNAS 93 5131B doi 10 1073 pnas 93 10 5131 PMC 39419 PMID 8643540 Chen S Lin B Z Baig M Mitra B Lopes R J Santos A M Magee D A Azevedo M Tarroso P Sasazaki S amp Ostrowski S 2010 Zebu cattle are an exclusive legacy of the South Asia Neolithic Molecular Biology and Evolution 27 1 1 6 doi 10 1093 molbev msp213 PMID 19770222 Verdugo M P Mullin V E Scheu A Mattiangeli V Daly K G Delser P M Hare A J Burger J Collins M J Kehati R amp Hesse P 2019 Ancient cattle genomics origins and rapid turnover in the Fertile Crescent PDF Science 365 6449 173 176 Bibcode 2019Sci 365 173V doi 10 1126 science aav1002 PMID 31296769 S2CID 195894128 Archived PDF from the original on 9 October 2022 Mannen H Kohno M Nagata Y Tsuji S Bradley D G Yeo J S Nyamsamba D Zagdsuren Y Yokohama M Nomura K amp Amano T 2004 Independent mitochondrial origin and historical genetic differentiation in North Eastern Asian cattle PDF Molecular Phylogenetics and Evolution 32 2 539 544 doi 10 1016 j ympev 2004 01 010 PMID 15223036 Heck H 1951 The breeding back of the Aurochs Oryx 1 3 117 122 doi 10 1017 S0030605300035286 a b Lorimer J amp Driessen C 2016 From Nazi cows to cosmopolitan ecological engineers specifying rewilding through a history of Heck cattle Annals of the American Association of Geographers 106 3 631 652 Bibcode 2016AAAG 106 631L doi 10 1080 00045608 2015 1115332 S2CID 131547744 Theunissen B 2019 The Oostvaardersplassen Fiasco Isis 110 2 341 345 doi 10 1086 703338 Bunzel Druke M 2001 Ecological substitutes for Wild Horse Equus ferus Boddaert 1785 E przewalskii Poljakov 1881 and Aurochs Bos primigenius Bojanus 1827 Natur und Kulturlandschaft 4 240 252 CiteSeerX 10 1 1 403 8349 Sinding M H S amp Gilbert M T P 2016 The draft genome of extinct European Aurochs and its implications for de extinction Open Quaternary 2 doi 10 5334 oq 25 External links edit nbsp Wikisource has the text of the 1911 Encyclopaedia Britannica article Aurochs nbsp Media related to Bos primigenius at Wikimedia Commons nbsp Data related to Aurochs at Wikispecies Retrieved from https en wikipedia org 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