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(Redirected from Reindeers) Species of deer For other uses, see Reindeer (disambiguation). "Caribou" redirects here. For other uses, see Caribou (disambiguation).

Reindeer
(Caribou)
Temporal range: Chibanian to present PreꞒ O S D C P T J K Pg N
A reindeer in Norway
Conservation status

Vulnerable  (IUCN 3.1)

Secure  (NatureServe)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Family: Cervidae
Subfamily: Capreolinae
Tribe: Odocoileini
Genus: Rangifer
C. H. Smith, 1827
Species: R. tarandus
Binomial name
Rangifer tarandus
(Linnaeus, 1758)
Species

See text, traditionally 1, but possibly up to 6

Reindeer range: North American (green), Eurasian (red), and Alaskan introduced (orange)

The reindeer or caribou (Rangifer tarandus) is a species of deer with circumpolar distribution, native to Arctic, subarctic, tundra, boreal, and mountainous regions of Northern Europe, Siberia, and North America. It is the only representative of the genus Rangifer. More recent studies suggest the splitting of reindeer and caribou into six distinct species over their range.

Reindeer occur in both migratory and sedentary populations, and their herd sizes vary greatly in different regions. The tundra subspecies are adapted for extreme cold, and some are adapted for long-distance migration.

Reindeer vary greatly in size and color from the smallest, the Svalbard reindeer (R. (t.) platyrhynchus), to the largest, Osborn's caribou (R. t. osborni). Although reindeer are quite numerous, some species and subspecies are in decline and considered vulnerable. They are unique among deer (Cervidae) in that females may have antlers, although the prevalence of antlered females varies by subspecies.

Reindeer are the only successfully semi-domesticated deer on a large scale in the world. Both wild and domestic reindeer have been an important source of food, clothing, and shelter for Arctic people from prehistorical times. They are still herded and hunted today. In some traditional Christmas legends, Santa Claus's reindeer pull a sleigh through the night sky to help Santa Claus deliver gifts to good children on Christmas Eve.

Description

Names follow international convention before the recent revision (see Reindeer#Taxonomy below). Reindeer / caribou (Rangifer) vary in size from the smallest, the Svalbard reindeer (R. (t.) platyrhynchus), to the largest, Osborn's caribou (R. t. osborni). They also vary in coat color and antler architecture.

The North American range of caribou extends from Alaska through the Yukon, the Northwest Territories and Nunavut throughout the tundra, taiga (boreal forest) and south through the Canadian Rocky Mountains. Of the eight subspecies classified by Harding (2022) into the Arctic caribou (R. arcticus), the migratory mainland barren-ground caribou of Arctic Alaska and Northern Canada (R. t. arcticus), summer in tundra and winter in taiga, a transitional forest zone between boreal forest and tundra; the nomadic Peary caribou (R. t. pearyi) lives in the polar desert of the high Arctic Archipelago and Grant's caribou (R. t. granti also called the Porcupine caribou) lives in the western end of the Alaska Peninsula and the adjacent islands; the other four subspecies, Osborn's caribou (R. t. osborni), Stone's caribou (R. t. stonei), the Rocky Mountain caribou (R. t. fortidens) and the Selkirk Mountains caribou (R. t. montanus) are all montane. The extinct insular Queen Charlotte Islands caribou (R. t. dawsoni), lived on Graham Island in Haida Gwaii (formerly known as the Queen Charlotte Islands).

The boreal woodland caribou (R. t. caribou), lives in the boreal forest of northeastern Canada: the Labrador or Ungava caribou of northern Quebec and northern Labrador (R. t. caboti), and the Newfoundland caribou of Newfoundland (R. t. terranovae) have been found to be genetically in the woodland caribou lineage.

In Eurasia, both wild and domestic reindeer are distributed across the tundra and into the taiga. Eurasian mountain reindeer (R. t. tarandus) are close to North American caribou genetically and visually, but with sufficient differences to warrant division into two species. The unique, insular Svalbard reindeer inhabits the Svalbard Archipelago. The Finnish forest reindeer (R. t. fennicus) is spottily distributed in the coniferous forest zones from Finland to east of Lake Baikal: the Siberian forest reindeer (R. t. valentinae, formerly called the Busk Mountains reindeer (R. t. buskensis) by American taxonomists) occupies the Altai and Ural Mountains.

Male ("bull") and female ("cow") reindeer can grow antlers annually, although the proportion of females that grow antlers varies greatly between populations. Antlers are typically larger on males. Antler architecture varies by species and subspecies and, together with pelage differences, can often be used to distinguish between species and subspecies (see illustrations in Geist, 1991 and Geist, 1998).

Status

About 25,000 mountain reindeer (R. t. tarandus) still live in the mountains of Norway, notably in Hardangervidda. In Sweden there are approximately 250,000 reindeer in herds managed by Sámi villages. Russia manages 19 herds of Siberian tundra reindeer (R. t. sibiricus) that total about 940,000. The Taimyr herd of Siberian tundra reindeer is the largest wild reindeer herd in the world, varying between 400,000 and 1,000,000; it is a metapopulation consisting of several subpopulations — some of which are phenotypically different — with different migration routes and calving areas. The Kamchatkan reindeer (R. t. phylarchus), a forest subspecies, formerly included reindeer west of the Sea of Okhotsk which, however, are indistinguishable genetically from the Jano-Indigirka, East Siberian taiga and Chukotka populations of R. t. sibiricus. Siberian tundra reindeer herds have been in decline but are stable or increasing since 2000.

Insular (island) reindeer, classified as the Novaya Zemlya reindeer (R. t. pearsoni) occupy several island groups: the Novaya Zemlya Archipelago (about 5,000 animals at last count, but most of these are either domestic reindeer or domestic-wild hybrids), the New Siberia Archipelago (about 10,000 to 15,000), and Wrangel Island (200 to 300 feral domestic reindeer).

What was once the second largest herd is the migratory Labrador caribou (R. t. caboti) George River herd in Canada, with former variations between 28,000 and 385,000. As of January 2018, there are fewer than 9,000 animals estimated to be left in the George River herd, as reported by the Canadian Broadcasting Corporation. The New York Times reported in April 2018 of the disappearance of the only herd of southern mountain woodland caribou in the contiguous United States, with an expert calling it "functionally extinct" after the herd's size dwindled to a mere three animals. After the last individual, a female, was translocated to a wildlife rehabilitation center in Canada, caribou were considered extirpated from the contiguous United States. The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) classified both the Southern Mountain population DU9 (R. t. montanus) and the Central Mountain population DU8 (R. t. fortidens) as Endangered and the Northern Mountain population DU7 (R. t. osborni) as Threatened.

Some species and subspecies are rare and three subspecies have already become extinct: the Queen Charlotte Islands caribou (R. t. dawsoni) from western Canada, the Sakhalin reindeer (R. t. setoni) from Sakhalin and the East Greenland caribou from eastern Greenland, although some authorities believe that the latter, R. t. eogroenlandicus Degerbøl, 1957, is a junior synonym of the Peary caribou. Historically, the range of the sedentary boreal woodland caribou covered more than half of Canada and into the northern states of the contiguous United States from Maine to Washington. Boreal woodland caribou have disappeared from most of their original southern range and were designated as Threatened in 2002 by the Committee on the Status of Endangered Wildlife in Canada (COSEWIC). Environment and Climate Change Canada reported in 2011 that there were approximately 34,000 boreal woodland caribou in 51 ranges remaining in Canada (Environment Canada, 2011b), although those numbers included montane populations classified by Harding (2022) into subspecies of the Arctic caribou. Siberian tundra reindeer herds are also in decline, and Rangifer as a whole is considered to be Vulnerable by the International Union for Conservation of Nature (IUCN).

Naming

Charles Hamilton Smith is credited with the name Rangifer for the reindeer genus, which Albertus Magnus used in his De animalibus, fol. Liber 22, Cap. 268: "Dicitur Rangyfer quasi ramifer". This word may go back to the Sámi word raingo. Carl Linnaeus chose the word tarandus as the specific epithet, making reference to Ulisse Aldrovandi's Quadrupedum omnium bisulcorum historia fol. 859–863, Cap. 30: De Tarando (1621). However, Aldrovandi and Conrad Gessner thought that rangifer and tarandus were two separate animals. In any case, the tarandos name goes back to Aristotle and Theophrastus.

The use of the terms reindeer and caribou for essentially the same animal can cause confusion, but the ICUN clearly delineates the issue: "Reindeer is the European name for the species of Rangifer, while in North America, Rangifer species are known as Caribou." The word reindeer is an anglicized version of the Old Norse words hreinn ("reindeer") and dýr ("animal") and has nothing to do with reins. The word caribou comes through French, from the Mi'kmaq qalipu, meaning "snow shoveler", and refers to its habit of pawing through the snow for food.

Because of its importance to many cultures, Rangifer and some of its species and subspecies have names in many languages. Inuvialuit of the western Canadian Arctic and Inuit of the eastern Canadian Arctic, who speak different dialects of the Inuit languages, both call the barren-ground caribou tuktu. The Wekʼèezhìi (Tłı̨chǫ) people, a Dene (Athapascan) group, call the Arctic caribou Ɂekwǫ̀ and the boreal woodland caribou tǫdzı. The Gwichʼin (also a Dene group) have over 24 distinct caribou-related words.

Reindeer are also called tuttu by the Greenlandic Inuit and hreindýr, sometimes rein, by the Icelanders.

Evolution

The "glacial-interglacial cycles of the upper Pleistocene had a major influence on the evolution" of Rangifer species and other Arctic and sub-Arctic species. Isolation of tundra-adapted species Rangifer in Last Glacial Maximum refugia during the last glacial – the Wisconsin glaciation in North America and the Weichselian glaciation in Eurasia – shaped "intraspecific genetic variability" particularly between the North American and Eurasian parts of the Arctic.

Reindeer / caribou (Rangifer) are in the subfamily Odocoileinae, along with roe deer (Capreolus), Eurasian elk / moose (Alces), and water deer (Hydropotes). These antlered cervids split from the horned ruminants Bos (cattle and yaks), Ovis (sheep) and Capra (goats) about 36 million years ago. The Eurasian clade of Odocoileinae (Capreolini, Hydropotini and Alcini) split from the New World tribes of Capreolinae (Odocoileini and Rangiferini) in the Late Miocene, 8.7–9.6 million years ago. Rangifer "evolved as a mountain deer, ...exploiting the subalpine and alpine meadows...". Rangifer originated in the Late Pliocene and diversified in the Early Pleistocene, a 2+ million-year period of multiple glacier advances and retreats. Several named Rangifer fossils in Eurasia and North America predate the evolution of modern tundra reindeer.

Archaeologists distinguish "modern" tundra reindeer and barren-ground caribou from primitive forms – living and extinct – that did not have adaptations to extreme cold and to long-distance migration. They include a broad, high muzzle to increase the volume of the nasal cavity to warm and moisten the air before it enters the throat and lungs, bez tines set close to the brow tines, distinctive coat patterns, short legs and other adaptations for running long distances, and multiple behaviors suited to tundra, but not to forest (such as synchronized calving and aggregation during rutting and post-calving). As well, many genes, including those for vitamin D metabolism, fat metabolism, retinal development, circadian rhythm, and tolerance to cold temperatures, are found in tundra caribou that are lacking or rudimentary in forest types. For this reason, forest-adapted reindeer and caribou could not survive in tundra or polar deserts. The oldest undoubted Rangifer fossil is from Omsk, Russia, dated to 2.1-1.8 Ma. The oldest North American Rangifer fossil is from the Yukon, 1.6 million years before present (BP). A fossil skull fragment from Süßenborn, Germany, R. arcticus stadelmanni, (which is probably misnamed) with "rather thin and cylinder-shaped" antlers, dates to the Middle Pleistocene (Günz) Period, 680,000-620,000 BP. Rangifer fossils become increasingly frequent in circumpolar deposits beginning with the Riss glaciations, the second youngest of the Pleistocene Epoch, roughly 300,000–130,000 BP. By the 4-Würm period (110,000–70,000 to 12,000–10,000 BP), its European range was extensive, supplying a major food source for prehistoric Europeans. North American fossils outside of Beringia that predate the Last Glacial Maximum (LGM) are of Rancholabrean age (240,000–11,000 years BP) and occur along the fringes of the Rocky Mountain and Laurentide ice sheets as far south as northern Alabama; and in Sangamonian deposits (~100,000 years BP) from western Canada.

A R. t. pearyi-sized caribou occupied Greenland before and after the LGM and persisted in a relict enclave in northeastern Greenland until it went extinct about 1900 (see discussion of R. t. eogroenlandicus below). Archaeological excavations showed that larger barren-ground-sized caribou appeared in western Greenland about 4,000 years ago.

The late Valerius Geist (1998) dates the Eurasian reindeer radiation dates to the large Riss glaciation (347,000 to 128,000 years ago), based on the Norwegian-Svalbard split 225,000 years ago. Finnish forest reindeer (R. t. fennicus) likely evolved from Cervus geuttardi Desmarest, 1822, a reindeer that adapted to forest habitats in Eastern Europe as forests expanded during an interglacial period before the LGM (the Würmian or Weichsel glaciation);. The fossil species geuttardi was later replaced by R. constantini, which was adapted for grasslands, in a second immigration 19,000–20,000 years ago when the LGM turned its forest habitats into tundra, while fennicus survived in isolation in southwestern Europe. R. constantini was then replaced by modern tundra / barren-ground caribou adapted to extreme cold, probably in Beringia, before dispersing west (R. t. tarandus in the Scandinavian mountains and R. t. sibiricus across Siberia) and east (R. t. arcticus in the North American Barrenlands) when rising seas isolated them. Likewise in North America, DNA analysis shows that woodland caribou (R. caribou) diverged from primitive ancestors of tundra / barren-ground caribou not during the LGM, 26,000–19,000 years ago, as previously assumed, but in the Middle Pleistocene around 357,000 years ago. At that time, modern tundra caribou had not even evolved. Woodland caribou are likely more related to extinct North American forest caribou than to barren-ground caribou. For example, the extinct caribou Torontoceros hypogaeus, had features (robust and short pedicles, smooth antler surface, and high position of second tine) that relate it to forest caribou.

Humans started hunting reindeer in both the Mesolithic and Neolithic Periods, and humans are today the main predator in many areas. Norway and Greenland have unbroken traditions of hunting wild reindeer from the Last Glacial Period until the present day. In the non-forested mountains of central Norway, such as Jotunheimen, it is still possible to find remains of stone-built trapping pits, guiding fences and bow rests, built especially for hunting reindeer. These can, with some certainty, be dated to the Migration Period, although it is not unlikely that they have been in use since the Stone Age.

Cave paintings by ancient Europeans include both tundra and forest types of reindeer.

A 2022 study of ancient environmental DNA from the Early Pleistocene (2 million years ago) Kap Kobenhavn Formation of northern Greenland identified preserved DNA fragments of Rangifer, identified as basal but potentially ancestral to modern reindeer. This suggests that reindeer have inhabited Greenland since at least the Early Pleistocene. Around this time, northern Greenland was 11–19 °C (20–34 °F) warmer than the Holocene, with a boreal forest hosting a species assemblage with no modern analogue. These are among the oldest DNA fragments ever sequenced.

Taxonomy

Naming and research on museum collections

Carl Linnaeus in 1758 named the Eurasian tundra species Cervus tarandus, the genus Rangifer being credited to Smith, 1827.

Rangifer has had a convoluted history because of the similarity in antler architecture (brow tines asymmetrical and often palmate, bez tines, a back tine sometimes branched, and branched at the distal end, often palmate). Because of individual variability, early taxonomists were unable to discern consistent patterns among populations, nor could they, examining collections in Europe, appreciate the difference in habitats and the differing function they imposed on antler architecture. Comparative morphometrics, the measurement of skulls, is often seen as more objective than description of differences of color or antler patterns, but actually confounds genetic variance with epistatic and statistical variance as well as compounded environment-based variance.

For example, woodland caribou males, rutting in boreal forest where only a few females can be found, collect harems and defend them against other males, for which they have short, straight, strong, much-branched antlers, beams flattened in cross-section, designed for combat — and not too large, so as not to impede them in forested winter ranges.

By contrast, modern tundra caribou (see Evolution above) have synchronized calving as a predator-avoidance strategy, which requires large rutting aggregations. Males cannot defend a harem because, while he was busy fighting, they would disappear into the mass of the herd. Males therefore tend individual females; their fights are infrequent and brief. Their antlers are thin, beams round in cross-section, sweep back and then forward with a cluster of branches at the top; these are designed more for visual stimulation of the females. Their bez tines are set low, just above the brow tine, which is vertically flattened to protect the eyes while the buck "threshes" low brush, a courtship display. The low bez tines help the wide flat brow tines dig craters in the hard-packed tundra snow for forage, for which reason brow tines are often called "shovels" in North America and "ice tines" in Europe. The differences in antler architecture reflect fundamental differences in ecology and behavior, and in turn deep divisions in ancestry that were not apparent to the early taxonomists.

Similarly, working on museum collections where skins were often faded and in poor states of preservation, early taxonomists could not readily perceive differences in coat patterns that are consistent within a subspecies, but variable among them. Geist calls these "nuptial" characteristics: sexually selected characters that are highly conserved and diagnostic among subspecies.

Biological exploration expeditions

Towards the end of the 19th century, national museums began sending out biological exploration expeditions and collections accumulated. Taxonomists, usually working for the museums, began naming subspecies more rigorously, based on statistical differences in detailed cranial, dental and skeletal measurements than antlers and pelage, supplemented by better knowledge of differences in ecology and behavior. From 1898 to 1937, mammalogists named 12 new species (other than barren-ground and woodland, which had been named earlier) of caribou in Canada and Alaska, and three new species and nine new subspecies in Eurasia, each properly described according to the evolving rules of zoological nomenclature, with type localities designated and type specimens deposited in museums (see table in Species and subspecies below).

Reclassification

In the mid-20th century, as definitions of "species" evolved, mammalogists in Europe and North America made all Rangifer species conspecific with R. tarandus, and synonymized most of the subspecies. Alexander William Francis Banfield's often-cited A Revision of the Reindeer and Caribou, Genus Rangifer (1961), eliminated R. t. caboti (the Labrador caribou), R. t. osborni (Osborn's caribou — from British Columbia) and R. t. terranovae (the Newfoundland caribou) as invalid and included only barren-ground caribou, renamed as R. t. groenlandicus (formerly R. arcticus) and woodland caribou as R. t. caribou. However, Banfield made multiple errors, eliciting a scathing review by Ian McTaggart-Cowan in 1962. Most authorities continued to consider all or most subspecies valid; some were quite distinct. In his chapter in the authoritative 2005 reference work Mammal Species of the World, referenced by the American Society of Mammalogists, English zoologist Peter Grubb agreed with Valerius Geist, a specialist on large mammals, that these subspecies were valid (i.e., before the recent revision): In North America, R. t. caboti, R. t. caribou, R. t. dawsoni, R. t. groenlandicus, R. t. osborni, R. t. pearyi, and R. t. terranovae; and in Eurasia, R. t. tarandus, R. t. buskensis (called R. t. valentinae in Europe; see below), R. t. phylarchus, R. t. pearsoni, R. t. sibiricus and R. t. platyrhynchus. These subspecies were retained in the 2011 replacement work Handbook of the Mammals of the World Vol. 2: Hoofed Mammals. Most Russian authors also recognized R. t. angustirostris, a forest reindeer from east of Lake Baikal.

However, since 1991, many genetic studies have revealed deep divergence between modern tundra reindeer and woodland caribou. Geist (2007) and others continued arguing that the woodland caribou was incorrectly classified, noting that "true woodland caribou, the uniformly dark, small-maned type with the frontally emphasized, flat-beamed antlers", is "scattered thinly along the southern rim of North American caribou distribution". He affirms that the "true woodland caribou is very rare, in very great difficulties and requires the most urgent of attention."

Ecotypes

In 2011, noting that the former classifications of Rangifer tarandus, either with prevailing taxonomy on subspecies, designations based on ecotypes, or natural population groupings, failed to capture "the variability of caribou across their range in Canada" needed for effective subspecies conservation and management, COSEWIC developed Designatable Unit (DU) attribution, an adaptation of "evolutionary significant units". The 12 designatable units for caribou in Canada (that is, excluding Alaska and Greenland) based on ecology, behavior and, importantly, genetics (but excluding morphology and archaeology) essentially followed the previously named subspecies distributions, without naming them as such, plus some ecotypes. Ecotypes are not phylogenetically based and cannot substitute for taxonomy.

Genetic, molecular, and archaeological evidence

Meanwhile, genetic data continued to accumulate, revealing sufficiently deep divisions to easily separate Rangifer back into six previously named species and to resurrect several previously named subspecies. Molecular data showed that the Greenland caribou (R. t. groenlandicus) and the Svalbard reindeer (R. t. platyrhynchus), although not closely related to each other, were the most genetically divergent among Rangifer clades; that modern (see Evolution above) Eurasian tundra reindeer (R. t. tarandus and R. t. sibiricus) and North American barren-ground caribou (R. t. arcticus), although sharing ancestry, were separable at the subspecies level; that Finnish forest reindeer (R. t. fennicus) clustered well apart from both wild and domestic tundra reindeer and that boreal woodland caribou (R. t. caribou) were separable from all others. Meanwhile, archaeological evidence was accumulating that Eurasian forest reindeer descended from an extinct forest-adapted reindeer and not from tundra reindeer (see Evolution above); since they do not share a direct common ancestor, they cannot be Biological specificity#conspecific|conspecific. Similarly, woodland caribou diverged from the ancestors of Arctic caribou before modern barren-ground caribou had evolved, and were more likely related to extinct North American forest reindeer (see Evolution above). Lacking a direct shared ancestor, barren-ground and woodland caribou cannot be conspecific.

Molecular data also revealed that the four western Canadian montane ecotypes are not woodland caribou: they share a common ancestor with modern barren-ground caribou / tundra reindeer, but distantly, having diverged > 60,000 years ago — before the modern ecotypes had evolved their cold- and darkness-adapted physiologies and mass-migration and aggregation behaviors (see Evolution above). Before Banfield (1961), taxonomists using cranial, dental and skeletal measurements had unequivocally allied these western montane ecotypes with barren-ground caribou, naming them (as in Osgood 1909 Murie, 1935 and Anderson 1946, among others) R. t. stonei, R. t. montanus, R. t. fortidens and R. t. osborni, respectively, and this phylogeny was confirmed by genetic analysis.

Novel genetics-based clades

DNA also revealed three unnamed clades that, based on genetic distance, genetic divergence and shared vs. private haplotypes and alleles, together with ecological and behavioral differences, may justify separation at the subspecies level: the Atlantic-Gaspésie caribou (COSEWIC DU11), an eastern montane ecotype of the boreal woodland caribou, and the Baffin Island caribou. Neither one of these clades has yet been formally described or named.

Jenkins et al. (2012) said that " caribou are unique compared to other Barrenground herds, as they do not overwinter in forested habitat, nor do all caribou undertake long seasonal migrations to calving areas." It also shares a mtDNA haplotype with Labrador caribou, in the North American lineage (i.e., woodland caribou). Røed et al. (1991) had noted:

Among Baffin Island caribou the TFL2 allele was the most common allele (p=0.521), while this allele was absent, or present in very low frequencies, in other caribou populations (Table 1), including the Canadian barren-ground caribou from the Beverly herd. A large genetic difference between Baffin Island caribou and the Beverly herd was also indicated by eight alleles found in the Beverly herd which were absent from the Baffin Island samples.

Jenkins et al. (2018) also reported genetic distinctiveness of Baffin Island caribou from all other barren-ground caribou; its genetic signature was not found on the mainland or on other islands; nor were Beverly herd (the nearest mainly barren-ground caribou) alleles present in Baffin Island caribou, evidence of reproductive isolation.

These advances in Rangifer genetics were brought together with previous morphological-based descriptions, ecology, behavior and archaeology to propose a new revision of the genus.

Species and subspecies

Extant species and subspecies of Rangifer
Species
(1-species taxonomy)
Species
(6-species taxonomy)
Subspecies Common name Sedentary / migratory Range Weight of male Type locality / specimen
R. tarandus
(Linnaeus, 1758)
reindeer or caribou
R. arcticus
Richardson, 1829
Barren-ground caribou

R. t. arcticus or
R. a. articus
(Richardson, 1829)
barren-ground caribou migratory the High Arctic islands of Nunavut and the Northwest Territories, Canada and western Greenland (except for the southwestern region) 150 kg (330 lb) "Fort Enterprise, Winter Lake, Mackenzie District, N.W.T., Canada" given by Allen 1908; Neotype no. 22066 (for the species)

R. t. arcticus or
R. a. arcticus
(Richardson, 1829)
Porcupine caribou (an ecotype of the barren-ground caribou) migratory summers in the northern Yukon mountains and the coastal plains; winters in the boreal forests of Alaska and the Yukon the same as for the subspecies
R. t. fortidens or
R. a. fortidens
(Hollister, 1912)
Rocky Mountain caribou short migrations: summers in alpine forest and winters in lowland forest the Canadian Rocky Mountains "Largest of the caribou, exceeding in measurements the largest specimens of Rangifer osborni and Rangifer montanus." "head of Moose Pass branch of the Smoky River, Alberta (north-east of Mount Robson)"; USNM No. 174505
R. t. granti or
R. a. granti
(Allen, 1902)
Grant's caribou sedentary (makes short movements to seasonal habitats) the western end of the Alaska Peninsula and the adjacent islands "Western end of Alaska Peninsula, opposite Popoff Island, Alaska"; AMNH no. 17593
Selkirk Mountain caribou
R. t. montanus or
R. a. montanus
(Seton-Thompson, 1899)
Selkirk Mountains caribou twice-yearly altitudinal movements the Columbia Mountains (specifically the Selkirk, Purcell and Monashee Mountains) in British Columbia, Canada and Washington, Idaho and Montana, United States no data "Illecillewaet watershed, near Revelstoke, Selkirk Range, B. C."; NMC no. 232
Osborn's caribou
R. t. osborni or
R. a. osborni
(Allen, 1902)
Osborn's caribou short migrations: summers in alpine forest and winters in lowland muskeg British Columbia, Canada males up to 340 kg (750 lb) "Cassiar Mountains, British Columbia; AMNH no. 15714

R. t. pearyi or
R. a. pearyi
(Allen, 1902)
Peary caribou an island population that makes local movements both within and among islands the High Arctic islands (except for Baffin Island) of Nunavut and the Northwest Territories, Canada smallest North American subspecies: males average 70 kg (150 lb) "Ellesmere Land , N. Lat. 79⁰"; AMNH no. 19231
R. t. stonei or
R. a. stonei
(Allen, 1901)
Stone's caribou altitudinal movements the mountains of southern Alaska and the southeastern Yukon no data "Kenai Peninsula, Alaska"; AMNH no. 16701
R. caribou
(Gmelin, 1788)
woodland caribou

R. t. caribou or
R. c. caribou
(Gmelin, 1788)
boreal woodland caribou

sedentary (makes short movements to seasonal habitats) the boreal forests of northeastern Canada males average 180 kg (400 lb), up to 272 kg (600 lb) Type locality amended to "eastern Canada" (Miller Jr. 1912); NMC Neotype no. 4800

R. t. caboti or
R. c. caboti
(G. M. Allen, 1914)
Labrador caribou or Ungava caribou migratory (except for the Torngat Mountain population DU10) northern Quebec and northern Labrador, Canada no data "Thirty miles north of Nachvak , northeast coast of Labrador", MCZ No. 15,372

R. t. terranovae or
R. c. terranovae
(Allen, 1896)
Newfoundland caribou Newfoundland, Canada 139.6 kg (3 adult males) "Grand Lake, Newfoundland"; AMNH 11775
R. fennicus
Lönnberg, 1909
forest reindeer

R. t. fennicus or
R. f. fennicus
(Lönnberg, 1909)
Finnish forest reindeer migratory northwestern Russia and Finland 150–250 kg (330–550 lb) "Torne District , Finnish Lappland"; NR No. 4661, Stockholm
R. t. valentinae or
R. f. valentinae
(Flerov, 1933)
Siberian forest reindeer altitudinal migration the Ural Mountains, Russia and the Altai Mountains, Mongolia no data "Head of Chulyshman River, North-Eastern Altai, Siberia"; skin ZMASL no. 22599, skull no. 10214
R. groenlandicus
(Borowsky, 1780)

R. groenlandicus or
R. t. groenlandicus
(Borowsky, 1780)
Western Greenlandic Caribou or reindeer sedentary four small areas in southwestern Greenland no data "Greenland"
R. platyrhynchus
(Vrolik, 1829)
Svalbard reindeer

R. platyrhynchus or
R. t. platyrhynchus
(Vrolik, 1829)
Svalbard reindeer an island population that makes local movements both within and among islands the Svalbard Archipelago of Norway smallest of the reindeer; has extremely short legs "Spitzbergen"; Neotype no. M2625, Oslo
R. tarandus
(Linnaeus, 1758)
tundra reindeer or mountain reindeer
R. t. pearsoni
(Lydekker, 1903)
Novaya Zemlya reindeer an island population that makes local movements both within and among islands the Novaya Zemlya and New Siberia Archipelagoes of Russia and Wrangel Island, Russia no data "Island of Novaya Zemlya"; type specimen "In the possession of H. J. Pearson, Esq., Bramcote, Nottinghamshire, England" (Flerov, 1933).
R. t. phylarchus
(Hollister, 1912)
Kamchatkan reindeer restricted to the Kamchatka Peninsula, Russia, after those reindeer west of the Sea of Okhotsk were found to actually be R. t. sibiricus no data "Southeastern Kamchatka "; USNM No. 21343
R. t. sibiricus
(Murray, 1866)
Siberian tundra reindeer long-distance migrations Siberia, Russia, Franz Josef Land during the Holocene from >6400–1300 cal. BP (from where it has been extirpated) no data "Siberia. ...eastward of the River Lena"; Type specimen of sibiricus unknown; however, Jacobi (1931) deposited a type specimen of "asiaticus" in the Museum of Leningrad (ZMASL), Buturlin coll. no. 240-1908

R. t. tarandus
(Linnaeus, 1758)
mountain reindeer or Norwegian reindeer migratory the Arctic tundra of the Fennoscandian Peninsula in Norway and the Austfirðir in Iceland (where it has been introduced) no data Scandinavia

Abbreviations:

Extinct subspecies of Rangifer
Subspecies Common name Division Range Weight of male Extinct since
R. t. eogroenlandicus
(Degerbøl, 1957)
†East Greenland caribou
or Arctic reindeer
tundra eastern Greenland no data 1900
R. t. dawsoni or
R. a. dawsoni
(Thompson-Seton, 1900)
Queen Charlotte Islands caribou
or Dawson's caribou
woodland Graham Island of Haida Gwaii off the coast of British Columbia, Canada (formerly known as the Queen Charlotte Islands) no data 1908
R. t. setoni or
R. f. setoni
Flerov, 1933
†Sakhalin reindeer tundra Sakhalin in the Sea of Okhotsk, Russia no data 2007?

The table above includes, as per the recent revision, R. t. caboti (the Labrador caribou (the Eastern Migratory population DU4)), and R. t. terranovae (the Newfoundland caribou (the Newfoundland population DU5)), which molecular analyses have shown to be of North American (i.e., woodland caribou) lineage; and four mountain ecotypes now known to be of distant Beringia-Eurasia lineage (see Taxonomy above).

The scientific name Tarandus rangifer buskensis Millais, 1915 (the Busk Mountains reindeer) was selected as the senior synonym to R. t. valentinae Flerov, 1933, in Mammal Species of the World but Russian authors do not recognize Millais and Millais' articles in a hunting travelogue, The Gun at Home and Abroad, seem short of a taxonomic authority.

The scientific name groenlandicus is fraught with problems. Edwards (1743) illustrated and claimed to have seen a male specimen ("head of perfect horns...") from Greenland and said that a Captain Craycott had brought a live pair from Greenland to England in 1738. He named it Capra groenlandicus, Greenland reindeer. Linnaeus, in the 12th edition of Systema naturae, gave grœnlandicus as a synonym for Cervus tarandus. Borowski disagreed (and again changed the spelling), saying Cervus grönlandicus was morphologically distinct from Eurasian tundra reindeer. Baird placed it under the genus Rangifer as R. grœnlandicus. It went back and forth as a full species or subspecies of the barren-ground caribou (R. arcticus) or a subspecies of the tundra reindeer (R. tarandus), but always as the Greenland reindeer / caribou. Taxonomists consistently documented morphological differences between Greenland and other caribou / reindeer in cranial measurements, dentition, antler architecture, etc. Then Banfield (1961) in his famously flawed revision, gave the name groenlandicus to all the barren-ground caribou in North America, Greenland included, because groenlandicus pre-dates Richardson's R. arctus. However, because genetic data shows the Greenland caribou to be the most distantly related of any caribou to all the others (genetic distance, FST = 44%, whereas most cervid (deer family) species have a genetic distance of 2% to 5%)--as well as behavioral and morphological differences—a recent revision returned it to species status as R. groenlandicus. Although it has been assumed that the larger caribou that appeared in Greenland 4,000 years ago originated from Baffin Island (itself unique; see Taxonomy above), a reconstruction of LGM glacial retreat and caribou advance (Yannic et al. 2013) shows colonization by NAL lineage caribou more likely. Their PCA and tree diagrams show Greenland caribou clustering outside of the Beringian-Eurasian lineage.

The scientific name R. t. granti has a very interesting history. Allen (1902) named it as a distinct species, R. granti, from the "western end of Alaska Peninsula, opposite Popoff Island" and noting that:

Rangifer granti is a representative of the Barren Ground group of Caribou, which includes R. arcticus of the Arctic Coast and R. granlandicus of Greenland. It is not closely related to R. stonei of the Kenai Peninsula, from which it differs not only in its very much smaller size, but in important cranial characters and in coloration. ...The external and cranial differences between R. granti and the various forms of the Woodland Caribou are so great in almost every respect that no detailed comparison is necessary. ...According to Mr. Stone, Rangifer granti inhabits the " barren land of Alaska Peninsula, ranging well up into the mountains in summer, but descending to the lower levels in winter, generally feeding on the low flat lands near the coast and in the foothills...As regards cranial characters no comparison is necessary with R. montanus or with any of the woodland forms."

Osgood and Murie (1935), agreeing with granti's close relationship with the barren-ground caribou, brought it under R. arcticus as a subspecies, R. t. granti. Anderson (1946) and Banfield (1961), based on statistical analysis of cranial, dental and other characters, agreed. But Banfield (1961) also synonymized Alaska's large R. stonei with other mountain caribou of British Columbia and the Yukon as invalid subspecies of woodland caribou, then R. t. caribou. This left the small, migratory barren-ground caribou of Alaska and the Yukon, including the Porcupine caribou herd, without a name, which Banfield rectified in his 1974 Mammals of Canada by extending to them the name "granti". The late Valerius Geist (1998), in the only error in his whole illustrious career, re-analyzed Banfield's data with additional specimens found in an unpublished report he cites as "Skal, 1982", but was "not able to find diagnostic features that could segregate this form from the western barren ground type." But Skal 1982 had included specimens from the eastern end of the Alaska Peninsula and the Kenai Peninsula, the range of the larger Stone's caribou. Later, geneticists comparing barren-ground caribou of Alaska with those of mainland Canada found little difference and they all became the former R. t. groenlandicus (now R. t. arcticus). R. t. granti was lost in the oblivion of invalid taxonomy until Alaskan researchers sampled some small, pale caribou from the western end of the Alaska Peninsula, their range enclosing the type locality designated by Allen (1902) and found them to be genetically distinct from all other caribou in Alaska. Thus, granti was rediscovered, its range restricted to that originally described.

Stone's caribou (R. t. stonei), a large montane type, was described from the Kenai Peninsula (where, apparently, it was never common except in years of great abundance), the eastern end of the Alaska Peninsula, and mountains throughout southern and eastern Alaska. It was placed under R. arcticus as a subspecies, R. t. stonei, and later synonymised as noted above. The same genetic analyses mentioned above for R. t. granti resulted in resurrecting R. t. stonei as well.

The Sakhalin reindeer (R. t. setoni), endemic to Sakhalin, was described as Rangifer tarandus setoni Flerov, 1933, but Banfield (1961) brought it under R. t. fennicus as a junior synonym. The wild reindeer on the island are apparently extinct, having been replaced by domestic reindeer.

Some of the Rangifer species and subspecies may be further divided by ecotype depending on several behavioral factors – predominant habitat use (northern, tundra, mountain, forest, boreal forest, forest-dwelling, woodland, woodland (boreal), woodland (migratory) or woodland (mountain), spacing (dispersed or aggregated) and migration patterns (sedentary or migratory). North American examples of this are the Torngat Mountain population DU10, an ecotype of R. t. caboti; a recently discovered and unnamed clade between the Mackenzie River and Great Bear Lake of Beringian-Eurasian lineage, an ecotype of R. t. osborni; the Atlantic-Gaspésie population DU11, an eastern montane ecotype of the boreal woodland caribou (R. t. caribou); the Baffin Island caribou, an ecotype of the barren-ground caribou (R. t. arcticus); and the Dolphin-Union "herd", another ecotype of R. t. arcticus. The last three of these likely qualify as subspecies, but they have not yet been formally described or named.

Physical characteristics

Naming in this and following sections follows the taxonomy in the authoritative 2011 reference work Handbook of the Mammals of the World Vol. 2: Hoofed Mammals.

Antlers

Losing the velvet layer under which a new antler is growing, an annual process

In most cervid species, only males grow antlers; the reindeer is the only cervid species in which females also grow them normally. Androgens play an essential role in the antler formation of cervids. The antlerogenic genes in reindeer have more sensitivity to androgens in comparison with other cervids.

There is considerable variation among species and subspecies in the size of the antlers (e.g., they are rather small and spindly in the northernmost species and subspecies), but on average the bull's antlers are the second largest of any extant deer, after those of the male moose. In the largest subspecies, the antlers of large bulls can range up to 100 cm (39 in) in width and 135 cm (53 in) in beam length. They have the largest antlers relative to body size among living deer species. Antler size measured in number of points reflects the nutritional status of the reindeer and climate variation of its environment. The number of points on male reindeer increases from birth to 5 years of age and remains relatively constant from then on. "In male caribou, antler mass (but not the number of tines) varies in concert with body mass." While antlers of male woodland caribou are typically smaller than those of male barren-ground caribou, they can be over 1 m (3 ft 3 in) across. They are flattened in cross-section, compact and relatively dense. Geist describes them as frontally emphasized, flat-beamed antlers. Woodland caribou antlers are thicker and broader than those of the barren-ground caribou and their legs and heads are longer. Quebec-Labrador male caribou antlers can be significantly larger and wider than other woodland caribou. Central barren-ground male caribou antlers are perhaps the most diverse in configuration and can grow to be very high and wide. Osborn's caribou antlers are typically the most massive, with the largest circumference measurements.

The antlers' main beams begin at the brow "extending posterior over the shoulders and bowing so that the tips point forward. The prominent, palmate brow tines extend forward, over the face." The antlers typically have two separate groups of points, lower and upper.

Antlers begin to grow on male reindeer in March or April and on female reindeer in May or June. This process is called antlerogenesis. Antlers grow very quickly every year on the bulls. As the antlers grow, they are covered in thick velvet, filled with blood vessels and spongy in texture. The antler velvet of the barren-ground caribou and the boreal woodland caribou is dark chocolate brown. The velvet that covers growing antlers is a highly vascularised skin. This velvet is dark brown on woodland or barren-ground caribou and slate-grey on Peary caribou and the Dolphin-Union caribou herd. Velvet lumps in March can develop into a rack measuring more than a 1 m (3 ft 3 in) in length by August.

A R. tarandus skull

When the antler growth is fully grown and hardened, the velvet is shed or rubbed off. To Inuit, for whom the caribou is a "culturally important keystone species", the months are named after landmarks in the caribou life cycle. For example, amiraijaut in the Igloolik region is "when velvet falls off caribou antlers."

Male reindeer use their antlers to compete with other males during the mating season. Butler (1986) showed that the social requirements of caribou females during the rut determines the mating strategies of males and, consequently, the form of male antlers. In describing woodland caribou, which have a harem-defense mating system, SARA wrote, "During the rut, males engage in frequent and furious sparring battles with their antlers. Large males with large antlers do most of the mating." Reindeer continue to migrate until the bulls have spent their back fat. By contrast, barren-ground caribou males tend individual females and their fights are brief and much less intense; consequently, their antlers are long, and thin, round in cross-section and less branched and are designed more for show (or sexual attraction) than fighting.

In late autumn or early winter after the rut, male reindeer lose their antlers, growing a new pair the next summer with a larger rack than the previous year. Female reindeer keep their antlers until they calve. In the Scandinavian and Arctic Circle populations, old bulls' antlers fall off in late December, young bulls' antlers fall off in the early spring, and cows' antlers fall off in the summer.

When male reindeer shed their antlers in early to mid-winter, the antlered cows acquire the highest ranks in the feeding hierarchy, gaining access to the best forage areas. These cows are healthier than those without antlers. Calves whose mothers do not have antlers are more prone to disease and have a significantly higher mortality. Cows in good nutritional condition, for example, during a mild winter with good winter range quality, may grow new antlers earlier as antler growth requires high intake.

A R. t. platyrhynchus skull

According to a respected Igloolik elder, Noah Piugaattuk, who was one of the last outpost camp leaders, caribou (tuktu) antlers

...get detached every year...Young males lose the velvet from the antlers much more quickly than female caribou even though they are not fully mature. They start to work with their antlers just as soon as the velvet starts to fall off. The young males engage in fights with their antlers towards autumn...soon after the velvet had fallen off they will be red, as they start to get bleached their colour changes...When the velvet starts to fall off the antler is red because the antler is made from blood. The antler is the blood that has hardened; in fact, the core of the antler is still bloody when the velvet starts to fall off, at least close to the base.

— Elder Noah Piugaattuk of Igloolik cited in "Tuktu — Caribou" (2002) "Canada's Polar Life"

According to the Igloolik Oral History Project (IOHP), "Caribou antlers provided the Inuit with a myriad of implements, from snow knives and shovels to drying racks and seal-hunting tools. A complex set of terms describes each part of the antler and relates it to its various uses". Currently, the larger racks of antlers are used by Inuit in Inuit art as materials for carving. Iqaluit-based Jackoposie Oopakak's 1989 carving, entitled Nunali, which means "place where people live", and which is part of the permanent collection of the National Gallery of Canada, includes a massive set of caribou antlers on which he has intricately carved the miniaturized world of the Inuit where "Arctic birds, caribou, polar bears, seals, and whales are interspersed with human activities of fishing, hunting, cleaning skins, stretching boots, and travelling by dog sled and kayak...from the base of the antlers to the tip of each branch".

Pelt

The color of the fur varies considerably, both between individuals and depending on season and species. Northern populations, which usually are relatively small, are whiter, while southern populations, which typically are relatively large, are darker. This can be seen well in North America, where the northernmost subspecies, the Peary caribou, is the whitest and smallest subspecies of the continent, while the Selkirk Mountains caribou (Southern Mountain population DU9) is the darkest and nearly the largest, only exceeded in size by Osborn's caribou (Northern Mountain population DU7).

The coat has two layers of fur: a dense woolly undercoat and a longer-haired overcoat consisting of hollow, air-filled hairs.{{efn|According to Inuit elder Marie Kilunik of the Aivilingmiut, Canadian Inuit preferred the caribou skins from caribou taken in the late summer or autumn, when their coats had thickened. They used it for winter clothing "because each hair is hollow and fills with air trapping heat." Fur is the primary insulation factor that allows reindeer to regulate their core body temperature in relation to their environment, the thermogradient, even if the temperature rises to 38 °C (100 °F). In 1913, Dugmore noted how the woodland caribou swim so high out of the water, unlike any other mammal, because their hollow, "air-filled, quill-like hair" acts as a supporting "life jacket".

A darker belly color may be caused by two mutations of MC1R. They appear to be more common in domestic reindeer herds.

Heat exchange

Blood moving into the legs is cooled by blood returning to the body in a countercurrent heat exchange (CCHE), a highly efficient means of minimizing heat loss through the skin's surface. In the CCHE mechanism, in cold weather, blood vessels are closely knotted and intertwined with arteries to the skin and appendages that carry warm blood with veins returning to the body that carry cold blood causing the warm arterial blood to exchange heat with the cold venous blood. In this way, their legs for example are kept cool, maintaining the core body temperature nearly 30 °C (54 °F) higher with less heat lost to the environment. Heat is thus recycled instead of being dissipated. The "heart does not have to pump blood as rapidly in order to maintain a constant body core temperature and thus, metabolic rate." CCHE is present in animals like reindeer, fox and moose living in extreme conditions of cold or hot weather as a mechanism for retaining the heat in (or out of) the body. These are countercurrent exchange systems with the same fluid, usually blood, in a circuit, used for both directions of flow.

Reindeer have specialized counter-current vascular heat exchange in their nasal passages. Temperature gradient along the nasal mucosa is under physiological control. Incoming cold air is warmed by body heat before entering the lungs and water is condensed from the expired air and captured before the reindeer's breath is exhaled, then used to moisten dry incoming air and possibly be absorbed into the blood through the mucous membranes. Like moose, caribou have specialized noses featuring nasal turbinate bones that dramatically increase the surface area within the nostrils.

Hooves

The reindeer has large feet with crescent-shaped cloven hooves for walking in snow or swamps. According to the Species at Risk Public Registry (SARA), woodland

"Caribou have large feet with four toes. In addition to two small ones, called "dew claws," they have two large, crescent-shaped toes that support most of their weight and serve as shovels when digging for food under snow. These large concave hooves offer stable support on wet, soggy ground and on crusty snow. The pads of the hoof change from a thick, fleshy shape in the summer to become hard and thin in the winter months, reducing the animal's exposure to the cold ground. Additional winter protection comes from the long hair between the "toes"; it covers the pads so the caribou walks only on the horny rim of the hooves."

— SARA 2014

Reindeer hooves adapt to the season: in the summer, when the tundra is soft and wet, the footpads become sponge-like and provide extra traction. In the winter, the pads shrink and tighten, exposing the rim of the hoof, which cuts into the ice and crusted snow to keep it from slipping. This also enables them to dig down (an activity known as "cratering") through the snow to their favourite food, a lichen known as reindeer lichen (Cladonia rangiferina).

Size

The females (or "cows" as they are often called) usually measure 162–205 cm (64–81 in) in length and weigh 80–120 kg (180–260 lb). The males (or "bulls" as they are often called) are typically larger (to an extent which varies between the different species and subspecies), measuring 180–214 cm (71–84 in) in length and usually weighing 159–182 kg (351–401 lb). Exceptionally large bulls have weighed as much as 318 kg (701 lb). Weight varies drastically between the seasons, with bulls losing as much as 40% of their pre-rut weight.

The shoulder height is usually 85 to 150 cm (33 to 59 in), and the tail is 14 to 20 cm (5.5 to 7.9 in) long.

The reindeer from Svalbard are the smallest of all. They are also relatively short-legged and may have a shoulder height of as little as 80 cm (31 in), thereby following Allen's rule.

Clicking sound

The knees of many species and subspecies of reindeer are adapted to produce a clicking sound as they walk. The sounds originate in the tendons of the knees and may be audible from several hundred meters away. The frequency of the knee-clicks is one of a range of signals that establish relative positions on a dominance scale among reindeer. "Specifically, loud knee-clicking is discovered to be an honest signal of body size, providing an exceptional example of the potential for non-vocal acoustic communication in mammals." The clicking sound made by reindeer as they walk is caused by small tendons slipping over bone protuberances (sesamoid bones) in their feet. The sound is made when a reindeer is walking or running, occurring when the full weight of the foot is on the ground or just after it is relieved of the weight.

Eyes

A study by researchers from University College London in 2011 revealed that reindeer can see light with wavelengths as short as 320 nm (i.e. in the ultraviolet range), considerably below the human threshold of 400 nm. It is thought that this ability helps them to survive in the Arctic, because many objects that blend into the landscape in light visible to humans, such as urine and fur, produce sharp contrasts in ultraviolet. It has been proposed that UV flashes on power lines are responsible for reindeer avoiding power lines because "...in darkness these animals see power lines not as dim, passive structures but, rather, as lines of flickering light stretching across the terrain."

In 2023, researchers studying reindeer living in Cairngorms National Park, Scotland, suggested that UV visual sensitivity in reindeer helps them detect UV-absorbing lichens against a background of UV-reflecting snows.

The tapetum lucidum of Arctic reindeer eyes changes in color from gold in summer to blue in winter to improve their vision during times of continuous darkness, and perhaps enable them to better spot predators.

Biology and behaviors

Seasonal body composition

Sweden

Reindeer have developed adaptations for optimal metabolic efficiency during warm months as well as for during cold months. The body composition of reindeer varies highly with the seasons. Of particular interest is the body composition and diet of breeding and non-breeding females between the seasons. Breeding females have more body mass than non-breeding females between the months of March and September with a difference of around 10 kg (22 lb) more than non-breeding females. From November to December, non-breeding females have more body mass than breeding females, as non-breeding females are able to focus their energies towards storage during colder months rather than lactation and reproduction. Body masses of both breeding and non-breeding females peaks in September. During the months of March through April, breeding females have more fat mass than the non-breeding females with a difference of almost 3 kg (6.6 lb). After this, however, non-breeding females on average have a higher body fat mass than do breeding females.

The environmental variations play a large part in reindeer nutrition, as winter nutrition is crucial to adult and neonatal survival rates. Lichens are a staple during the winter months as they are a readily available food source, which reduces the reliance on stored body reserves. Lichens are a crucial part of the reindeer diet; however, they are less prevalent in the diet of pregnant reindeer compared to non-pregnant individuals. The amount of lichen in a diet is found more in non-pregnant adult diets than pregnant individuals due to the lack of nutritional value. Although lichens are high in carbohydrates, they are lacking in essential proteins that vascular plants provide. The amount of lichen in a diet decreases in latitude, which results in nutritional stress being higher in areas with low lichen abundance.

In a study of seasonal light-dark cycles on sleep patterns of female reindeer, researchers performed non-invasive electroencephalography (EEG) on reindeer kept in a stable at the UiT The Arctic University of Norway. The EEG recordings showed that: (1) the more time reindeer spend ruminating, the less time they spend in non-rapid eye movement sleep (NREM sleep); and (2) reindeer's brainwaves during rumination resemble the brainwaves present during NREM sleep. These results suggest that, by reducing the time requirement for NREM sleep, reindeer are able to spend more time feeding during the summer months, when food is abundant.

Reproduction and life cycle

Further information: Rut (mammalian reproduction) § Cervidae

Reindeer mate in late September to early November, and the gestation period is about 228–234 days. During the mating season, bulls battle for access to cows. Two bulls will lock each other's antlers together and try to push each other away. The most dominant bulls can collect as many as 15–20 cows to mate with. A bull will stop eating during this time and lose much of his body fat reserves.

To calve, "females travel to isolated, relatively predator-free areas such as islands in lakes, peatlands, lake-shores, or tundra." As females select the habitat for the birth of their calves, they are warier than males. Dugmore noted that, in their seasonal migrations, the herd follows a female for that reason. Newborns weigh on average 6 kg (13 lb). In May or June, the calves are born. After 45 days, the calves are able to graze and forage, but continue suckling until the following autumn when they become independent from their mothers.

Bulls live four years less than the cows, whose maximum longevity is about 17 years. Cows with a normal body size and who have had sufficient summer nutrition can begin breeding anytime between the ages of 1 and 3 years. When a cow has undergone nutritional stress, it is possible for her to not reproduce for the year. Dominant bulls, those with larger body size and antler racks, inseminate more than one cow a season.

Social structure, migration and range

The size of the antlers plays a significant role in establishing the hierarchy in the herd

Some populations of North American caribou; for example, many herds in the barren-ground caribou subspecies and some woodland caribou in Ungava and northern Labrador, migrate the farthest of any terrestrial mammal, traveling up to 5,000 km (3,000 mi) a year, and covering 1,000,000 km (400,000 sq mi). Other North American populations, the boreal woodland caribou for example, are largely sedentary. The European populations are known to have shorter migrations. Island populations, such as the Novaya Zemlya and Svalbard reindeer and the Peary caribou, make local movements both within and among islands. Migrating reindeer can be negatively affected by parasite loads. Severely infected individuals are weak and probably have shortened lifespans, but parasite levels vary between populations. Infections create an effect known as culling: infected migrating animals are less likely to complete the migration.

Normally travelling about 19–55 km (12–34 mi) a day while migrating, the caribou can run at speeds of 60–80 km/h (37–50 mph). Young calves can already outrun an Olympic sprinter when only 1 day old. During the spring migration, smaller herds will group together to form larger herds of 50,000 to 500,000 animals, but during autumn migrations, the groups become smaller and the reindeer begin to mate. During winter, reindeer travel to forested areas to forage under the snow. By spring, groups leave their winter grounds to go to the calving grounds. A reindeer can swim easily and quickly, normally at about 6.5 km/h (4.0 mph) but, if necessary, at 10 km/h (6.2 mph) and migrating herds will not hesitate to swim across a large lake or broad river.

The barren-ground caribou form large herds and undertake lengthy seasonal migrations from winter feeding grounds in taiga to spring calving grounds and summer range in the tundra. The migrations of the Porcupine herd of barren-ground caribou are among the longest of any mammal. Greenland caribou, found in southwestern Greenland, are "mixed migrators" and many individuals do not migrate; those that do migrate less than 60 km. Unlike the individual-tending mating system, aggregated rutting, synchronized calving and aggregated post-calving of barren-ground caribou, Greenland caribou have a harem-defense mating system and dispersed calving and they do not aggregate.

Although most wild tundra reindeer migrate between their winter range in taiga and summer range in tundra, some ecotypes or herds are more or less sedentary. Novaya Zemlya reindeer (R. t. pearsoni) formerly wintered on the mainland and migrated across the ice to the islands for summer, but only a few now migrate. Finnish forest reindeer (R. t. fennicus) were formerly distributed in most of the coniferous forest zones south of the tree line, including some mountains, but are now spottily distributed within this zone.

As an adaptation to their Arctic environment, they have lost their circadian rhythm.

Ecology

Distribution and habitat

Walking in Sweden
Sweden
Suomussalmi, Finland
Near Lake Khövsgöl in Mongolia
Main article: Reindeer distribution

Originally, the reindeer was found in Scandinavia, Eastern Europe, Greenland, Russia, Mongolia and northern China north of the 50th latitude. In North America, it was found in Canada, Alaska, and the northern contiguous United States from Maine to Washington. In the 19th century, it was still present in southern Idaho. Even in historical times, it probably occurred naturally in Ireland, and it is believed to have lived in Scotland until the 12th century, when the last reindeer were hunted in Orkney. During the Late Pleistocene Epoch, reindeer occurred further south in North America, such as in Nevada, Tennessee, and Alabama, and as far south as Spain in Europe. Though their range retreated northwards during the terminal Pleistocene, reindeer returned to Northern Europe during the Younger Dryas. Today, wild reindeer have disappeared from these areas, especially from the southern parts, where it vanished almost everywhere. Large populations of wild reindeer are still found in Norway, Finland, Siberia, Greenland, Alaska and Canada.

According to Grubb (2005), Rangifer is "circumboreal in the tundra and taiga" from "Svalbard, Norway, Finland, Russia, Alaska (USA) and Canada including most Arctic islands, and Greenland, south to northern Mongolia, China (Inner Mongolia), Sakhalin Island, and USA (northern Idaho and Great Lakes region)." Reindeer were introduced to, and are feral in, "Iceland, Kerguelen Islands, South Georgia Island, Pribilof Islands, St. Matthew Island"; a free-ranging semi-domesticated herd is also present in Scotland.

There is strong regional variation in Rangifer herd size. There are large population differences among individual herds and the size of individual herds has varied greatly since 1970. The largest of all herds (in Taimyr, Russia) has varied between 400,000 and 1,000,000; the second largest herd (at the George River in Canada) has varied between 28,000 and 385,000.

While Rangifer is a widespread and numerous genus in the northern Holarctic, being present in both tundra and taiga (boreal forest), by 2013, many herds had "unusually low numbers" and their winter ranges in particular were smaller than they used to be. Caribou and reindeer numbers have fluctuated historically, but many herds are in decline across their range. This global decline is linked to climate change for northern migratory herds and industrial disturbance of habitat for non-migratory herds. Barren-ground caribou are susceptible to the effects of climate change due to a mismatch in the phenological process between the availability of food during the calving period.

In November 2016, it was reported that more than 81,000 reindeer in Russia had died as a result of climate change. Longer autumns, leading to increased amounts of freezing rain, created a few inches of ice over lichen, causing many reindeer to starve to death.

Diet

Two caribou licking salt from a roadway in British Columbia

Reindeer are ruminants, having a four-chambered stomach. They mainly eat lichens in winter, especially reindeer lichen (Cladonia rangiferina); they are the only large mammal able to metabolize lichen owing to specialised bacteria and protozoa in their gut. They are also the only animals (except for some gastropods) in which the enzyme lichenase, which breaks down lichenin to glucose, has been found. However, they also eat the leaves of willows and birches, as well as sedges and grasses.

Reindeer are osteophagous; they are known to gnaw and partly consume shed antlers as a dietary supplement and in some extreme cases will cannibalise each other's antlers before shedding. There is also some evidence to suggest that on occasion, especially in the spring when they are nutritionally stressed, they will feed on small rodents (such as lemmings), fish (such as the Arctic char (Salvelinus alpinus)), and bird eggs. Reindeer herded by the Chukchis have been known to devour mushrooms enthusiastically in late summer.

During the Arctic summer, when there is continuous daylight, reindeer change their sleeping pattern from one synchronised with the sun to an ultradian pattern, in which they sleep when they need to digest food.

δCC values indicate reindeer living in the region around Biśnik Cave exhibited minimal ecological change during the transition from MIS 3 to MIS 2. Dental mesowear indicates that during the Late Pleistocene, reindeer living in central Alaska had highly abrasive diets similar to wild horses.

Predators

A herd standing on snow to avoid bloodsucking insects
Standing on snow to avoid bloodsucking insects

A variety of predators prey heavily on reindeer, including overhunting by people in some areas, which contributes to the decline of populations.

Golden eagles prey on calves and are the most prolific hunter on the calving grounds. Wolverines will take newborn calves or birthing cows, as well as (less commonly) infirm adults.

Brown bears and polar bears prey on reindeer of all ages but, like wolverines, are most likely to attack weaker animals, such as calves and sick reindeer, since healthy adult reindeer can usually outpace a bear. The gray wolf is the most effective natural predator of adult reindeer and sometimes takes large numbers, especially during the winter. Some gray wolf packs, as well as individual grizzly bears in Canada, may follow and live off of a particular reindeer herd year-round.

In 2020, scientists on Svalbard witnessed, and were able to film for the first time, a polar bear attack reindeer, driving one into the ocean, where the polar bear caught up with and killed it. The same bear successfully repeated this hunting technique the next day. On Svalbard, reindeer remains account for 27.3% in polar bear scats, suggesting that they "may be a significant part of the polar bear's diet in that area".

Additionally, as carrion, reindeer may be scavenged opportunistically by red and Arctic foxes, various species of eagles, hawks and falcons, and common ravens.

Bloodsucking insects, such as mosquitoes, black flies, and especially the reindeer warble fly or reindeer botfly (Hypoderma tarandi) and the reindeer nose botfly (Cephenemyia trompe), are a plague to reindeer during the summer and can cause enough stress to inhibit feeding and calving behaviors. An adult reindeer will lose perhaps about 1 L (0.22 imp gal; 0.26 US gal) of blood to biting insects for every week it spends in the tundra. The population numbers of some of these predators is influenced by the migration of reindeer. Tormenting insects keep caribou on the move, searching for windy areas like hilltops and mountain ridges, rock reefs, lakeshore and forest openings, or snow patches that offer respite from the buzzing horde. Gathering in large herds is another strategy that caribou use to block insects.

Reindeer are good swimmers and, in one case, the entire body of a reindeer was found in the stomach of a Greenland shark (Somniosus microcephalus), a species found in the far North Atlantic.

Other threats

White-tailed deer (Odocoileus virginianus) commonly carry meningeal worm or brainworm (Parelaphostrongylus tenuis), a nematode parasite that causes reindeer, moose (Alces alces), elk (Cervus canadensis), and mule deer (Odocoileus hemionus) to develop fatal neurological symptoms which include a loss of fear of humans. White-tailed deer that carry this worm are partially immune to it.

Changes in climate and habitat beginning in the 20th century have expanded range overlap between white-tailed deer and caribou, increasing the frequency of infection within the reindeer population. This increase in infection is a concern for wildlife managers. Human activities, such as "clear-cutting forestry practices, forest fires, and the clearing for agriculture, roadways, railways, and power lines," favor the conversion of habitats into the preferred habitat of the white-tailed deer – "open forest interspersed with meadows, clearings, grasslands, and riparian flatlands." Towards the end of the Soviet Union, there was increasingly open admission from the Soviet government that reindeer numbers were being negatively affected by human activity, and that this must be remediated especially by supporting reindeer breeding by native herders.

Conservation

Current status

Grazing pair in the Kenai National Wildlife Refuge

According to the IUCN, Rangifer tarandus, as a species, is not endangered because of its overall large population and its widespread range, but, as of 2015, the IUCN has classified the reindeer as Vulnerable due to an observed population decline of 40% over the last +25 years. Some reindeer species and subspecies are rare and three subspecies have already become extinct.

In North America, the Queen Charlotte Islands caribou and the East Greenland caribou both became extinct in the early 20th century, the Peary caribou is designated as Endangered, the boreal woodland caribou is designated as Threatened and some individual populations are endangered as well. While the barren-ground caribou is not designated as Threatened, many individual herds — including some of the largest — are declining and there is much concern at the local level. Grant's caribou, a small, pale subspecies endemic to the western end of the Alaska Peninsula and the adjacent islands, has not been assessed as to its conservation status.

The status of the Dolphin-Union "herd" was upgraded to Endangered in 2017. In NWT, Dolphin-Union caribou were listed as Special Concern under the NWT Species at Risk (NWT) Act (2013).

Both the Selkirk Mountains caribou (Southern Mountain population DU9) and the Rocky Mountain caribou (Central Mountain population DU8) are classified as Endangered in Canada in regions such as southeastern British Columbia at the Canada–United States border, along the Columbia and Kootenay Rivers and around Kootenay Lake. Rocky Mountain caribou are extirpated from Banff National Park, but a small population remains in Jasper National Park and in mountain ranges to the northwest into British Columbia. Montane caribou are now considered extirpated in the contiguous United States, including Washington and Idaho. Osborn's caribou (Northern Mountain population DU7) is classified as Threatened in Canada.

In Eurasia, the Sakhalin reindeer is extinct (and has been replaced by domestic reindeer) and reindeer on most of the Novaya Zemlya islands have also been replaced by domestic reindeer, although some wild reindeer still persist on the northern islands. Many Siberian tundra reindeer herds have declined, some dangerously, but the Taymir herd remains strong and in total about 940,000 wild Siberian tundra reindeer were estimated in 2010.

There is strong regional variation in Rangifer herd size. By 2013, many caribou herds in North America had "unusually low numbers" and their winter ranges in particular were smaller than they used to be. Caribou numbers have fluctuated historically, but many herds are in decline across their range. There are many factors contributing to the decline in numbers.

Boreal woodland caribou

Ongoing human development of their habitat has caused populations of boreal woodland caribou to disappear from their original southern range. In particular, boreal woodland caribou were extirpated in many areas of eastern North America in the beginning of the 20th century. Professor Marco Musiani of the University of Calgary said in a statement that "The woodland caribou is already an endangered subspecies in southern Canada and the United States... warming of the planet means the disappearance of their critical habitat in these regions. Caribou need undisturbed lichen-rich environments and these types of habitats are disappearing."

Boreal woodland caribou were designated as Threatened in 2002 by the Committee on the Status of Endangered Wildlife in Canada, (COSEWIC). Environment Canada reported in 2011 that there were approximately 34 000 boreal woodland caribou in 51 ranges remaining in Canada (Environment Canada, 2011b). "According to Geist, the "woodland caribou is highly endangered throughout its distribution right into Ontario."

In 2002, the Atlantic-Gaspésie population DU11 of the boreal woodland caribou was designated as Endangered by COSEWIC. The small isolated population of 200 animals was at risk from predation and habitat loss.

Peary caribou

In 1991, COSEWIC assigned "endangered status" to the Banks Island and High Arctic populations of the Peary caribou. The Low Arctic population of the Peary caribou was designated as Threatened. In 2004, all three were designated as "endangered." In 2015, COSEWIC returned the status to Threatened.

Relationship with humans

See also: Reindeer in Siberian shamanism and Reindeer hunting in Greenland
A team pulling a sled in Russia
Pulling a sled in Russia

Arctic peoples have depended on caribou for food, clothing, and shelter. European prehistoric cave paintings represent both tundra and forest forms, the latter either the Finnish forest reindeer or the narrow-nosed reindeer, an eastern Siberia forest form. Canadian examples include the Caribou Inuit, the inland-dwelling Inuit of the Kivalliq Region in northern Canada, the Caribou Clan in the Yukon, the Iñupiat, the Inuvialuit, the Hän, the Northern Tutchone, and the Gwichʼin (who followed the Porcupine caribou herd for millennia). Hunting wild reindeer and herding of semi-domesticated reindeer are important to several Arctic and sub-Arctic peoples such as the Duhalar for meat, hides [de], antlers, milk [ru], and transportation.

Reindeer have been domesticated at least two and probably three times, in each case from wild Eurasian tundra reindeer after the Last Glacial Maximum (LGM). Recognizably different domestic reindeer breeds include those of the Evenk, Even, and Chukotka-Khargin people of Yakutia and the Nenets breed from the Nenets Autonomous district and Murmansk region; the Tuvans, Todzhans, Tofa (Tofalars in the Irkutsk Region), the Soyots (the Republic of Buryatia), and the Dukha (also known as Tsaatan, the Khubsugul) in the Province of Mongolia. The Sámi (Sápmi) have also depended on reindeer herding and fishing for centuries. In Sápmi, reindeer are used to pull a pulk, a Nordic sled.

In traditional British and United States Christmas legend, Santa Claus's reindeer pull a sleigh through the night sky to help Santa Claus deliver gifts to good children on Christmas Eve.

The reindeer has an important economic role for all circumpolar peoples, including the Sámi, the Swedes, the Norwegians, the Finns and the Northwestern Russians in Europe, the Nenets, the Khanty, the Evenks, the Yukaghirs, the Chukchi and the Koryaks in Asia and the Inuit in North America. It is believed that domestication started between the Bronze and Iron Ages. Siberian reindeer owners also use the reindeer to ride on (Siberian reindeer are larger than their Scandinavian relatives). For breeders, a single owner may own hundreds or even thousands of animals. The numbers of Russian and Scandinavian reindeer herders have been drastically reduced since 1990. The sale of fur and meat is an important source of income. Reindeer were introduced into Alaska near the end of the 19th century; they interbred with the native caribou subspecies there. Reindeer herders on the Seward Peninsula have experienced significant losses to their herds from animals (such as wolves) following the wild caribou during their migrations.

Reindeer meat is popular in the Scandinavian countries. Reindeer meatballs are sold canned. Sautéed reindeer is the best-known dish in Sápmi. In Alaska and Finland, reindeer sausage is sold in supermarkets and grocery stores. Reindeer meat is very tender and lean. It can be prepared fresh, but also dried, salted and hot- and cold-smoked. In addition to meat, almost all of the internal organs of reindeer can be eaten, some being traditional dishes. Furthermore, Lapin Poron liha, fresh reindeer meat completely produced and packed in Finnish Sápmi, is protected in Europe with PDO classification.

Reindeer antlers are powdered and sold as an aphrodisiac, or as a nutritional or medicinal supplement, to Asian markets.

The blood of the caribou was supposedly mixed with alcohol as drink by hunters and loggers in colonial Quebec to counter the cold. This drink is now enjoyed without the blood as a wine and whiskey drink known as Caribou.

Indigenous North Americans

This section is missing information about US government intervention to introduce herding in the form of Alaska Reindeer Service; Canadian purchase from Alaska. Please expand the section to include this informationto include this information or by making an edit request. Further details may exist on the talk page. (March 2023)

Caribou are still hunted in Greenland and in North America. In the traditional lifestyles of some of Canada's Inuit peoples and northern First Nations peoples, Alaska Natives, and the Kalaallit of Greenland, caribou is an important source of food, clothing, shelter and tools.

An early 20th century Inuit parka made of caribou skin

The Caribou Inuit are inland-dwelling Inuit in present-day Nunavut's Kivalliq Region (formerly the Keewatin Region, Northwest Territories), Canada. They subsisted on caribou year-round, eating dried caribou meat in the winter. The Ahiarmiut are Caribou Inuit that followed the Qamanirjuaq barren-ground caribou herd.

There is an Inuit saying in the Kivalliq Region:

The caribou feeds the wolf, but it is the wolf who keeps the caribou strong.

— Kivalliq region

Elder Chief of Koyukuk and chair for the Western Arctic Caribou Herd Working Group Benedict Jones, or Kʼughtoʼoodenoolʼoʼ, represents the Middle Yukon River, Alaska. His grandmother was a member of the Caribou Clan, who travelled with the caribou as a means to survive. In 1939, they were living their traditional lifestyle at one of their hunting camps in Koyukuk near the location of what is now the Koyukuk National Wildlife Refuge. His grandmother made a pair of new mukluks in one day. Kʼughtoʼoodenoolʼoʼ recounted a story told by an elder, who "worked on the steamboats during the gold rush days out on the Yukon." In late August, the caribou migrated from the Alaska Range up north to Huslia, Koyukuk and the Tanana area. One year when the steamboat was unable to continue, they ran into a caribou herd estimated to number 1 million animals, migrating across the Yukon. "They tied up for seven days waiting for the caribou to cross. They ran out of wood for the steamboats, and had to go back down 40 miles to the wood pile to pick up some more wood. On the tenth day, they came back and they said there was still caribou going across the river night and day."

The Gwichʼin, an indigenous people of northwestern Canada and northeastern Alaska, have been dependent on the international migratory Porcupine caribou herd for millennia. To them, caribou — vadzaih — is the cultural symbol and a keystone subsistence species of the Gwich'in, just as the American buffalo is to the Plains Native Americans. Innovative language revitalisation projects are underway to document the language and to enhance the writing and translation skills of younger Gwich'in speakers. In one project, lead research associate and fluent speaker Gwich'in elder Kenneth Frank works with linguists who include young Gwich'in speakers affiliated with the Alaska Native Language Center at the University of Alaska in Fairbanks to document traditional knowledge of caribou anatomy. The main goal of the research was to "elicit not only what the Gwich'in know about caribou anatomy, but how they see caribou and what they say and believe about caribou that defines themselves, their dietary and nutritional needs, and their subsistence way of life." Elders have identified at least 150 descriptive Gwich'in names for all of the bones, organs and tissues. Associated with the caribou's anatomy are not just descriptive Gwich'in names for all of the body parts, including bones, organs, and tissues, but also "an encyclopedia of stories, songs, games, toys, ceremonies, traditional tools, skin clothing, personal names and surnames, and a highly developed ethnic cuisine." In the 1980s, Gwich'in Traditional Management Practices were established to protect the Porcupine caribou, upon which the Gwich'in depend. They "codified traditional principles of caribou management into tribal law" which include "limits on the harvest of caribou and procedures to be followed in processing and transporting caribou meat" and limits on the number of caribou to be taken per hunting trip.

Indigenous Eurasians

Reindeer herding has been vital for the subsistence of several Eurasian nomadic indigenous peoples living in the circumpolar Arctic zone such as the Sámi, Nenets, and Komi. Reindeer are used to provide renewable sources and reliable transportation. In Mongolia, the Dukha are known as the reindeer people. They are credited as one of the world's earliest domesticators. The Dukha diet consists mainly of reindeer dairy products.

Reindeer husbandry is common in northern Fennoscandia (northern Norway, Sweden and Finland) and the Russian North. In some human groups such as the Eveny, wild reindeer and domestic reindeer are treated as different kinds of beings.

Husbandry

Main article: Reindeer herding
A team pulling a sled near Arkhangelsk, Russia, late 19th-century photochrom
Milking in Western Finnmark, Norway, 19th century

The reindeer is the only successfully semi-domesticated deer on a large scale in the world. Reindeer in northern Fennoscandia (northern Norway, Sweden and Finland) as well in the Kola Peninsula and Yakutia in Russia, are mostly semi-domesticated reindeer, ear-marked by their owners. Some reindeer in the area are truly domesticated, mostly used as draught animals (nowadays commonly for tourist entertainment and races, traditionally important for the nomadic Sámi). Domestic reindeer have also been used for milk, e.g., in Norway.

There are only two genetically pure populations of wild reindeer in Northern Europe: wild mountain reindeer (R. t. tarandus) that live in central Norway, with a population in 2007 of between 6,000 and 8,400 animals; and wild Finnish forest reindeer (R. t. fennicus) that live in central and eastern Finland and in Russian Karelia, with a population of about 4,350, plus 1,500 in Arkhangelsk Oblast and 2,500 in Komi. East of Arkhangelsk, both wild Siberian tundra reindeer (R. t. sibiricus) (some herds are very large) and domestic reindeer (R. t. domesticus) occur with almost no interbreeding by wild reindeer into domestic clades and none the other way (Kharzinova et al. 2018; Rozhkov et al. 2020).

DNA analysis indicates that reindeer were independently domesticated at least twice: in Fennoscandia and Western Russia (and possibly also Eastern Russia). Reindeer have been herded for centuries by several Arctic and sub-Arctic peoples, including the Sámi, the Nenets and the Yakuts. They are raised for their meat, hides and antlers and, to a lesser extent, for milk and transportation. Reindeer are not considered fully domesticated, as they generally roam free on pasture grounds. In traditional nomadic herding, reindeer herders migrate with their herds between coastal and inland areas according to an annual migration route and herds are keenly tended. However, reindeer were not bred in captivity, though they were tamed for milking as well as for use as draught animals or beasts of burden. Millais (1915), for example, shows a photograph (Plate LXXX) of an "Okhotsk Reindeer" saddled for riding (the rider standing behind it) beside an officer astride a steppe pony that is only slightly larger. Domestic reindeer are shorter-legged and heavier than their wild counterparts. In Scandinavia, management of reindeer herds is primarily conducted through siida, a traditional Sámi form of cooperative association.

The use of reindeer for transportation is common among the nomadic peoples of the Russian North (but not anymore in Scandinavia). Although a sled drawn by 20 reindeer will cover no more than 20–25 km (12–16 mi) a day (compared to 7–10 km (4.3–6.2 mi) on foot, 70–80 km (43–50 mi) by a dog sled loaded with cargo and 150–180 km (93–112 mi) by a dog sled without cargo), it has the advantage that the reindeer will discover their own food, while a pack of 5–7 sled dogs requires 10–14 kg (22–31 lb) of fresh fish a day.

Reindeer hides for sale in Sitka, Alaska

The use of reindeer as semi-domesticated livestock in Alaska was introduced in the late 19th century by the United States Revenue Cutter Service, with assistance from Sheldon Jackson, as a means of providing a livelihood for Alaska Natives. Reindeer were imported first from Siberia and later also from Norway. A regular mail run in Wales, Alaska, used a sleigh drawn by reindeer. In Alaska, reindeer herders use satellite telemetry to track their herds, using online maps and databases to chart the herd's progress.

Domestic reindeer are mostly found in northern Fennoscandia and the Russian North, with a herd of approximately 150–170 reindeer living around the Cairngorms region in Scotland. The last remaining wild tundra reindeer in Europe are found in portions of southern Norway. The International Centre for Reindeer Husbandry (ICR), a circumpolar organisation, was established in 2005 by the Norwegian government. ICR represents over 20 indigenous reindeer peoples and about 100,000 reindeer herders in nine different national states. In Finland, there are about 6,000 reindeer herders, most of whom keep small herds of less than 50 reindeer to raise additional income. With 185,000 reindeer (as of 2001), the industry produces 2,000 metric tons (2,200 short tons) of reindeer meat and generates 35 million euros annually. 70% of the meat is sold to slaughterhouses. Reindeer herders are eligible for national and EU agricultural subsidies, which constituted 15% of their income. Reindeer herding is of central importance for the local economies of small communities in sparsely populated rural Sápmi.

Currently, many reindeer herders are heavily dependent on diesel fuel to provide for electric generators and snowmobile transportation, although solar photovoltaic systems can be used to reduce diesel dependency.

History

Reindeer hunting by humans has a very long history.

Wild reindeer "may well be the species of single greatest importance in the entire anthropological literature on hunting."

Both Aristotle and Theophrastus have short accounts – probably based on the same source – of an ox-sized deer species, named tarandos, living in the land of the Bodines in Scythia, which was able to change the colour of its fur to obtain camouflage. The latter is probably a misunderstanding of the seasonal change in reindeer fur colour. The descriptions have been interpreted as being of reindeer living in the southern Ural Mountains in c. 350 BC.

The tragelaphus or deer-goat

A deer-like animal described by Julius Caesar in his Commentarii de Bello Gallico (chapter 6.26) from the Hercynian Forest in the year 53 BC is most certainly to be interpreted as a reindeer:

There is an ox shaped like a stag. In the middle of its forehead a single horn grows between its ears, taller and straighter than the animal horns with which we are familiar. At the top this horn spreads out like the palm of a hand or the branches of a tree. The females are of the same form as the males, and their horns are the same shape and size.

According to Olaus Magnus's Historia de Gentibus Septentrionalibus – printed in Rome in the year 1555 – Gustav I of Sweden sent 10 reindeer to Albert, Duke of Prussia, in the year 1533. It may be these animals that Conrad Gessner had seen or heard of.

During World War II, the Soviet Army used reindeer as pack animals to transport food, ammunition and post from Murmansk to the Karelian front and bring wounded soldiers, pilots and equipment back to the base. About 6,000 reindeer and more than 1,000 reindeer herders were part of the operation. Most herders were Nenets, who were mobilised from the Nenets Autonomous Okrug, but reindeer herders from the Murmansk, Arkhangelsk and Komi regions also participated.

Santa Claus

Relaxing after pulling Santa's sleigh at the switching on of Christmas lights in Scotland
Main article: Santa Claus's reindeer

Around the world, public interest in reindeer peaks during the Christmas season. According to folklore, Santa Claus's sleigh is pulled by flying reindeer. These reindeer were first named in the 1823 poem "A Visit from St. Nicholas".

Mythology and art

Among the Inuit, there is a story of the origin of the caribou:

Once upon a time there were no caribou on the earth. But there was a man who wished for caribou, and he cut a hole deep in the ground, and up this hole came caribou, many caribou. The caribou came pouring out, until the earth was almost covered with them. And when the man thought there were caribou enough for mankind, he closed up the hole again. Thus the caribou came up on earth.

— 

Inuit artists from the Barrenlands incorporate depictions of caribou — and items made from caribou antlers and skin — in carvings, drawings, prints and sculpture.

Contemporary Canadian artist Brian Jungen, of Dane-zaa First Nations ancestry, commissioned an installation entitled "The ghosts on top of my head" (2010–11) in Banff, Alberta, which depicts the antlers of caribou, elk and moose.

I remember a story my Uncle Jack told me – a Dunne-Za creation story about how animals once ruled the earth and were ten times their size and that got me thinking about scale and using the idea of the antler, which is a thing that everyone is scared of, and making it into something more approachable and abstract.

— Brian Jungen, 2011

Tomson Highway, CM is a Canadian and Cree playwright, novelist, and children's author, who was born in a remote area north of Brochet, Manitoba. His father, Joe Highway, was a caribou hunter. His 2001 children's book entitled Caribou Song/atíhko níkamon was selected as one of the "Top 10 Children's Books" by the Canadian newspaper The Globe and Mail. The young protagonists of Caribou Song, like Tomson himself, followed the caribou herd with their families.

Heraldry and symbols

Coat of arms of Kuusamo features a male
Coat of arms of Kuusamo
Coat of arms of Inari, a fish with antlers
Coat of arms of Inari

Several Norwegian municipalities have one or more reindeer depicted in their coats-of-arms: Eidfjord Municipality, Porsanger Municipality, Rendalen Municipality, Tromsø Municipality, Vadsø Municipality, and Vågå Municipality. The historic province of Västerbotten in Sweden has a reindeer in its coat of arms. The present Västerbotten County has very different borders and uses the reindeer combined with other symbols in its coat-of-arms. The city of Piteå also has a reindeer. The logo for Umeå University features three reindeer.

The Canadian 25-cent coin or "quarter" features a depiction of a caribou on one face. The caribou is the official provincial animal of Newfoundland and Labrador, Canada, and appears on the coat of arms of Nunavut. A caribou statue was erected at the centre of the Beaumont-Hamel Newfoundland Memorial, marking the spot in France where hundreds of soldiers from Newfoundland were killed and wounded in World War I. There is a replica in Bowring Park in St. John's, Newfoundland's capital city.

Two municipalities in Finland have reindeer motifs in their coats-of-arms: Kuusamo has a running reindeer; and Inari has a fish with reindeer antlers.

See also

Notes

  1. In North American English, known as caribou if wild and reindeer if domesticated
  2. The 6-species taxonomy is based on a revision by Harding (2022).
  3. ^ ** <text missing>
  4. ^ Banfield rejected this classification in 1961. However, Geist and others considered it valid. Bangs (1896) is invalid as a taxonomic authority, as his two-page pamphlet was not published.
  5. Although most taxonomic authorities over the years recognized "Greenland Caribou" as a distinct subspecies, several gave the name as a subspecies of Cervus tarandus for North American barren-ground caribou, groenlandicus having priority over other names. The name dates from George Edwards (1743), who claimed to have seen a male specimen ("head of perfect horns...") from Greenland and said that a Captain Craycott had brought a live pair from Greenland to England in 1738.

References

  1. Kurtén, Björn (1968). Pleistocene Mammals of Europe. Transaction Publishers. pp. 170–177. ISBN 978-1-4128-4514-4. Retrieved 6 August 2013.
  2. ^ Gunn, A. (2016). "Rangifer tarandus". IUCN Red List of Threatened Species. 2016: e.T29742A22167140. doi:10.2305/IUCN.UK.2016-1.RLTS.T29742A22167140.en. Retrieved 19 November 2021.
  3. "NatureServe Explorer 2.0". explorer.natureserve.org. Retrieved 30 March 2022.
  4. United States Food and Drug Administration (FDA) (13 December 2022). "Fun Facts about Reindeer and Caribou". Food and Drug Administration.
  5. ^ Flagstad, Oystein; Roed, Knut H. (2003). "Refugial origins of reindeer (Rangifer tarandus L) inferred from mitochondrial DNA sequences" (PDF). Evolution. 57 (3): 658–670. doi:10.1554/0014-3820(2003)057[0658:roorrt]2.0.co;2. PMID 12703955. Archived from the original (PDF) on 4 September 2006. Retrieved 4 January 2013.
  6. ^ "In North America and Eurasia the species has long been an important resource — in many areas the most important resource — for peoples inhabiting the northern boreal forest and tundra regions." (Banfield 1961:170; Kurtén 1968:170) Ernest S. Burch Jr. (1972). "The Caribou/Wild Reindeer as a Human Resource". American Antiquity. 37 (3): 339–368. doi:10.2307/278435. JSTOR 278435. S2CID 161921691.
  7. ^ Grubb, P. (2005). Wilson, D. E.; Reeder, D. M. (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Baltimore, MD: Johns Hopkins University Press. ISBN 0-8018-8221-4. OCLC 62265494.
  8. ^ Mattioli, S. (2011). "Caribou (Rangifer tarandus)", pp. 431–432 in: Handbook of the Mammals of the World Vol. 2: Hoofed Mammals. Lynx Edicions, Barcelona. ISBN 978-84-96553-77-4
  9. ^ Harding, Lee E. (26 August 2022). "Available names for Rangifer (Mammalia, Artiodactyla, Cervidae) species and subspecies". ZooKeys (1119): 117–151. Bibcode:2022ZooK.1119..117H. doi:10.3897/zookeys.1119.80233. ISSN 1313-2970. PMC 9848878. PMID 36762356.
  10. ^ Eder, Tamara; Kennedy, Gregory (2011). Mammals of Canada. Edmonton, Alberta: Lone Pine. p. 81. ISBN 978-1-55105-857-3.
  11. ^ Cronin, Matthew A. (2003). "Genetic variation in caribou and reindeer (Rangifer tarandus)". Animal Genetics. 34 (1): 33–41. doi:10.1046/j.1365-2052.2003.00927.x. PMID 12580784.
  12. ^ Yannic, G.; Pellissier, L.; Ortego, J.; Lecomte, N.; Couturier, S.; Cuyler, C.; Dussault, C.; Hundertmark, K.J.; Irvine, R.J.; Jenkins, D.A.; Kolpashikov, L.; Mager, K.; Musiani, M.; Parker, K.L.; Røed, K.H.; Sipko, T.; Þórisson, S.G.; V.Weckworth, B.; Guisan, A.; Bernatchez, L.; Côté, S.D. (2013) Genetic diversity in caribou linked to past and future climate change. Nature Climate Change 4: 132-137. doi:10.1038/NCLIMATE2074
  13. Geist, Valerius (1991). "On an objective definition of subspecies, taxa as legal entities, and its application to Rangifer tarandus Lin. 1758". In C. E. Butler; S. P. Mahoney (eds.). Proceedings 4th North American Caribou Workshop, 1989. St. John’s, Newfoundland. pp. 1–76.
  14. ^ Geist, Valerius (1998). Deer of the world: their evolution, behavior, and ecology. Mechanicsburg, PA: Stackpole Books. ISBN 9780811704960.
  15. "The wild reindeer areas in Norway". Villrein.no - alt om villrein (in Norwegian). Retrieved 14 November 2022.
  16. "Sami reindeer herding in Sweden" (in Swedish). Retrieved 8 November 2023.
  17. ^ Mizin, I.A. (2018) The current state of the wild reindeer in Russia - general overview of the situation. Barents office of WWF Russia Russian Arctic National Park for World Wildlife Fund, Arkhangelsk, Russia, 8 pp.
  18. ^ Russell, D.E.; Gunn, A. (20 November 2013). "Migratory Tundra Rangifer". In Jeffries, M. O.; Richter-Menge, J. A.; Overland, J. E. (eds.). Arctic Report Card 2013 (PDF). NOAA Arctic Research Program. pp. 96–101. Archived from the original (PDF) on 26 October 2022. Retrieved 16 November 2022.
  19. Kolpasсhikov, L.; Makhailov, V.; Russell, D. E. (2015). "The role of harvest, predators, and socio-political environment in the dynamics of the Taimyr wild reindeer herd with some lessons for North America" (PDF). Ecology and Society. 20. doi:10.5751/ES-07129-200109. ISSN 1708-3087.
  20. Shapkin, A. (2017). "About phenotypic variability of taimyr tundra wild reindeer (Rangifer tarandus)". Genetika i razvedenie životnyh [Genetics and Breeding of Animals] (in Russian and English). 1: 22–30.
  21. Kholodova, M.V.; Kolpashchikov, L.A.; Kuznetsova, M.V.; Baranova, A.I. (2011). "Genetic diversity of wild reindeer (Rangifer tarandus) of Taimyr: analysis of polymorphism of the control region of mitochondrial DNA". Biology Bulletin. 38 (1): 42–49. Bibcode:2011BioBu..38...42K. doi:10.1134/S1062359011010067. S2CID 9180267.
  22. Krivoshapkin, A.A. (2016). "Миграция диких северных оленей (Rangifer tarandus L.) таймырской популяции на территорию северо-западной Якутии" [Migration of wild reindeer (Rangifer tarandus L.) of the Taimyr population to the territory of northwestern Yakutia]. ВЕСТНИК СВФУ [SVFU Bulletin Биологические науки ]. 6: 15–20.
  23. ^ Rozhkov, Yu.I.; Davydov, A.V.; Morgunov, N.A.; Osipov, K.I.; Novikov, B.V.; Mayorov, A.I.; Tinaev, N.I.; Chekalova, T.M.; Yakimov, O.A. (2020). "Генетическая Дифференциация Северного Оленя Rangifer tarandus L. По Пространству Евразии В Связи С Особенностями Его Деления На Подвиды" [Genetic Differentiation of the Reindeer Rangifer tarandus L. Across Eurasia in Connection with the Peculiarities of Its Division into Subspecies]. Геномика . Кролиководство И Звероводство [Rabbit Breeding and Fur Farming] (in Russian) (2): 23–36. doi:10.24411/0023-4885-2020-10203 (inactive 1 November 2024).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  24. ^ Mizin, Ivan A.; Sipko, Taras P.; Davydov, Andrey V.; Gruzdev, Alexander R. (2018). "The wild reindeer (Rangifer tarandus: Cervidae, Mammalia) on the arctic islands of Russia: a review". Nature Conservation Research. 3 (3). doi:10.24189/ncr.2018.040. ISSN 2500-008X.
  25. "Tradition 'snatched away': Labrador Inuit struggle with caribou hunting ban | CBC News". CBC. Retrieved 18 April 2018.
  26. Robbins, Jim (14 April 2018). "Gray Ghosts, the Last Caribou in the Lower 48 States, Are 'Functionally Extinct'". The New York Times. ISSN 0362-4331. Retrieved 18 April 2018.
  27. "Woodland caribou".
  28. COSEWIC (2014). COSEWIC assessment and status report on the caribou Rangifer tarandus, Northern Mountain population, Central Mountain population and Southern Mountain population in Canada (PDF) (Report). Ottawa, Ontario: Committee on the Status of Endangered Wildlife in Canada (COSEWIC).
  29. ^ Peter Gravlund; Morten Meldgaard; Svante Pääbo & Peter Arctander (1998). "Polyphyletic Origin of the Small-Bodied, High-Arctic Subspecies of Tundra Reindeer (Rangifer tarandus)". Molecular Phylogenetics and Evolution. 10 (2): 151–159. Bibcode:1998MolPE..10..151G. doi:10.1006/mpev.1998.0525. PMID 9878226.
  30. ^ S. A. Byun; B. F. Koop; T. E. Reimchen (2002). "Evolution of the Dawson caribou (Rangifer tarandus dawsoni)". Can. J. Zool. 80 (5): 956–960. Bibcode:2002CaJZ...80..956B. doi:10.1139/z02-062. S2CID 4950388.
  31. ^ Degerbøl Magnus (1957). "The extinct reindeer of East-Greenland: Rangifer tarandus eogroenlandicus, subsp. nov.: compared with reindeer from other Arctic regions". Acta Arctica. 10: 1–57.
  32. Meldgaard, M. (1986). "The Greenland caribou - zoogeography, taxonomy and population dynamics". Kommissionen for Videnskabelige Undersagelser i Grønland, Meddelelser om Grønland, Bioscience. 20: 1–88.
  33. Bennike, Ole (1 January 1988). "Review: The Greenland Caribou - Zoogeography, Taxonomy and Population Dynamics, by Morten Meldgaard". Arctic. 41 (2): 146–147. doi:10.14430/arctic1984. ISSN 1923-1245.
  34. "Population Critical: How are Caribou Faring?" (PDF). Canadian Parks and Wilderness Society and The David Suzuki Foundation. December 2013. Archived from the original (PDF) on 19 December 2013. Retrieved 17 December 2013.
  35. ^ "Designatable Units for Caribou (Rangifer tarandus) in Canada" (PDF), COSEWIC, Ottawa, Ontario: Committee on the Status of Endangered Wildlife in Canada, p. 88, 2011, archived from the original (PDF) on 3 January 2017, retrieved 18 December 2013
  36. ^ "Evaluation of Programs and Activities in Support of the Species at Risk Act" (PDF), Environment Canada, pp. 2, 9, 24 September 2012, archived (PDF) from the original on 27 December 2013, retrieved 27 December 2013
  37. ^ Opinion 91 Thirty-five generic names of mammals placed in the Official List of Generic Names In: Hemming, F. (Ed.) Smithsonian Miscellaneous Collections, Opinions and declarations, Opinions rendered by the International Commission of Zoological Nomenclature, Opinions 91 TO 97. London, U.K.: International Trust for Zoological Nomenclature. 1958. pp. 337–338.
  38. ^ Sarauw, Georg (1914). "Das Rentier in Europa zu den Zeiten Alexanders und Cæsars" [The reindeer in Europe to the times of Alexander the Great and Julius Caesar]. In Jungersen, H. F. E.; Warming, E. (eds.). Mindeskrift i Anledning af Hundredeaaret for Japetus Steenstrups Fødsel (in German). Copenhagen: Royal Danish Academy of Sciences and Letters. pp. 1–33.
  39. Gesner, K. (1617) Historia animalium. Liber 1, De quadrupedibus viviparis. Tiguri 1551. p. 156: De Tarando. 9. 950: De Rangifero.
  40. Aldrovandi, U. (1621) Quadrupedum omnium bisulcorum historia. Bononiæ. Cap. 30: De Tarando– Cap. 31: De Rangifero.
  41. "Caribou Species Profile". Alaska Department of Fish and Game (ADF&G). Retrieved 13 January 2024.
  42. "deer". The American Heritage Dictionary of the English Language, 4th ed. Houghton Mifflin Company. 2000. Archived from the original on 25 March 2004.
  43. Flexner, Stuart Berg and Leonore Crary Hauck; eds. (1987). The Random House Dictionary of the English Language, 2nd ed. (unabridged). New York: Random House, pp. 315–16
  44. Spalding, Alex, Inuktitut – A Multi-Dialectal Outline Dictionary (with an Aivilingmiutaq base). Nunavut Arctic College, Iqaluit, Nunavut, Canada, 1998.
  45. Eskimoisches Wörterbuch, gesammelt von den Missionaren in Labrador, revidirt und herausgegeben von Friedrich Erdmann. Budissin 1864.
  46. Iñupiat Eskimo dictionary Archived 2 February 2017 at the Wayback Machine, Alaska State Library, Donald H. Webster & Wilfried Zibell, 1970. Retrieved 23 March 2017.
  47. "Highlight on a Species at Risk - Tǫdzı (Boreal Caribou)". Wek’èezhìi Renewable Resources Board. 2021. Retrieved 15 November 2022.
  48. "Vuntut Gwich'in", First Voices, 2001–2013, retrieved 17 January 2014
  49. Jerry McCarthy. Greenlandic word list. Reindeer are called tuttu (pl tuttut) by the Greenlandic Inuit.
  50. ^ Weldenegodguad, Melak; Pokharel, Kisun; Ming, Yao; Honkatukia, Mervi; Peippo, Jaana; Reilas, Tiina; Røed, Knut H.; Kantanen, Juha (December 2020). "Genome sequence and comparative analysis of reindeer (Rangifer tarandus) in northern Eurasia". Scientific Reports. 10 (1): 8980. Bibcode:2020NatSR..10.8980W. doi:10.1038/s41598-020-65487-y. ISSN 2045-2322. PMC 7265531. PMID 32488117.
  51. Croitor, Roman (2018). Plio-Pleistocene deer of Western Palearctic: taxonomy, systematics, phylogeny. Chișinău, Moldova: Institute of Zoology of the Academy of Sciences of Moldova. pp. 1–142.
  52. Croitor, Roman (2018). Plio-Pleistocene deer of Western Palearctic: taxonomy, systematics, phylogeny. Chișinău: Institute of Zoology of the Academy of Sciences of Moldova.
  53. Cavedon, Maria; Gubili, Chrysoula; Heppenheimer, Elizabeth; vonHoldt, Bridgett; Mariani, Stefano; Hebblewhite, Mark; Hegel, Troy; Hervieux, Dave; Serrouya, Robert; Steenweg, Robin; Weckworth, Byron V.; Musiani, Marco (April 2019). "Genomics, environment and balancing selection in behaviourally bimodal populations: The caribou case". Molecular Ecology. 28 (8): 1946–1963. Bibcode:2019MolEc..28.1946C. doi:10.1111/mec.15039. hdl:20.500.11820/82fe4f52-d3f2-4970-ab52-8dbb97b997c1. ISSN 0962-1083. PMID 30714247. S2CID 73423576.
  54. Prunier, Julien; Carrier, Alexandra; Gilbert, Isabelle; Poisson, William; Albert, Vicky; Taillon, Joëlle; Bourret, Vincent; Côté, Steeve D.; Droit, Arnaud; Robert, Claude (23 July 2021). "Copy number variations with adaptive potential in caribou (Rangifer tarandus): genome architecture and new annotated genome assembly". bioRxiv 10.1101/2021.07.22.453386. S2CID 236436985
  55. Bondarev, A.A.; Tesakov, A.S.; Simakova, A.N.; Dorogov, A.L. (2017) Reindeer (Rangifer) from Early Pleistocene of the south of Western Siberia (in Russian). In: Bogdanov, A.A.; others (eds.) Integrative palaeontology: development prospects for geological objectives, material of the LXIII session of the Palaeontological Society, April, 3-7, 2017. Sankt-Peterburg, 173-175.
  56. Harington, C.R. (August 2011). "Pleistocene vertebrates of the Yukon Territory". Quaternary Science Reviews. 30 (17–18): 2341–2354. Bibcode:2011QSRv...30.2341H. doi:10.1016/j.quascirev.2011.05.020. ISSN 0277-3791.
  57. Kahlke, H-D. "Die Cerviden-Reste aus den Kiesen von Süßenborn bei Weimar. Palaeontologische Abhandlungen Abteilung A". Palaozoologie. 1969: 367–788.
  58. ^ Croitor, Roman (2010). "Preliminary data on reindeer fossils from the Palaeolithic site Rascov-8 (eastern Moldova) with remarks on systematics and evolution of Upper Pleistocene reindeer". Ştiinţele Naturii. 1: 323–330.
  59. Kurtén, B. (1968). Pleistocene mammals in Europe. London, U.K.: Weidenfeld and Nicolson. ISSN 0345-0074.
  60. ^ Geist, Valerius (1 April 2007). "Defining subspecies, invalid taxonomic tools, and the fate of the woodland caribou". Rangifer. 27 (4): 25. doi:10.7557/2.27.4.315. ISSN 1890-6729.
  61. Peter Gravlund; Morten Meldgaard; Svante Pääbo & Peter Arctander (1998). "Polyphyletic Origin of the Small-Bodied, High-Arctic Subspecies of Tundra Reindeer (Rangifer tarandus)". Molecular Phylogenetics and Evolution. 10 (2): 151–159. Bibcode:1998MolPE..10..151G. doi:10.1006/mpev.1998.0525. PMID 9878226.
  62. Røed, K.H. (1985) Comparison of the genetic variation in Svalbard and Norwegian reindeer. Canadian Journal of Zoology 63: 2038-2042. doi:10.1139/z85-300
  63. Baranova, A. I.; Panchenko, D. V.; Kholodova, M. V.; Tirronen, K. F.; Danilov, P. I. (November 2016). "Genetic diversity of wild reindeer Rangifer tarandus L. from the eastern part of the Kola Peninsula: Polymorphism of the mtDNA control region". Biology Bulletin. 43 (6): 567–572. Bibcode:2016BioBu..43..567B. doi:10.1134/s1062359016060029. ISSN 1062-3590. S2CID 15672189.
  64. ^ Horn, Rebekah L.; Marques, Adam J. D.; Manseau, Micheline; Golding, Brian; Klütsch, Cornelya F. C.; Abraham, Ken; Wilson, Paul J. (June 2018). "Parallel evolution of site-specific changes in divergent caribou lineages". Ecology and Evolution. 8 (12): 6053–6064. Bibcode:2018EcoEv...8.6053H. doi:10.1002/ece3.4154. PMC 6024114. PMID 29988428.
  65. ^ Yannic, Glenn; Ortego, Joaquín; Pellissier, Loïc; Lecomte, Nicolas; Bernatchez, Louis; Côté, Steeve D. (2018). "Linking genetic and ecological differentiation in an ungulate with a circumpolar distribution". Ecography. 41 (6): 922–937. Bibcode:2018Ecogr..41..922Y. doi:10.1111/ecog.02995. ISSN 0906-7590. S2CID 4518424.
  66. Croitor, Roman (2022). "Paleobiogeography of Crown Deer". Earth. 3 (4): 1138–1160. Bibcode:2022Earth...3.1138C. doi:10.3390/earth3040066.
  67. Kjær, Kurt H.; Winther Pedersen, Mikkel; De Sanctis, Bianca; De Cahsan, Binia; Korneliussen, Thorfinn S.; Michelsen, Christian S.; Sand, Karina K.; Jelavić, Stanislav; Ruter, Anthony H.; Schmidt, Astrid M. A.; Kjeldsen, Kristian K.; Tesakov, Alexey S.; Snowball, Ian; Gosse, John C.; Alsos, Inger G. (December 2022). "A 2-million-year-old ecosystem in Greenland uncovered by environmental DNA". Nature. 612 (7939): 283–291. Bibcode:2022Natur.612..283K. doi:10.1038/s41586-022-05453-y. ISSN 1476-4687. PMC 9729109. PMID 36477129.
  68. Pappas, Stephanie. "World's Oldest DNA Discovered, Revealing Ancient Arctic Forest Full of Mastodons". Scientific American. Retrieved 8 December 2022.
  69. Pruitt Jr., William (1966). "The Function of the Brow-Tine in Caribou Antlers". Arctic. 19 (2): 110–113. doi:10.14430/arctic3419.
  70. ^ Harding, Lee E. (2022a). "Synonymy". Supplementary file 1 for Harding (2022).
  71. Ellerman, J. E. (1951). Checklist of Palaearctic and Indian mammals, 1758 to 1946. London, U.K.: British Natural History Museum. pp. 1–810.
  72. ^ Banfield, Alexander William Francis (1961). A Revision of the Reindeer and Caribou, Genus Rangifer. Ottawa, Ontario: National Museum of Canada Bulletin 177 Biological Series No. 66. pp. 1–187.
  73. ^ Banfield, Alexander William Francis (1961). "A Revision of the Reindeer and Caribou, Genus Rangifer". Bulletin of the National Museum of Canada. Biological Services. 177 (66).
  74. McTaggert-Cowan, Ian (1962). "Reviews: A revision of the reindeer and caribou, genus Rangifer by A. W. F. Banfield 1961". Canadian Field-Naturalist. 76: 168–169. doi:10.5962/p.342032. OCLC 1029734421.
  75. Flerov, C.C. (1952) Mammals: Musk deer and deer. In: Fauna of the USSR. Academy of Sciences, Moscow and Leningrad, USSR, 222-247.
  76. ^ Røed, K.H.; Feruson, M.D.; Crête, M.; Bergerud, A.T. (1991) Genetic variation in transferrin as a predictor for differentiation and evolution of caribou from eastern Canada. Rangifer 11: 65-74.
  77. ^ Courtois, Rehaume (2003). "Significance of caribou (Rangifer tarandus) ecotypes from a molecular genetics viewpoint". Conservation Genetics. 4 (3): 393–404. Bibcode:2003ConG....4..393C. doi:10.1023/A:1024033500799. S2CID 34394002.
  78. Couturier, Serge (2003). Populations, metapopulations, ecotypes and subspecies of caribou in Quebec & Labrador: an exploratory discussion. In: McFarlane, K.; Gunn, A.; Strobeck, C. (eds.) Proceedings from the Caribou Genetics and Relationships Workshop (K. and C. Strobeck, eds.). Edmonton, Alberta: Department of Natural Resources and Environment, Government of the Northwest Territories. pp. 59–70.
  79. ^ Geist, Valerius (2007). "Defining subspecies, invalid taxonomic tools, and the fate of the woodland caribou". Rangifer. 27 (4): 25. doi:10.7557/2.27.4.315.
  80. Waples, Robin S. (1995). Evolutionary significant units and the conservation of biological diversity under the Endangered Species Act. In: Nielson, J.L. (ed.) Evolution and the aquatic ecosystem: Defining unique units in population conservation. Bethesda, Maryland: American Fisheries Society Symposium 17. pp. 8–27.
  81. Cronin, M.A. (2006) A proposal to eliminate redundant terminology for intra-species groups. Wildlife Society Bulletin 34: 237-241.
  82. ^ Cronin, M. A.; MacNeil, M. D.; Patton, J. C. (2005). "Variation in Mitochondrial Dna and Microsatellite Dna in Caribou (Rangifer tarandus) in North America". Journal of Mammalogy. 86 (3): 495–505. doi:10.1644/1545-1542(2005)86[495:VIMDAM]2.0.CO;2.
  83. Cronin, M.A.; MacNeil, M.D.; Patton, J.C. (2006) Mitochondrial DNA and microsatellite DNA variation in domestic reindeer (Rangifer tarandus tarandus) and relationships with wild caribou (Rangifer tarandus granti, Rangifer tarandus groenlandicus, and Rangifer tarandus caribou). Journal of Heredity 97: 525-530. doi:10.1093/jhered/esl012
  84. McDevitt, A.D.; Mariani, S.; Hebblewhite, M.; Decesare, N.J.; Morgantini, L.; Seip, D.R.; Weckworth, B.V.; Musiani. M. (2009) Survival in the Rockies of an endangered hybrid swarm from diverged caribou (Rangifer tarandus) lineages. Molecular Ecology 18: 665-679.
  85. ^ Osgood, W.H. (1909) Biological investigations in Alaska and Yukon Territory. US Department of Agriculture Biological survey of North American fauna 1: 1-285.
  86. ^ Murie, Olaus J. (1935). Alaska-Yukon caribou. Washington D.C.: United States Department of Agriculture Bureau of Biological Survey Vol. 54. pp. 1–93.
  87. ^ Anderson, Rudolph M. (1946). Catalogue of Canadian Recent Mammals. Ottawa, Ontario: National Museum of Canada Bulletin No. 102, Biological Series 31. pp. 1–238.
  88. ^ Jenkins, Deborah A. (2018). "Population structure of caribou in an ice-bound archipelago". Diversity and Distributions. 24 (8): 1092–1108. Bibcode:2018DivDi..24.1092J. doi:10.1111/ddi.12748. S2CID 90854394.
  89. ^ Harding, Lee E. (2022b). "Genetic distance". Supplementary file 2 for Harding (2022).
  90. ^ Allen, J. A. (1902). "A new caribou from the Alaska Peninsula" (PDF). Bulletin of the American Museum of Natural History. XVI: 119–127. hdl:2246/1666. Article X.
  91. Fong, D. W. (1982). "Immobilization of caribou with etorphine plus acepromazine". The Journal of Wildlife Management. 46 (2): 560–562. doi:10.2307/3808683. JSTOR 3808683. Retrieved 5 February 2023.
  92. ^ "Reindeer". The Sámi and their reindeer. Austin, Texas: University of Texas. Archived from the original on 23 July 2013. Retrieved 15 January 2014.
  93. Edwards, George (1743). A natural history of uncommon birds, and of some other rare and undescribed animals, quadrupedes, reptiles, fishes, insects, etc. Exhibited in two hundred and ten copper-plates, from designs copied immediately from nature, and curiously coloured after life, with a full and accurate description of each figure. Part I. London. doi:10.5962/bhl.title.115782.
  94. ^ Poole, K.G.; Cuyler, C.; Nymand, J. (2013) Evaluation of caribou Rangifer tarandus groenlandicus survey methodology in West Greenland. Wildlife Biology 19: 225-239.
  95. Forman, S. L.; Lubinski, D.; Weihe, R. R. (2000). "The Holocene occurrence of reindeer on Franz Josef Land, Russia". The Holocene. 10 (6): 763–768. Bibcode:2000Holoc..10..763F. doi:10.1191/09596830095015. S2CID 140183093.
  96. "Reindeer In Iceland". Tinna Adventure. 13 February 2017. Retrieved 9 September 2019.
  97. ^ Millais, J.G. (1915) The Asiatic reindeer and elk. In: Carruthers, D.; Millais, J.G.; Wallace, H.F.; Kennion, L.C.R.L.; Barklay, F.G. (eds.) The Gun at Home and Abroad. London & Counties Press Association Ltd., London, U.K., 216-223.
  98. Edwards, George (1743) A natural history of uncommon birds and of some other rare and undescribed animals quadrupedes, reptiles, fishes, insects &c exhibited in two Hundred and ten copper-plates, from designs copied immediately from nature, and curiously coloured after Life with a full and accurate description of each to which is added, a brief and general Idea of drawing and painting in water-colours; with Instructions for etching on copper with aqua fortis; likewise some thoughts on the passage of birds; and additions to many of the subjects described in this work. Vol. Part I, London, 248 pp. doi:10.5962/bhl.title.115782
  99. Linné , C. (1767) Systema naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis Editio 12. Vol. Tomus I Editio duodecima, Vindobonae, Upsalla, Sweden, 1,327 pp.
  100. Borowski, G.H. (1780) Gemeinnüzzige Naturgeschichte des Thierreichs: darinn die merkwürdigsten und nüzlichsten Thiere in systematischer Ordnung beschrieben, und die Geschlechter in Abbildungen nach der Natur vorgestellet werden. Vol. 1 Part 4, Gottlieb August Lange, Berlin and Stralsund, 360 pp.
  101. Baird, S.F. (1859) Mammals of North America: the description of species based chiefly on the collections in the museum of the Smithsonian Institution. J. B. Lippincott, Washington D.C., 764 pp.
  102. Allen, G.M. (1942) Extinct and vanishing mammals of the Western Hemisphere with the marine species of all the oceans. American Committee for International Wildlife Protection Special Publication No. 11: 297-322.
  103. Lydekker, R. (1898) Deer of all lands. a history of the family Cervidæ living and extinct. Rowland Ward, Limited, London, U.K., 329 pp.
  104. Richardson, J. (1829) Fauna boreali-americana; or, the zoology of the northern parts of British America; containing descriptions of the objects of natural history collected on the late northern land expeditions, under command of Captain Sir John Franklin, R.N. Vol. 1 Quadrupeds, John Murray, London, U.K., 300 pp.
  105. Banfield, Alexander William Francis. Mammals of Canada (1974). University of Toronto Press, Toronto, Ontario, 438 pp.
  106. Colson, K.E.; Mager, K.H.; Hundertmark, K.J. (2014) Reindeer introgression and the population genetics of caribou in southwestern Alaska. Journal of Heredity 105: 585-596.
  107. ^ Mager, Karen H.; Colson, Kevin E.; Groves, Pam; Hundertmark, Kris J. (December 2014). "Population structure over a broad spatial scale driven by nonanthropogenic factors in a wide-ranging migratory mammal, Alaskan caribou". Molecular Ecology. 23 (24): 6045–6057. Bibcode:2014MolEc..23.6045M. doi:10.1111/mec.12999. ISSN 0962-1083. PMID 25403098. S2CID 22614440.
  108. ^ Allen, J.A. (1901) Description of a new caribou from Kenai Peninsula, Alaska. Bulletin of the American Museum of Natural History XIV: 143-148.
  109. ^ Bergerud, A. T. (1996). "Evolving perspectives on caribou population dynamics, have we got it right yet?". Rangifer. 16 (Special Issue 9): 95. doi:10.7557/2.16.4.1225.
  110. Festa-Bianchet, M.; Ray, J.C.; Boutin, S.; Côté, S.D.; Gunn, A.; et al. (2011). "Conservation of Caribou (Rangifer tarandus) in Canada: An Uncertain Future". Canadian Journal of Zoology. 89 (5): 419–434. doi:10.1139/z11-025.
  111. Mager, Karen H. (2012). Population Structure and Hybridization of Alaskan Caribou and Reindeer: Integrating Genetics and Local Knowledge (PDF) (PhD thesis). Fairbanks, Alaska: University of Alaska Fairbanks. Archived from the original (PDF) on 28 December 2013. Retrieved 27 December 2013.
  112. Polfus, J.L.; Manseau, M.; Klütsch, C.F.C.; Simmons, D.; Wilson, P.J. (2017). "Ancient diversification in glacial refugia leads to intraspecific diversity in a Holarctic mammal". Journal of Biogeography. 44 (2): 386–396. Bibcode:2017JBiog..44..386P. doi:10.1111/jbi.12918. hdl:1993/31986. S2CID 90484948.
  113. Pelletier, F.A.; Turgeon, G.; Bourret, A.; Garant, D.; St-Laurent, M-H. (2019). "Genetic structure and effective size of an endangered population of woodland caribou". Conservation Genetics. 20 (2): 203–213. Bibcode:2019ConG...20..203P. doi:10.1007/s10592-018-1124-1. S2CID 254418477.
  114. Frenette, J.; Pelletier, F.; St-Laurent, M-H (2020). "Linking habitat, predators and alternative prey to explain recruitment variations of an endangered caribou population". Global Ecology and Conservation. 22. e00920. Bibcode:2020GEcoC..2200920F. doi:10.1016/j.gecco.2020.e00920. S2CID 213145519.
  115. Zittlau, K.A.; Nagy, J.; Gunn, A.; Strobeck, C. (2009). "Genetic diversity among barren-ground caribou and the Porcupine caribou herds". In McFarlane, K.; Gunn, A.; Strobeck, C. (eds.). Proceedings from the Caribou Genetics and Relationships Workshop, March 8–9, 2003. Edmonton, Alberta: Department of Natural Resources and Environment, Government of the Northwest Territories. pp. 135–145. Manuscript Report No. 183.
  116. ^ "Fun Facts about Reindeer and Caribou". U.S. Food and Drug Administration. 21 May 2021. Retrieved 21 July 2022.
  117. Lin, Zeshan (2019). "Biological adaptations in the Arctic cervid, the reindeer (Rangifer tarandus)". Science. 364 (6446): eaav6312. Bibcode:2019Sci...364.6312L. doi:10.1126/science.aav6312. PMID 31221829.
  118. Nasoori, Alireza (2020). "Formation, structure, and function of extra-skeletal bones in mammals". Biological Reviews. 95 (4): 986–1019. doi:10.1111/brv.12597. PMID 32338826. S2CID 216556342.
  119. ^ Reid, F. (2006). Mammals of North America. Peterson Field Guides. ISBN 978-0-395-93596-5
  120. Smith, B.E. (1998). "Antler size and winter mortality of elk: effects of environment, birth year, and parasites". Journal of Mammalogy. 79 (3): 1038–1044. doi:10.2307/1383113. JSTOR 1383113.
  121. ^ Mahoney, Shane P.; Weir, Jackie N.; Luther, J. Glenn; Schaefer, James A.; Morrison, Shawn F. (2011). "Morphological change in Newfoundland caribou: Effects of abundance and climate". Rangifer. 31 (1): 21–34. doi:10.7557/2.31.1.1917. Archived from the original on 3 November 2014.
  122. Markusson, Eystein; Folstad, Ivar (1 May 1997). "Reindeer antlers: visual indicators of individual quality?". Oecologia. 110 (4): 501–507. Bibcode:1997Oecol.110..501M. doi:10.1007/s004420050186. ISSN 0029-8549. PMID 28307241. S2CID 40646035.
  123. Thomas, Don; Barry, Sam (2005). "Antler Mass of Barren-Ground Caribou Relative to Body Condition and Pregnancy Rate". Arctic. 58 (3): 241–246. CiteSeerX 10.1.1.541.4295. JSTOR 40512709.
  124. ^ Allen, J.A. (1902) Description of a new caribou from northern British Columbia and remarks on Rangifer montanus. Bulletin of the American Museum of Natural History XVI: 149-158.
  125. ^ "Caribou", Virtual Wildlife, Lethbridge, Alberta, archived from the original on 3 November 2014
  126. GNWT (9 November 2023), Species at Risk in the Northwest Territories 2012 (PDF), Government of Northwest Territories, Department of Environment and Natural Resources, ISBN 978-0-7708-0196-0, archived from the original (PDF) on 24 September 2015, retrieved 31 October 2014
  127. Gunn, Anne; Nishi, J. (1998), "Review of information for Dolphin and Union caribou herd", in Gunn, A.; Seal, U.S.; Miller, P.S. (eds.), Population and Habitat Viability Assessment Workshop for the Peary caribou (Rangifer tarandus pearyi), Briefing book, Apple Valley, Minnesota: Conservation Breeding Specialist Group (SSC/UCN), pp. 1–22
  128. "Tuktu — Caribou", Canada's Arctic, Guelph, Ontario, 2002a, archived from the original on 15 November 2014, retrieved 17 January 2014
  129. "Woodland caribou". State of Canada's forests. 2000.
  130. ^ Hebert, P.D.N.; Wearing-Wilde, J., eds. (2002), Tuktu — Caribou, Canada's Polar Life (CPL), University of Guelph, archived from the original on 20 October 2017, retrieved 30 October 2017, "Since 1986, elders in the community have worked...the Igloolik Research Centre...to record their knowledge for posterity on paper and audio tape...Noah Piugaattuk contributed 70 to 80 hours of audio tape." Use of antlers (IOHP 037);
  131. Butler, H.E. (1986). Mating strategies of woodland caribou: Rangifer tarandus caribou (Doctoral thesis). Calgary, Alberta: University of Calgary.
  132. ^ Woodland caribou boreal population – biology, SARA, October 2014, retrieved 3 November 2014
  133. Richler, Noah (29 May 2007). This Is My Country, What's Yours?: A Literary Atlas of Canada. Random House. p. 496. ISBN 9781551994178.
  134. "Interview 065" (Interview). Igloolik Oral History Project (IOHP). Igloolik, Nunavut. 1991.
  135. ^ Thing, Henning; Olesen, Carsten Riis; Aastrup, Peter (1986). "Antler possession by west Greenland female caribou in relation to population characteristics". Rangifer. 6 (2): 297. doi:10.7557/2.6.2.662.
  136. McKibbon, Sean (21 January 2000). "Igloolik elders win northern science award". Nunatsiaq News. Igloolik. Archived from the original on 7 November 2017. Retrieved 30 October 2017. Elders in Igloolik were recognized with a national science award last week for their efforts in preserving traditional Inuit knowledge
  137. Oopakak, National Gallery of Canada, n.d., archived from the original on 12 October 2015, retrieved 31 October 2017
  138. Bennett, John (1 June 2008), Uqalurait: An Oral History of Nunavut, McGill-Queen's Native and Northern Series, McGill-Queen's University Press, p. 116
  139. Marie Kilunik, Aivilingmiut, & Crnkovich, 1990, p. 116
  140. Moote, I. (1955). "The thermal insulation of caribou pelts". Textile Research Journal. 25 (10): 832–837. doi:10.1177/004051755502501002. S2CID 138926309.
  141. ^ Dugmore, Arthur Radclyffe (1913), The romance of the Newfoundland caribou, Philadelphia: Lippincott, p. 191, retrieved 2 November 2014
  142. Våge, D. I.; Nieminen, M.; Anderson, D. G.; Røed, K. H. (2014). "Two Missense Mutations in Melanocortin 1 Receptor (MC1R) Are Strongly Associated With Dark Ventral Coat Color in Reindeer (Rangifer Tarandus)". Animal Genetics. 45 (5): 750–753. doi:10.1111/age.12187. hdl:2164/4960. PMID 25039753.
  143. Rahiman, Mohd Hezri Fazalul (2009). "Heat exchanger" (PDF). Malaysia. Archived from the original (PDF) on 5 December 2013. Retrieved 3 November 2014.
  144. Blix, A.S.; Johnsen, Helge Kreiitzer (1983). "Aspects of nasal heat exchange in resting reindeer". Journal of Physiology. 340: 445–454. doi:10.1113/jphysiol.1983.sp014772. PMC 1199219. PMID 6887057.
  145. "All About Caribou" (PDF). Project Caribou. p. 5. Archived from the original on 6 July 2013. In the winter, the fleshy pads on these toes grow longer and form a tough, hornlike rim. Caribou use these large, sharp-edged hooves to dig through the snow and uncover the lichens that sustain them in winter months. Biologists call this activity "cratering" because of the crater-like cavity the caribou's hooves leave in the snow.{{cite web}}: CS1 maint: unfit URL (link)
  146. "RY.0246-32: A reindeer uses its hooves to clear away snow to reach lichen at its winter pastures. Yamal, Siberia". Arcticphoto.co.uk. Archived from the original on 5 February 2012. Retrieved 16 September 2011.
  147. ^ Caribou at the Alaska Department of Fish & Game Archived 30 December 2013 at the Wayback Machine. Adfg.state.ak.us. Retrieved on 16 September 2011.
  148. ^ Naughton, Donna (2011), The Natural History of Canadian Mammals, Canadian Museum of Nature and University of Toronto Press, pp. 543, 562, 567, ISBN 978-1-4426-4483-0
  149. Aanes, Ronny (2007). "Svalbard reindeer". Norwegian Polar Institute. Archived from the original on 22 December 2010.
  150. ^ Banfield, Alexander William Francis (1966) "The caribou", pp. 25–28 in The Unbelievable Land. Smith, I.N. (ed.) Ottawa: Queen's Press, cited in Bro-Jørgensen, J.; Dabelsteen, T. (2008). "Knee-clicks and visual traits indicate fighting ability in eland antelopes: Multiple messages and back-up signals". BMC Biology. 6: 47. doi:10.1186/1741-7007-6-47. PMC 2596769. PMID 18986518.
  151. Shackleton, David (May 2013) , Hoofed Mammals of British Columbia, Royal BC Museum, ISBN 978-0-7726-6638-3
  152. Banfield, Alexander William Francis (1966), "The caribou", in Smith, I.N. (ed.), The Unbelievable Land, Ottawa: Queen's Press, pp. 25–28
  153. Reindeer use UV light to survive in the wild Archived 29 November 2011 at the Wayback Machine. Ucl.ac.uk (26 May 2011). Retrieved on 16 September 2011.
  154. Tyler, N.; Stokkan, K.A.; Hogg, C.; Nellemann, C.; Vistnes, A.I.; Jeffery, G. (2014). "Ultraviolet vision and avoidance of power lines in birds and mammals". Conservation Biology. 28 (3): 630–631. Bibcode:2014ConBi..28..630T. doi:10.1111/cobi.12262. PMC 4232876. PMID 24621320.
  155. Dominy, Nathaniel J.; Hobaiter, Catherine; Harris, Julie M. (2023). "Reindeer and the quest for Scottish enlichenment". i-Perception. 14 (6): 1–6. doi:10.1177/20416695231218520. PMC 10725117. PMID 38107029. (note pun with Scottish Enlightenment).
  156. Stokken, Karl-Arne; Folkow, Lars (December 2013). "Shifting mirrors: adaptive changes in retinal reflections to winter darkness in Arctic reindeer". Proceedings of the Royal Society B. 280 (1773): 20132451. doi:10.1098/rspb.2013.2451. PMC 3826237. PMID 24174115.
  157. Karasov, W.H. and Martinez del Rio, C. 2007. The Chemistry and Biology of Food in Physiological Ecology: How Animals Process Energy, Nutrients, and Toxins (pp. 49–108).
  158. ^ Allaye Chan-McLeod, A.C.; White, R.G.; Russell, D.E. (1999). "Comparative body composition strategies of breeding and nonbreeding female caribou". Canadian Journal of Zoology. 77 (12): 1901–1907. Bibcode:1999CaJZ...77.1901C. doi:10.1139/z99-169.
  159. Wilmer, Pat; Stone, Graham; Johnston, Ian (2009). Environmental Physiology of Animals. Wiley. pp. 645–663. ISBN 9781405107242.
  160. ^ Joly, K.; Wasser, S. K.; Booth, R. (10 June 2015). "Non-Invasive Assessment of the Interrelationships of Diet, Pregnancy Rate, Group Composition, and Physiological and Nutritional Stress of Barren-Ground Caribou in Late Winter". PLOS ONE. 10 (6). e0127586. Bibcode:2015PLoSO..1027586J. doi:10.1371/journal.pone.0127586. ISSN 1932-6203. PMC 4464525. PMID 26061003.
  161. Cell Press (22 December 2023). "Reindeer sleep while chewing their cud". ScienceDaily. Retrieved 25 December 2023.
  162. Furrer, Melanie; et al. (22 December 2023). "Reindeer in the Arctic reduce sleep need during rumination". Current Biology. 34 (2): 427–433.e5. doi:10.1016/j.cub.2023.12.012. hdl:10037/33347. PMID 38141616.
  163. ^ Bergerud, A.T. (29 April 2014), Caribou, The Canadian Encyclopedia, archived from the original on 7 December 2014, retrieved 3 September 2014
  164. ^ "Caribou at Animal Corner". Archived from the original on 29 October 2012.
  165. Cameron, Raymond D. (18 February 1994). "Reproductive Pauses by Female Caribou". Journal of Mammalogy. 75 (1): 10–13. doi:10.2307/1382230. ISSN 0022-2372. JSTOR 1382230.
  166. ^ Novak, R. M., ed. (1999). Walker's Mammals of the World. Vol. 2 (6th ed.). Baltimore: Johns Hopkins University Press. pp. 1128–1130. ISBN 978-0-8018-5789-8.
  167. Caribou Migration Monitoring by Satellite Telemetry Archived 14 May 2012 at the Wayback Machine. Mrnf.gouv.qc.ca. Retrieved on 16 September 2011.
  168. Bergerud, A. T. (1988). "Caribou, wolves and man". Trends in Ecology & Evolution. 3 (3): 68–72. Bibcode:1988TEcoE...3...68B. doi:10.1016/0169-5347(88)90019-5. PMID 21227095.
  169. Bartel, Rebecca; Oberhauser, Karen; De Roode, Jacob; Atizer, Sonya (February 2011). "Monarch butterfly migration and parasite transmission in eastern North America". Ecology. 92 (2): 342–351. Bibcode:2011Ecol...92..342B. doi:10.1890/10-0489.1. PMC 7163749. PMID 21618914. S2CID 9018584.
  170. ^ Hoare, Ben (2009). Animal Migration. London: Natural History Museum. p. 45. ISBN 978-0-565-09243-6.
  171. Raundrup, K. (2018) Movement patterns and resource selection - insights from West Greenland caribou. PhD Thesis, Denmark: Aarhus University, 115 pp.
  172. Arctic Reindeer Go Off the Circadian Clock Archived 20 December 2013 at the Wayback Machine. Wired.com (3 April 2014). Retrieved on 19 April 2014.
  173. Watson, Jeremy (12 October 2006). "Sea eagle spreads its wings ...". Scotland on Sunday. Edinburgh.
  174. C. S. Churcher, P. W. Parmalee, G. L. Bell, and J. P. Lamb, 1989, Caribou from the Late Pleistocene of northwestern Alabama, Canadian Journal of Zoology
  175. Sommer, R. S. & Nadachowski, A. (2006). "Glacial refugia of mammals in Europe: evidence from fossil records". Mammal Rev. 36 (4): 251–265. doi:10.1111/j.1365-2907.2006.00093.x.
  176. Rivals, Florent; Drucker, Dorothée G.; Weber, Mara-Julia; Audouze, Françoise; Enloe, James G. (6 April 2020). "Dietary traits and habitats of the reindeer (Rangifer tarandus) during the Late Glacial of Northern Europe". Archaeological and Anthropological Sciences. 12 (5): 98. Bibcode:2020ArAnS..12...98R. doi:10.1007/s12520-020-01052-y. ISSN 1866-9557. Retrieved 19 April 2024.
  177. Wang, Wei (25 January 2021). "Reindeer Ewenki: China's Last Reindeer-Herding Tribe". China Today. Beijing, China. Retrieved 7 September 2021.
  178. "Home – The Cairngorm Reindeer Herd". Cairngormreindeer.co.uk. Retrieved 16 February 2022.
  179. ^ Walker, Matt (11 June 2009). "Reindeer herds in global decline". Earth News. BBC. Archived from the original on 3 January 2012. Retrieved 16 September 2011.
  180. ^ Vors, L. S.; Boyce, M. S. (2009). "Global declines of caribou and reindeer". Global Change Biology. 15 (11): 2626–2633. Bibcode:2009GCBio..15.2626V. doi:10.1111/j.1365-2486.2009.01974.x. ISSN 1354-1013. S2CID 86111815.
  181. Le Corre, Mael; Dussault, Christian; Côté, Steeve D. (8 February 2017). "Weather conditions and variation in timing of spring and fall migrations of migratory caribou". Journal of Mammalogy. 98 (1): 260–271. doi:10.1093/jmammal/gyw177. ISSN 0022-2372.
  182. Bastille-Rousseau, Guillaume; Schaefer, James A.; Lewis, Keith P.; Mumma, Matthew A.; Ellington, E. Hance; Rayl, Nathaniel D.; Mahoney, Shane P.; Pouliot, Darren; Murray, Dennis L. (1 March 2016). "Phase-dependent climate–predator interactions explain three decades of variation in neonatal caribou survival". Journal of Animal Ecology. 85 (2): 445–456. Bibcode:2016JAnEc..85..445B. doi:10.1111/1365-2656.12466. ISSN 1365-2656. PMID 26529139.
  183. Gurino, Ben (16 January 2016) Starvation killed 80,000 reindeer after unusual Arctic rains cut off the animals' food supply Archived 6 December 2016 at the Wayback Machine. The Washington Post
  184. ^ McCloskey, Erin (2011), "Caribou", Wolves in Canada, Lone Pines, pp. 72–82, ISBN 978-1-55105-872-6
  185. Lawrence, Eleanor (2008). Henderson's Dictionary of Biology. Pearson Benjamin Cummings Prentice Hall. pp. 363–. ISBN 978-0-321-50579-8. Archived from the original on 10 May 2016.
  186. Pomeroy, Ross (21 December 2020). "Curious Case of Reindeer Cannibalism May Have Led to Deadly Prion Disease". Real Clear Science. RealClearScience.com. Retrieved 30 June 2021.
  187. Biology Archived 29 October 2013 at the Wayback Machine. Villrein.no. Retrieved on 19 April 2014.
  188. Lemmings at Hinterland Who's Who
  189. Anand-Wheeler, Ingrid (2002) Terrestrial Mammals of Nunavut. Nunavut Wildlife Management Board. ISBN 1-55325-035-4.
  190. "The Sun, the Moon and Firmament in Chukchi Mythology and on the Relations of Celestial Bodies and Sacrifice" by Ülo Siimets at 140 Archived 11 September 2008 at the Wayback Machine. (PDF) . Retrieved on 16 September 2011.
  191. Hickok, K. (21 June 2018). "How Does the Summer Solstice Affect Animals?". Live Science. Retrieved 22 June 2018.
  192. Piskorska, Teresa; Stefaniak, Krzysztof; Krajcarz, Magdalena; Krajcarz, Maciej T. (2 March 2015). "Reindeer during the Upper Palaeolithic in Poland: Aspects of variability and paleoecology". Quaternary International. 359–360: 157–177. Bibcode:2015QuInt.359..157P. doi:10.1016/j.quaint.2014.08.027. Retrieved 7 September 2024 – via Elsevier Science Direct.
  193. Rivals, Florent; Mihlbachler, Matthew C.; Solounias, Nikos; Mol, Dick; Semprebon, Gina M.; de Vos, John; Kalthoff, Daniela C. (1 February 2010). "Palaeoecology of the Mammoth Steppe fauna from the late Pleistocene of the North Sea and Alaska: Separating species preferences from geographic influence in paleoecological dental wear analysis". Palaeogeography, Palaeoclimatology, Palaeoecology. 286 (1–2): 42–54. Bibcode:2010PPP...286...42R. doi:10.1016/j.palaeo.2009.12.002. Retrieved 7 September 2024 – via Elsevier Science Direct.
  194. Walker, Matt. (20 October 2009) Eagles filmed hunting reindeer Archived 1 December 2011 at the Wayback Machine. BBC News. Retrieved on 16 September 2011.
  195. McLoughlin, P.D.; Dzus, E.; Wynes, B.; Boutin, Stan (2003). "Declines in populations of woodland caribou". Journal of Wildlife Management. 67 (4): 755–761. doi:10.2307/3802682. JSTOR 3802682.
  196. Chapman, Andrew (22 October 2021). "Polar bear hunting a reindeer caught on tape for first time. Unusual behavior had been assumed, but never clearly seen". Science. Retrieved 26 October 2021.
  197. Stempniewicz, Lech; Kulaszewicz, Izabela; Aars, Jon (12 October 2021). "Yes, they can: polar bears Ursus maritimus successfully hunt Svalbard reindeer Rangifer tarandus platyrhynchus". Polar Biology. 44 (11). Springer Science and Business Media LLC: 2199–2206. Bibcode:2021PoBio..44.2199S. doi:10.1007/s00300-021-02954-w. ISSN 0722-4060. S2CID 241470816.
  198. Cooper, Elisabeth J. (23 November 2014). "Warmer Shorter Winters Disrupt Arctic Terrestrial Ecosystems". Annual Review of Ecology, Evolution, and Systematics. 45 (1). Annual Reviews: 271–295. doi:10.1146/annurev-ecolsys-120213-091620. ISSN 1543-592X.
  199. "Caribou Foes: Natural Predators in the Wilderness". Learner.org. Archived from the original on 24 August 2011. Retrieved 16 September 2011.
  200. "An Educator's Guide to Wild Caribou of North America" (PDF). Project Caribou. Archived from the original on 6 July 2013. Retrieved 17 January 2014.{{cite web}}: CS1 maint: unfit URL (link)
  201. "Greenland Shark (Somniosus microcephalus)". Postmodern.com. Archived from the original on 10 May 2012. Retrieved 16 September 2011.
  202. Duffy, Michael S.; Nathan J. Keppie; Michael D. B. Burt (2002). "Meningeal Worm is a Long-lived Parasitic Nematode in White-tailed Deer". Journal of Wildlife Diseases. 38 (2): 448–452. doi:10.7589/0090-3558-38.2.448. PMID 12038147. S2CID 39879199.
  203. Smith, M.C.; et al. (1994). Goat Medicine. Vol. 150. Lea & Febiger.
  204. ""Brain Worm" (Meningeal Worm) Infestation in Llamas and Alpacas". University of Tennessee. Archived from the original on 21 October 2013. Retrieved 14 November 2013.
  205. Astakhov, Alexander S.; Khaitun, A. D.; Subbotin, G. E. (1989). "Socioeconomic Aspects of Oil and Gas Development in West Siberia". Annual Review of Energy and the Environment. 14 (1). Annual Reviews: 117–130. doi:10.1146/annurev.eg.14.110189.001001. ISSN 0362-1626. S2CID 154741203.
  206. ^ "Subcommittees", COSEWIC, Committee on the Status of Endangered Wildlife in Canada, 2004, archived from the original on 1 February 2014, retrieved 16 January 2014
  207. ^ Russell, Don E.; Gunn, A. (20 November 2013), Migratory Tundra Rangifer, Annual Arctic Report Card, NOAA Arctic Research Program, archived from the original on 21 January 2014, retrieved 14 January 2014
  208. COSEWIC (2017) COSEWIC assessment and status report on the caribou (Rangifer tarandus) Dolphin and Union population in Canada (http://www.registrelep-sararegistry.gc.ca/default.asp?lang=en&n=24F7211B-1 ). Committee on the Status of Endangered Wildlife in Canada, Ottawa, Ontario, 51 pp.
  209. Hebblewhite, M.; White, C.A.; Musiani, M. (2010) Revisiting extinction in National Parks: mountain caribou in Banff. Conservation Biology 24: 341-344.
  210. Zielinski, Sarah (16 December 2013). "Six Ways Climate Change Is Waging War on Christmas". Smithsonian Magazine. Retrieved 16 August 2014.
  211. Røed, K.H.; Flagstad, O.; Nieminen, M.; Holand, O.; Dwyer, M.J.; Rov, N.; Vila, C. (2008). "Genetic analyses reveal independent domestication origins of Eurasian reindeer". Proceedings of the Royal Society B: Biological Sciences. 275 (1645): 1849–1855. doi:10.1098/rspb.2008.0332. PMC 2593925. PMID 18460427.
  212. Svishcheva, G.; Babayan, O.; Sipko, T.; Kashtanov, S.; Kholodova, M.; Stolpovsky, Y. (2022). "Genetic differentiation between coexisting wild and domestic Reindeer (Rangifer tarandus L. 1758) in Northern Eurasia". Genetic Resources. 3 (6): 1–14. doi:10.46265/genresj.UYML5006. Retrieved 24 May 2023.
  213. Kharzinova, V.R.; Dotsev, A.V.; Solovieva, A.D.; Shimit, L.D.; Kochkarev, A.P.; Reyer, H.; Zinovieva, N.A. (2022). "Genome-Wide SNP Analysis Reveals the Genetic Diversity and Population Structure of the Domestic Reindeer Population (Rangifer tarandus) Inhabiting the Indigenous Tofalar Lands of Southern Siberia". Diversity. 14 (11): 900. doi:10.3390/d14110900.
  214. Atlas of Murmansk Oblast, 1971
  215. Administrative-Territorial Divisions of Murmansk Oblast
  216. Reindeer Archived 4 November 2011 at the Wayback Machine. Saunalahti.fi. Retrieved on 16 September 2011.
  217. Lapland Reindeer meat protected in the EU Archived 7 December 2009 at the Wayback Machine. North Magazine (Accessed 19 July 2010)
  218. European Commission PDO/PGI list Archived 19 August 2010 at the Wayback Machine. (Accessed 19 July 2010)
  219. Mieusset, Sébastien. "Le "Temps des sucres" au Québec". Archived from the original on 1 May 2009.
  220. Ovenell-Carter, Julie (6 February 2009). "Quebec's Carnaval is worth freezing your a** off for". theseboots.travel. Archived from the original on 3 March 2012.
  221. "History & Culture – Qamanirjuwhat?" (PDF). Hudson Bay Post. Vol. 3, no. 2. October 2007. pp. 10–11. Archived from the original (PDF) on 16 February 2008. Retrieved 12 February 2008.
  222. "Caribou Census Complete: 325,000 animals" (PDF), Caribou Trails: News from the Western Arctic Caribou Herd Working Group, Nome, Alaska: Western Arctic Caribou Herd Working Group, Alaska Department of Fish and Game, August 2012, archived (PDF) from the original on 30 August 2012, retrieved 14 January 2014
  223. F. Stuart Chapin III; Gary P. Kofinas; Carl Folke, eds. (2009). Principles of Ecosystem Stewardship: Resilience-Based Natural Resource. Springer. doi:10.1007/978-0-387-73033-2. ISBN 978-0-387-73032-5. S2CID 132900160.
  224. ^ Mishler, Craig (2014), "Linguistic Team Studies Caribou Anatomy", Arctic Research Consortium of the United States (ARCOS), archived from the original on 10 February 2016, retrieved 11 January 2015, A fundamental question for the research is to elicit not only what the Gwich'in know about caribou anatomy, but how they see caribou and what they say and believe about caribou that defines themselves, their dietary and nutritional needs, and their subsistence way of life.
  225. Caulfield, Richard (1983), Gwich'in Traditional Management Practices, Report to the Division of subsistence of the Alaska Department of Fish and Game, archived from the original on 20 October 2017, retrieved 30 October 2017
  226. Istomin, Kirill V.; Habeck, Joachim Otto (1 September 2016). "Permafrost and indigenous land use in the northern Urals: Komi and Nenets reindeer husbandry". Polar Science. 10 (3): 278–287. Bibcode:2016PolSc..10..278I. doi:10.1016/j.polar.2016.07.002. ISSN 1873-9652.
  227. Keay, Morgan G. "The Tsaatan Reindeer Herders of Mongolia: Forgotten lessons of ·human-animal systems" in Encyclopedia of Animals and Humans.
  228. Lavrillier, Alexandra (2020). ""Spirit-Charged" Humans in Siberia: Interrelations between the Notions of the Individual ("Spirit Charge" and "Active Imprint") and (Ritual) Action". Arctic Anthropology. 57 (1): 72–99. doi:10.3368/aa.57.1.72. ISSN 0066-6939. S2CID 230507240.
  229. Lund, Erik. "Wild reindeer in Norway" (PDF). Archived from the original (PDF) on 11 June 2007.
  230. "Wild Forest Reindeer". State Forest Enterprise of Finland. Archived from the original on 10 April 2017.
  231. Kharzinova, V.R.; Dotsev, A.V.; Deniskova, T.E.; Solovieva, A.D.; Fedorov, V.I.; Layshev, K.A.; Romanenko, T.M.; Okhlopkov, I.M.; Wimmers, K.; Reyer, H. (2018) Genetic diversity and population structure of domestic and wild reindeer (Rangifer tarandus L. 1758): A novel approach using BovineHD BeadChip. PloS one 13: e0207944. doi:10.1371/journal.pone.0207944
  232. Roed, K. H; Flagstad, O.; Nieminen, M.; Holand, O.; Dwyer, M. J.; Rov, N.; Vila, C. (2008). "Genetic analyses reveal independent domestication origins of Eurasian reindeer". Proceedings of the Royal Society B: Biological Sciences. 275 (1645): 1849–55. doi:10.1098/rspb.2008.0332. PMC 2593925. PMID 18460427.
  233. Korpijaakko-Mikkel, Sara (22 March 2009). "Siida and traditional Sami reindeer herding knowledge". Northern Review. Archived from the original on 1 May 2011.
  234. Kerblay, Basile (2008). Русская культура. Этнографические очерки [Russian Culture. Ethnographic notes] (in Russian). Translated by Bogdanov, Yaroslav. Saint Petersburg, Russia: Европейский дом. p. 149. (Referencing: Dolgikh, B.O.; Gurvich, I.S., eds. (1970). Преобразования в хозяйстве и культуре и этнические процессы у народов севера [Transformations of Economy and Culture and Ethnic Processes of the Peoples of the North] (in Russian). Moscow: Nauka. p. 139.)
  235. King, Irving H. (1996). The Coast Guard Expands, pp. 86–91. Naval Institute Press, Annapolis, Maryland. ISBN 1-55750-458-X.
  236. United States. Bureau of Education; United States. Bureau of Education. Alaska Division (1905). Annual report on introduction of domestic reindeer into Alaska. Vol. 14. Govt. Print. Off. pp. 18–. Archived from the original on 1 January 2014. Retrieved 16 September 2011.
  237. Europe's last wild reindeer herds in peril Archived 5 February 2008 at the Wayback Machine. Newscientist. 19 December 2003. Retrieved on 16 September 2011.
  238. "Reindeer Herding: a virtual guide to reindeer and those who herd them". Kautokeino: International Centre for Reindeer Husbandry (ICR), Government of Norway. Archived from the original on 29 December 2013. Retrieved 15 January 2014.
  239. Suomen porotalous Archived 19 October 2013 at the Wayback Machine. paliskunnat.fi (in Finnish)
  240. Obydenkova, Svetlana V.; Pearce, Joshua M. (2016). "Technical viability of mobile solar photovoltaic systems for indigenous nomadic communities in northern latitudes" (PDF). Renewable Energy. 89: 253–267. Bibcode:2016REne...89..253O. doi:10.1016/j.renene.2015.12.036. S2CID 110090767.
  241. Greenough, J. B.; D'Ooge, Benjamin L.; Daniell, M. Grant (1898). "book 6, chapter 26". Commentary on Caesar, Gallic War. Boston: Ginn and Company. Archived from the original on 26 April 2012. Est bos cervi figura, cuius a media fronte inter aures unum cornu* exsistit excelsius magisque directum his, quae nobis nota sunt, cornibus: ab eius summo sicut palmae ramique* late diffunduntur. Eadem est feminae marisque natura, eadem forma magnitudoque cornuum.
  242. Trude Pettersen: War memorial to honor WWII reindeer battalions Archived 20 June 2013 at the Wayback Machine. Barents Observer, 27 February 2012
  243. In WWII, Reindeer Were Our Animal Allies Archived 29 October 2013 at the Wayback Machine. National Public Radio, 14 August 2011
  244. Burgess, Philip (15 December 2008). "Flying Reindeer and Santa Claus: Fact, Fiction and Myth". International Centre of Husbandry, Norway. Archived from the original on 29 October 2013. Retrieved 15 January 2014.
  245. ^ "Tuktu — Caribou", Canada's Arctic, Guelph, Ontario, 2002, archived from the original on 23 September 2015, retrieved 17 January 2014
  246. ^ Hornsby, Debra (25 August 2011). "The ghosts on top of my head: Iconic sculpture creates campus focal point". Banff, Alberta. Archived from the original on 2 February 2014. Retrieved 31 January 2014.
  247. ^ Tomson Highway Archived 7 June 2011 at the Wayback Machine. The Canadian Encyclopedia.
  248. "Logotyp" (in Swedish). Umeå University. Archived from the original on 18 April 2013. Retrieved 7 March 2012.
  249. "Beaumont Hamel Newfoundland Memorial". Canada and the First World War. Canadian War Museum. Retrieved 16 February 2021.
  250. Coat of arms for Kuusamo Archived 24 July 2012 at the Wayback Machine. Kuusamo.fi. Retrieved on 19 April 2014.
  251. Coat of arms for Inari Archived 19 June 2013 at the Wayback Machine. Inari.fi.

Bibliography

External links

Caribou-specific links (North America)

Extant Artiodactyla species
Suborder Ruminantia
Antilocapridae
Antilocapra
Giraffidae
Okapia
Giraffa
Moschidae
Moschus
Tragulidae
Hyemoschus
Moschiola
Tragulus
CervidaeLarge family listed below
BovidaeLarge family listed below
Family Cervidae
Cervinae
Muntiacus
Elaphodus
Dama
Axis
Rucervus
Elaphurus
Rusa
Cervus
Capreolinae
Alces
Hydropotes
Capreolus
Rangifer
Hippocamelus
Mazama
Ozotoceros
Blastocerus
Pudu
Pudella?
Odocoileus
Family Bovidae
Hippotraginae
Hippotragus
Oryx
Addax
Reduncinae
Kobus
Redunca
Aepycerotinae
Aepyceros
Peleinae
Pelea
Alcelaphinae
Beatragus
Damaliscus
Alcelaphus
Connochaetes
Pantholopinae
Pantholops
CaprinaeLarge subfamily listed below
BovinaeLarge subfamily listed below
AntilopinaeLarge subfamily listed below
Family Bovidae (subfamily Caprinae)
Ammotragus
Arabitragus
Budorcas
Capra
Capricornis
Hemitragus
Naemorhedus
Oreamnos
Ovibos
Nilgiritragus
Ovis
Pseudois
Rupicapra
Family Bovidae (subfamily Bovinae)
Boselaphini
Tetracerus
Boselaphus
Bovini
Bubalus
Bos
Pseudoryx
Syncerus
Tragelaphini
Tragelaphus
(including kudus)
Taurotragus
Family Bovidae (subfamily Antilopinae)
Antilopini
Ammodorcas
Antidorcas
Antilope
Eudorcas
Gazella
Litocranius
Nanger
Procapra
Saigini
Saiga
Neotragini
Dorcatragus
Madoqua
Neotragus
Nesotragus
Oreotragus
Ourebia
Raphicerus
Cephalophini
Cephalophus
Philantomba
Sylvicapra
Suborder Suina
Suidae
Babyrousa
Hylochoerus
Phacochoerus
Porcula
Potamochoerus
Sus
Tayassuidae
Tayassu
Catagonus
Dicotyles
Suborder Tylopoda
Camelidae
Lama
Camelus
Suborder Whippomorpha
Hippopotamidae
Hippopotamus
Choeropsis
Cetacea
Working animals
Dog
Horse
Other species
Related topics
Taxon identifiers
Rangifer tarandus
Cervus tarandus
Categories: