Biology:Tiger

From HandWiki
Short description: Largest species of the cat family

Tiger
Temporal range: Early Pleistocene – Present
Walking tiger female.jpg
A Bengal tigress in Kanha Tiger Reserve, India
CITES Appendix I (CITES)[1]
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Carnivora
Suborder: Feliformia
Family: Felidae
Subfamily: Pantherinae
Genus: Panthera
Species:
P. tigris
Binomial name
Panthera tigris
(Linnaeus, 1758)[2]
Subspecies
Tiger map.svg
Tiger's historical range in about 1850 (pale yellow), excluding that of the Caspian tiger, and in 2006 (in green).[3]
Synonyms[4]
  • Gray, 1867 Linnaeus, 1758
  • Tigris striatus Felis tigris
  • Severtzov, 1858 Tigris regalis

The tiger (Panthera tigris) is the largest living cat species and a member of the genus Panthera. It is most recognisable for its dark vertical stripes on orange fur with a white underside. An apex predator, it primarily preys on ungulates, such as deer and wild boar. It is territorial and generally a solitary but social predator, requiring large contiguous areas of habitat to support its requirements for prey and rearing of its offspring. Tiger cubs stay with their mother for about two years and then become independent, leaving their mother's home range to establish their own.

The tiger was first scientifically described in 1758. It once ranged widely from the Eastern Anatolia Region in the west to the Amur River basin in the east, and in the south from the foothills of the Himalayas to Bali in the Sunda Islands. Since the early 20th century, tiger populations have lost at least 93% of their historic range and have been extirpated from Western and Central Asia, the islands of Java and Bali, and in large areas of Southeast and South Asia and China . What remains of the range where tigers still roam free is fragmented, stretching in spots from Siberian temperate forests to subtropical and tropical forests on the Indian subcontinent, Indochina and a single Indonesian island, Sumatra.

The tiger is listed as Endangered on the IUCN Red List. As of 2023, the global wild tiger population is estimated to number 5,574 individuals, with most populations living in small isolated pockets.[5] India hosts the largest tiger population. Major reasons for population decline are habitat destruction, habitat fragmentation and poaching. Tigers are also victims of human–wildlife conflict, due to encroachment in countries with a high human population density.

The tiger is among the most recognisable and popular of the world's charismatic megafauna. It featured prominently in the ancient mythology and folklore of cultures throughout its historic range and continues to be depicted in modern films and literature, appearing on many flags, coats of arms and as mascots for sporting teams. The tiger is the national animal of India , Bangladesh, Malaysia and South Korea .

Etymology

The Middle English tigre and Old English tigras derive from Old French tigre, from Latin tigris. This was a borrowing of Classical Greek τίγρις 'tigris', a foreign borrowing of unknown origin meaning 'tiger' and the river Tigris.[6] The generic name Panthera is derived from the Latin word panthera and the Ancient Greek word πάνθηρ pánthēr.[7]

Taxonomy

In 1758, Carl Linnaeus described the tiger in his work Systema Naturae and gave it the scientific name Felis tigris.[2] In 1929, the British taxonomist Reginald Innes Pocock subordinated the species under the genus Panthera using the scientific name Panthera tigris.[8][9]

Subspecies

Following Linnaeus's first descriptions of the species, several tiger zoological specimen were described and proposed as subspecies.[10] The validity of several tiger subspecies was questioned in 1999. Most putative subspecies described in the 19th and 20th centuries were distinguished on the basis of fur length and colouration, striping patterns and body size, hence characteristics that vary widely within populations. Morphologically, tigers from different regions vary little, and gene flow between populations in those regions is considered to have been possible during the Pleistocene. Therefore, it was proposed to recognize only two tiger subspecies as valid, namely P. t. tigris in mainland Asia, and P. t. sondaica in the Greater Sunda Islands. Mainland tigers are described has being larger in size with generally lighter fur and fewer stripes, while island tiger are smaller due to insular dwarfism, with darker coats and more numerous stripes on the sides.[11] The stripes of island tigers may break up into spotted patterns.[12]

This two-subspecies proposal was reaffirmed in 2015 by a comprehensive analysis of morphological, ecological and molecular traits of all putative tiger subspecies using a combined approach. The authors proposed recognition of only two subspecies, namely P. t. tigris comprising the Bengal, Malayan, Indochinese, South Chinese, Siberian and Caspian tiger populations of continental Asia, and P. t. sondaica comprising the Javan, Bali and Sumatran tiger populations of the Sunda Islands. The continental nominate subspecies P. t. tigris constitutes two clades: a northern clade composed of the Siberian and Caspian tiger populations, and a southern clade composed of all other mainland populations. The authors noted that this two-subspecies reclassification will impact tiger conservation management.[13] It would make captive breeding programs and future re-wilding of zoo-born tigers easier, as one tiger population could then be used to reinforce another. However, there is the risk that the loss of subspecies uniqueness could lead to less protection efforts for specific populations.[14]

In 2017, the Cat Classification Task Force of the IUCN Cat Specialist Group revised felid taxonomy in accordance with the two-subspecies proposal of the comprehensive 2015 study, and recognized the tiger populations in continental Asia as P. t. tigris, and those in the Sunda Islands as P. t. sondaica.[15] This two-subspecies view is still disputed by researchers, since the currently recognized six living subspecies can be distinguished genetically.[14] Results of a 2018 whole-genome sequencing of 32 samples support six monophyletic tiger clades corresponding with the living subspecies and indicate they descended from a common ancestor around 110,000 years ago.[16] A 2021 study also affirmed the genetic distinctiveness of these subspecies.[17]

The following tables are based on the classification of the species Panthera tigris provided in Mammal Species of the World,[10] and also reflect the classification used by the Cat Classification Task Force in 2017:[15]

Panthera tigris tigris (Linnaeus, 1758)[2]
Populations Description Image
Bengal tiger This tiger inhabits the Indian subcontinent.[18] Linnaeus's scientific description of the tiger was based on descriptions by earlier naturalists such as Conrad Gessner and Ulisse Aldrovandi.[2] Bengal tiger skins in the collection of the Natural History Museum, London were described as bright orange-red with shorter fur and more spaced out stripes than northern-living tigers like the Siberian tiger.[9] Sher Khan (cropped).jpg
Caspian tiger formerly P. t. virgata (Illiger, 1815)[19] This population lived in west-central Asia, reach as far west as Turkey.[18] Illiger's description was not based on a particular specimen, but he only assumed that tigers in the Caspian area differ from those elsewhere.[19] It was later described having a bright rusty-red coat with thin and closely spaced brownish stripes,[20] and a broad occipital bone.[11] According to genetic analysis, it was closely related to the Siberian tiger.[21] It went extinct in the 1970s.[22] Panthera tigris virgata.jpg
Siberian tiger formerly P. t. altaica (Temminck, 1844)[23] The cat is found in the Russian Far East, Northeast China and possibly North Korea.[18] Temminck's description was based on an unspecified number of tiger skins with long hairs and dense coats that were traded between Korea and Japan. He assumed they originated in the Altai Mountains.[23] The Siberian tiger was later described as having pale coats with few dark brown stripes.[20] The lighter colouration may be to due to longer exposure to sunlight during the summer. A Siberian tiger's coat becomes darker after molting.[11] The skull is described as shorter and broader then southern-living tigers.[24] Amur Tiger 4d (5512743124).jpg
South China tiger formerly P. t. amoyensis (Hilzheimer, 1905)[25] This tiger historically lived in south-central China.[18] Hilzheimer's description was based on five tiger skulls purchased in Hankou, China. These skulls had shorter carnassials and molars than tigers from India with, a smaller cranium, orbits set closer together and larger postorbital processes. Skins of this tiger were described as being yellowish in colour with rhombus-like stripes.[25] It was noted to have a unique mtDNA haplotype.[15] This tiger may be extinct in wild as there has not been a confirmed sighting since the 1970s.[1] 2012 Suedchinesischer Tiger.JPG
The tiger is found on the Indochinese Peninsula.[18] Mazák's description was based on 25 specimens in museum collections that were smaller than tigers from India and had smaller skulls.[26] It was also said to have a darker coat than the Bengal tiger more stripes; the stripes being narrower and having less "double stripes".[27] Panthera tigris corbetti (Tierpark Berlin) 832-714-(118).jpg
Malayan tiger formerly P. t. jacksoni Luo et al., 2004[28] It was proposed as a distinct subspecies on the basis of mtDNA and micro-satellite sequences that differ from the Indochinese tiger.[28] In pelage colour or skull size, it does not differ significantly from Indochinese tigers.[27] There is no clear geographical barrier between tiger populations in northern Malaysia and southern Thailand.[1] Panthera tigris jacksoni at Parc des Félins 15.jpg
Panthera tigris sondaica (Temminck, 1844)[15]
Populations Description Image
Javan tiger formerly P. t. sondaica (Temminck, 1944)[23] Temminck based his description on an unspecified number of tiger skins with short and smooth hair.[23] Tigers from Java were small compared to tigers of the Asian mainland. The skull was relatively elongated and, compared to the Sumatran tiger, the stripes were longer, thinner and slightly greater in number.[27] Javan tiger went extinct by the 1980s.[22] Panthera tigris sondaica 01 (cropped).jpg
Bali tiger formerly P. t. balica (Schwarz, 1912)[29] Bali tiger zanveld.jpg
Sumatran tiger formerly P. t. sumatrae Pocock, 1929[30] Pocock described a dark skin of a tiger from Sumatra as the type specimen.[30] It has broader and smaller nasal region than other island tigers[24][27] with many thick stripes.[27] This tiger has particularly long hairs around the face.[18] Panthera tigris sumatrae (Sumatran Tiger) close-up.jpg

Evolution

Two cladograms proposed for Panthera. The upper cladogram is based on two studies published in 2006 and 2009,[31][32] the lower one is based on studies published in 2010 and 2011.[33][34]

The tiger's closest living relatives were previously thought to be the Panthera species lion, leopard and jaguar. Results of genetic analysis indicate that about 2.88 million years ago, the tiger and the snow leopard lineages diverged from the other Panthera species, and that both may be more closely related to each other than to the lion, leopard and jaguar.[31][35]

The fossil species Panthera palaeosinensis of early Pleistocene northern China was described as a possible tiger ancestor when it was discovered in 1924, but modern cladistics place it as basal to modern Panthera.[36][34] Panthera zdanskyi, which lived around the same time and place, was suggested to be a sister taxon of the modern tiger when it was examined in 2014.[34] However, as of 2023, at least two recent studies considered P. zdanskyi likely to be a synonym of P. palaeosinensis, noting that its proposed differences from that species fell within the range of individual variation.[37][38] The earliest appearance of the modern tiger species in the fossil record are jaw fragments from Lantion in China that are dated to the early Pleistocene.[34] Middle to late Pleistocene tiger fossils were found throughout China, Sumatra and Java. Prehistoric subspecies include Panthera tigris trinilensis and P. t. soloensis of Java and Sumatra, and P. t. acutidens of China; late Pleistocene and early Holocene fossils of tigers were also found in Borneo and Palawan, Philippines.[39]

Results of a phylogeographic study indicate that all living tigers had a common ancestor 108,000 to 72,000 years ago.[28] A 2022 paleogenomic study of a Pleistocene tiger basal to living tigers concluded that modern tiger populations spread across Asia no earlier than 94,000 years ago. There is evidence of interbreeding between the lineage of modern mainland tigers and these ancient tigers.[40] The potential tiger range during the late Pleistocene and Holocene was predicted applying ecological niche modelling based on more than 500 tiger locality records combined with bioclimatic data. The resulting model shows a contiguous tiger range at the Last Glacial Maximum, indicating gene flow between tiger populations in mainland Asia. The tiger populations on the Sunda Islands and mainland Asia were possibly separated during interglacial periods.[41]

The tiger's full genome sequence was published in 2013. It was found to have repeat compositions much as other cat genomes and "an appreciably conserved synteny".[42]

Hybrids

Further information: Biology:Felid hybrid, Biology:Panthera hybrid, Biology:Liger, and Biology:Tigon

Captive tigers were bred with lions to create hybrids called liger and tigon. The former born to a female tiger and male lion and the latter the result of a male tiger and female lion. They share physical and behavioural qualities of both parent species.[43] Because the lion sire passes on a growth-promoting gene, but the corresponding growth-inhibiting gene from the female tiger is absent, ligers grow far larger than either parent species. By contrast, the male tiger does not pass on a growth-promoting gene and the lioness passes on a growth inhibiting gene, hence tigons are around the same size as either species.[44] Breeding hybrids is now discouraged due to the emphasis on conservation.[43]

Characteristics

Siberian tiger in Aalborg Zoo, Denmark
Bengal tiger skeleton on display at the Museum of Osteology

The tiger has a typical felid morphology. It has a muscular body with strong forelimbs, a large head and a tail that is about half the length of the rest of its body. There are five digits on the front feet and four on the back, all of which have retractable claws which are compact and curved. The ears are rounded, while the eyes have a round pupil.[12] The tiger's skull is large and robust, with a constricted front region, proportionally small, elliptical orbits, long nasal bones, and a lengthened cranium with a large sagittal crest.[20][12] It is similar to a lion's skull; with the structure of the lower jaw and length of the nasals being the most reliable indicators for species identification.[20] The tiger has fairly robust teeth and its somewhat curved canines reach reach a crown height of up to 90 mm (3.5 in).[12]

The fur tends to be short, expect in the northern-living Siberian tiger. It has a mane-like heavy growth of fur around the neck and jaws and long whiskers, especially in males.[12] Its colouration is generally orange, but can vary from light yellow to dark red.[12][39] White fur covers the ventral surface, along with parts of the face.[12][20] It also has a prominent white spot on the back of their ears which are surrounded by black.[12] The tiger is marked with distinctive black or dark brown stripes; the patterns of which are unique in each individual.[12][45] The stripes are mostly vertical, but those on the limbs and forehead are horizonal. They are more concentrated towards the posterior and those on the trunk may or may not reach under the belly. The tips of stripes are generally sharp and some have gaps within them. Tail stripes are thick bands and a black tip marks the end.[20]

Stripes are likely advantageous for camouflage in vegetation with vertical patterns of light and shade, such as trees and long grass.[45] This is supported by a 1987 Fourier analysis study which concluded that the spatial frequencies of tiger stripes line up with their environment.[46] The tiger is one of only a few striped cat species; it is not known why spotted patterns and rosettes are the more common camouflage pattern among felids.[47] The orange colour may also aid in concealment as the tiger's prey are dichromats, and thus may perceive the cat as green and blended in with the vegetation.[48] The white dots on the ear may play a role in communication.[12]

Size

The tiger is considered to be the largest living felid species.[12] However, there is some debate over averages compared to the lion. Since tiger populations vary greatly in size, the "average" size for a tiger may be less than a lion, while the biggest tigers are bigger than their lions counterparts.[39] The Siberian and Bengal tigers, along with the extinct Caspian are considered to be the largest of the species while the island tigers are the smallest.[12] The Sumatran tiger is the smallest living tiger while the extinct Bali tiger was even smaller.[12][27] It has been hypothesised that body size of different tiger populations may be correlated with climate and be explained by thermoregulation and Bergmann's rule.[12][11] Male tigers are larger than females.[12]

Average Female tigers Male tigers
Total length Bengal: 240–265 cm (94–104 in); Siberian: 240–275 cm (94–108 in); Sumatran: 215–230 cm (85–91 in)[12] Bengal: 270–310 cm (110–120 in); Siberian: 270–330 cm (110–130 in); Sumatran: 220–255 cm (87–100 in)[12]
Weight Bengal: 100–160 kg (220–350 lb); Siberian: 100–167 kg (220–368 lb); Sumatran:75–115 kg (165–254 lb)[12] Bengal: 180–258 kg (397–569 lb); Siberian: 180–306 kg (397–675 lb); Sumatran: 100–140 kg (220–310 lb)[12]

Colour variations

White tiger at the Singapore Zoo

There are three other colour variants – white, golden and nearly stripeless snow white – that are now virtually non-existent in the wild due to the reduction of wild tiger populations, but continue in captive populations. The white tiger has a white background colour with sepia-brown stripes. The golden tiger is pale golden with reddish-brown stripes. The snow white tiger is a morph with extremely faint stripes and a pale reddish-brown ringed tail. White and golden morphs are the result of an autosomal recessive trait with a white locus and a wideband locus respectively. The snow white variation is a caused by polygenes with both the white and wideband loci.[49]

The breeding of white tigers is controversial, as they have no use for conservation. Only 0.001% of wild tigers have the genes for this colour morph, and the overrepresentation of white tigers in captivity is the result of inbreeding among homozygous recessive cats. Hence their continued breeding will risk both inbreeding depression and loss of genetic variability in captive tigers.[50] Inbreeding is the main reason for many health problems of captive white tigers, including mental disabilities, cleft palate, scoliosis, strabismus, stillbirth, immune deficiency, and premature death.[51]

There are also records of pseudo-melanic or black tigers, which have thick stripes that merge. In Simlipal National Park, 37% of the tiger population has this feature, which has been linked to isolation and inbreeding.[52]

Distribution and habitat

Historical distribution of the tiger[21]

The tiger historically ranged from eastern Pakistan to Indochina, and from southeastern Siberia to Sumatra, Java and Bali. The Caspian tiger lived from eastern Turkey and the South Caucasus to northern Afghanistan and western China. The Tibetan Plateau and the Alborz acted as barriers to the species distribution.[12] As of 2022, it inhabits less than 7% of its historical distribution, and has a scattered range that includes the Indian subcontinent, the Indochinese Peninsula, Sumatra and the Russian Far East/Northeast China.[45][1][53]

The tiger mainly lives in forest habitats and is highly adaptable.[54] In the Amur-Ussuri region, it inhabits Korean pine and temperate broadleaf and mixed forests, where riparian forests provide food and water, and serve as dispersal corridors for both tiger and ungulates.[55] On the Indian subcontinent, it inhabits mainly tropical and subtropical moist broadleaf forests, moist evergreen forests, tropical dry forests, alluvial plains and the swamp forests of the Sundarbans.[56] In the Eastern Himalayas, tigers were documented in temperate forest up to an elevation of 4,200 m (13,800 ft) in Bhutan and of 3,630 m (11,910 ft) in the Mishmi Hills.[57][58] In Thailand, it lives in deciduous and evergreen forests.[59] In Sumatra, tiger populations range from lowland peat swamp forests to rugged montane forests.[60] Records in Central Asia indicate that it occurred foremost in Tugay riverine forests while in the Caucasus, it inhabited hilly and lowland forests.[20]

Ecology and behaviour

Social and daily activities

Tigers are comfortable in water and frequently bathe.
A tiger scent-marking his territory

When not subject to human disturbance, the tiger is mainly diurnal.[61] It does not often climb trees but cases have been recorded.[45] It is a strong swimmer and often bathes in ponds, lakes and rivers, thus keeping cool in the heat of the day.[62] Individuals can cross rivers up to 7 km (4.3 mi) wide and can swim up to 29 km (18 mi) in a day.[63] During the 1980s, a tiger was observed frequently hunting prey through deep lake water in Ranthambhore National Park.[61]

The tiger is a long-ranging species, and individuals disperse over distances of up to 650 km (400 mi) to reach tiger populations in other areas.[64] Radio-collared tigers in Chitwan National Park started dispersing from their natal areas earliest at the age of 19 months. Four females dispersed between 0 and 43.2 km (0.0 and 26.8 mi), and 10 males between 9.5 and 65.7 km (5.9 and 40.8 mi). None of them crossed open cultivated areas that were more than 10 km (6.2 mi) wide, but moved through forested habitat.[65]

Adult tigers lead largely solitary lives. They establish and maintain territories but have much wider home ranges within which they roam. Resident adults of either sex generally confine their movements to their home ranges, within which they satisfy their needs and those of their growing cubs. Individuals sharing the same area are aware of each other's movements and activities.[66] The size of the home range mainly depends on prey abundance, geographic area and sex of the individual.[45][12] In India, home ranges appear to be 50 to 1,000 km2 (19 to 386 sq mi) while in Manchuria, they range from 500 to 4,000 km2 (190 to 1,540 sq mi). In Nepal, defended territories are recorded to be 19 to 151 km2 (7.3 to 58.3 sq mi) for males and 10 to 51 km2 (3.9 to 19.7 sq mi) for females.[63]

Young female tigers establish their first territories close to their mother's. The overlap between the female and her mother's territory reduces with time. Males, however, migrate further than their female counterparts and set out at a younger age to mark out their own area. A young male acquires territory either by seeking out an area devoid of other male tigers, or by living as a transient in another male's territory until he is older and strong enough to challenge the resident male. Young males seeking to establish themselves thereby comprise the highest mortality rate (30–35% per year) amongst adult tigers.[67]

To identify his territory, the male marks trees by spraying urine,[68][69] anal gland secretions, marking trails with feces and marking trees or the ground with their claws. Females also use these "scrapes", urine and fecal markings. Scent markings of this type allow an individual to pick up information on another's identity, sex and reproductive status. Females in oestrus will signal their availability by scent marking more frequently and increasing their vocalisations.[45]

Although for the most part avoiding each other, tigers are not always territorial and relationships between individuals can be complex. An adult of either sex will sometimes share its kill with others, even with unrelated tigers. George Schaller observed a male share a kill with two females and four cubs. Unlike male lions, male tigers allow females and cubs to feed on the kill before the male is finished with it; all involved generally seem to behave amicably, in contrast to the competitive behaviour shown by a lion pride.[70] Stephen Mills described a social feeding event in Ranthambore National Park:

A dominant tigress they called Padmini killed a 250 kg (550 lb) male nilgai – a very large antelope. They found her at the kill just after dawn with her three 14-month-old cubs, and they watched uninterrupted for the next ten hours. During this period the family was joined by two adult females and one adult male, all offspring from Padmini's previous litters, and by two unrelated tigers, one female the other unidentified. By three o'clock there were no fewer than nine tigers round the kill.[67]

Male tigers are generally less tolerant of other males within their territories than females are of other females. Territory disputes are usually solved by intimidation rather than outright violence. Several such incidents have been observed in which the subordinate tiger yielded by rolling onto its back and showing its belly in a submissive posture.[71] Once dominance has been established, a male may tolerate a subordinate within his range, as long as they do not live in too close quarters.[67] The most serious disputes tend to occur between two males competing for a female in oestrus, sometimes fighting to the death.[67][71]

File:Sumatran tiger (Panthera tigris sumatrae) vocalising.webm
Captive Sumatran tiger roaring
File:439280 schots angry-tiger.wav
Caged tiger growling and snarling

Facial expressions include the "defense threat", where an individual bares its teeth, flattens its ears and its pupils enlarge. Both males and females show a flehmen response, a characteristic grimace, when sniffing urine markings, but flehmen is more often associated with males detecting the markings made by tigresses in oestrus.[12]

Tigers roar to signal their presence to other individuals over long distances. This vocalisation is forced through an open mouth as it closes and can be heard 3 km (1.9 mi) away. They may roar three or four times in a row, and other tigers may respond in kind. When tense, tigers will moan, a sound similar to a roar but softer and made when the mouth is at least partially closed. Moaning can be heard 400 m (1,300 ft) away.[12][70] Aggressive encounters involve growling, snarling and hissing.[70] During an attack, an explosive "coughing roar" or "coughing snarl" is emitted through an open mouth and exposed teeth.[12][70][72] Chuffing—soft, low-frequency snorting similar to purring in smaller cats—is heard in more friendly situations.[73] Other vocalisations include grunts, woofs and miaows.[12]

Hunting and diet

An adult tiger showing incisors, canines and part of the premolars and molars
Dentition of tiger above, and of Asian black bear below. The large canines are used for killing and the carnassials for tearing flesh.

Tigers mostly feed on large and medium-sized mammals, particularly ungulates weighing 60–250 kg (130–550 lb). Range-wide, the most selected prey are sambar deer, Manchurian wapiti, barasingha and wild boar. Tigers are capable of taking down larger prey like adult gaur and wild water buffalo,[74] but opportunistically eat much smaller prey, such as monkeys, peafowl and other ground-based birds, hares, porcupines and fish.[45] They also prey on other predators, including dogs, leopards, bears, snakes and crocodiles.[75] Tiger attacks on adult Asian elephants and Indian rhinoceros have also been reported.[76][77][78] More often, tigers take the more vulnerable small calves.[79] When in close proximity to humans, tigers sometimes prey on domestic livestock like cattle, horses and donkeys. Although almost exclusively carnivorous, tigers occasionally eat vegetation for dietary fibre such as fruit of the slow match tree.[75]

The tiger is thought to be mainly a nocturnal predator.[54] It generally hunts alone and overpowers its prey from any angle, using its body size and strength to knock the prey off balance. Successful hunts usually require the tiger to almost simultaneously leap onto its quarry, knock it over, and grab the throat or nape with its teeth.[63] Some tigers can reach speeds of about 49–65 km/h (30–40 mph) but only in short bursts; consequently, tigers must be close to their prey before they break cover. If the prey senses the tiger's presence before this, the tiger usually abandons the hunt rather than give chase or battle pre-alerted prey. Horizontal leaps of up to 10 m (33 ft) have been reported, although leaps of around half this distance are more typical. One in 2 to 20 hunts, including stalking near potential prey, ends in a successful kill.[63][54]

Two tigers working together to kill an Indian boar in Kanha Tiger Reserve
Bengal tiger attacking a sambar in Ranthambore Tiger Reserve

When hunting larger animals, tigers prefer to bite the throat and use their powerful forelimbs to hold onto the prey, often simultaneously wrestling it to the ground. The tiger remains latched onto the neck until its target dies of strangulation.[70] By this method, tigers killed gaurs and water buffaloes weighing over a ton.[80] Although they can kill healthy adults, tigers often select the calves or infirm of very large species.[81] Healthy adult prey of this type can be dangerous to tackle, as long, strong horns, legs and tusks are all potentially fatal to the tiger. No other extant land predator routinely takes on prey this large on its own.[20][82]

With small prey such as monkeys and hares, the tiger bites the nape, often breaking the spinal cord, piercing the windpipe, or severing the jugular vein or common carotid artery.[83] Rarely, tigers have been observed to kill prey by swiping with their paws, which are powerful enough to smash the skulls of domestic cattle,[75] and break the backs of sloth bears.[84]

After killing their prey, tigers sometimes drag it to conceal it in vegetation, grasping with their mouths at the site of the killing bite. This, too, can require great physical strength. In one case, after it had killed an adult gaur, a tiger was observed to drag the massive carcass over a distance of 12 m (39 ft). When 13 men simultaneously tried to drag the same carcass later, they were unable to move it.[63] An adult tiger can go for up to two weeks without eating, then gorge on 34 kg (75 lb) of flesh at one time. In captivity, adult tigers are fed 3 to 6 kg (6.6 to 13.2 lb) of meat a day.[63]

Enemies and competitors

An 1807 illustration of dholes attacking a tiger

Tigers usually prefer to eat self-killed prey, but eat carrion in times of scarcity and also steal prey from other large carnivores. Although predators typically avoid one another, if a prize is under dispute or a serious competitor is encountered, displays of aggression are common. If these fail, the conflicts may turn violent; tigers may kill or even prey on competitors such as leopards, dholes, striped hyenas, wolves, bears, pythons, and mugger crocodiles on occasion.[85][84][86][87][88] Crocodiles, bears, and large packs of dholes may win conflicts with tigers, and crocodiles and bears can even kill them.[85][20][89][90][91]

The considerably smaller leopard avoids competition from tigers by hunting at different times of the day and hunting different prey.[92] In India's Nagarhole National Park, most prey selected by leopards were from 30 to 175 kg (66 to 386 lb) against a preference for heavier prey by tigers. The average prey weight in the two respective big cats in India was 37.6 kg (83 lb) against 91.5 kg (202 lb).[93][94] With relatively abundant prey, tigers and leopards were seen to successfully coexist without competitive exclusion or interspecies dominance hierarchies that may be more common to the African savanna, where the leopard lives beside the lion.[93] Golden jackals may scavenge on tiger kills.[95] Tigers appear to inhabit the deep parts of a forest while smaller predators like leopards and dholes are pushed closer to the fringes.[96]

Reproduction and life cycle

Tiger family in Kanha Tiger Reserve
Tiger family in Tadoba Andhari Tiger Reserve

The tiger mates all year round, but most cubs are born between March and June, with a second peak in September. Gestation ranges from 93 to 114 days, with an average of 103 to 105 days. A female is only receptive for three to six days.[97] Mating is frequent and noisy during that time.[98]The female gives birth in a sheltered location such as in tall grass, in a dense thicket, cave or rocky crevice. The father generally takes no part in rearing.[20] Litters consist of two or three cubs, rarely as many as six. Cubs weigh from 780 to 1,600 g (28 to 56 oz) each at birth, and are born with eyes closed. They open their eyes when they are six to 14 days old.[97] Their milk teeth break through at the age of about two weeks. They start to eat meat at the age of eight weeks. At around this time, females usually shift them to a new den.[98] They make short ventures with their mother, although they do not travel with her as she roams her territory until they are older. Females lactate for five to six months.[97] Around the time they are weaned, they start to accompany their mother on territorial walks and are taught how to hunt.[61]

A dominant cub emerges in most litters, usually a male. The dominant cub is more active than its siblings and takes the lead in their play, eventually leaving its mother and becoming independent earlier.[61] The cubs start hunting on their own earliest at the age of 11 months, and become independent around 18 to 20 months of age.[70] They separate from their mother at the age of two to two and a half years, but continue to grow until the age of five years.[98] Young females reach sexual maturity at three to four years, whereas males at four to five years.[20] Unrelated wandering male tigers often kill cubs to make the female receptive, since the tigress may give birth to another litter within five months if the cubs of the previous litter are lost. The mortality rate of tiger cubs is about 50% in the first two years. Few other predators attack tiger cubs due to the diligence and ferocity of the mother. Apart from humans and other tigers, common causes of cub mortality are starvation, freezing, and accidents.[82] Generation length of the tiger is about eight years.[99] The oldest recorded captive tiger lived for 26 years.[63]

Occasionally, male tigers participate in raising cubs, usually their own, but this is extremely rare and not always well understood. In May 2015, Amur tigers were photographed by camera traps in the Sikhote-Alin Nature Reserve. The photos show a male Amur tiger pass by, followed by a female and three cubs within the span of about two minutes.[100] In Ranthambore, a male Bengal tiger raised and defended two orphaned female cubs after their mother had died of illness. The cubs remained under his care, he supplied them with food, protected them from his rival and sister, and apparently also trained them.[101]

Conservation

Main page: Biology:Tiger conservation
Global wild tiger population
Country Year Estimate
India India 2023 3682–3925[102][103]
Russia Russia 2020 480–540[104]
Indonesia Indonesia 2016 400–600[105]
Bangladesh Bangladesh 2014 300–500[1]
Nepal Nepal 2022 355[106]
Thailand Thailand 2023 189[107]
Bhutan Bhutan 2023 131[108]
Malaysia Malaysia 2022 <150[109]
China China 2018 55[110]
Myanmar Myanmar 2018 22[111]
Total 5,764–6,467

In the 1990s, a new approach to tiger conservation was developed: Tiger Conservation Units (TCUs), which are blocks of habitat that have the potential to host tiger populations in 15 habitat types within five bioregions. Altogether 143 TCUs were identified and prioritized based on size and integrity of habitat, poaching pressure and population status. They range in size from 33 to 155,829 km2 (13 to 60,166 sq mi).[56]

In 2016, an estimate of a global wild tiger population of approximately 3,890 individuals was presented during the Third Asia Ministerial Conference on Tiger Conservation.[112][113] The WWF subsequently declared that the world's count of wild tigers had risen for the first time in a century.[114]

Major threats to the tiger include habitat destruction, habitat fragmentation and poaching for fur and body parts, which have simultaneously greatly reduced tiger populations in the wild.[1] In India, only 11% of the historical tiger habitat remains due to habitat fragmentation.[115] Demand for tiger parts for use in traditional Chinese medicine has also been cited as a major threat to tiger populations.[116][117][118] Some estimates suggest that there are fewer than 2,500 mature breeding individuals, with no subpopulation containing more than 250 mature breeding individuals.[1]

India is home to the world's largest population of wild tigers.[112] A 2014 census estimated a population of 2,226, a 30% increase since 2011.[119] On International Tiger Day 2019, the 'Tiger Estimation Report 2018' was released by Prime Minister Narendra Modi. The report estimates a population of 2967 tigers in India with 25% increase since 2014. Modi said "India is one of the safest habitats for tigers as it has achieved the target of doubling the tiger population from 1411 in 2011 to 2967 in 2019".[120] As of 2022, India accounts for 75 percent of global tiger population.[121] The Tiger Census of 2023 reports tiger population in India at 3167.[122]

In 1973, India's Project Tiger, started by Indira Gandhi, established numerous tiger reserves. The project was credited with tripling the number of wild Bengal tigers from some 1,200 in 1973 to over 3,500 in the 1990s, but a 2007 census showed that numbers had dropped back to about 1,400 tigers because of poaching.[123][124][125] Following the report, the Indian government pledged $153 million to the initiative, set up measures to combat poaching, promised funds to relocate up to 200,000 villagers in order to reduce human-tiger interactions,[126] and set up eight new tiger reserves in India.[127] India also reintroduced tigers to the Sariska Tiger Reserve[128] and by 2009 it was claimed that poaching had been effectively countered at Ranthambore National Park.[129]

In the 1940s, the Siberian tiger was on the brink of extinction with only about 40 animals remaining in the wild in Russia. As a result, anti-poaching controls were put in place by the Soviet Union and a network of protected zones (zapovedniks) were instituted, leading to a rise in the population to several hundred. Poaching again became a problem in the 1990s, when the economy of Russia collapsed. The major obstacle in preserving the species is the enormous territory individual tigers require, up to 450 km (280 mi) needed by a single female and more for a single male.[130] Current conservation efforts are led by local governments and NGO's in concert with international organisations, such as the World Wide Fund for Nature and the Wildlife Conservation Society.[131] The competitive exclusion of wolves by tigers has been used by Russian conservationists to convince hunters to tolerate the big cats. Tigers have less impact on ungulate populations than do wolves, and are effective in controlling the latter's numbers.[132] In 2005, there were thought to be about 360 animals in Russia, though these exhibited little genetic diversity.[133] However, in a decade later, the Siberian tiger census was estimated from 480 to 540 individuals.[134]

In China, tigers became the target of large-scale 'anti-pest' campaigns in the early 1950s, where suitable habitats were fragmented following deforestation and resettlement of people to rural areas, who hunted tigers and prey species. Though tiger hunting was prohibited in 1977, the population continued to decline and is considered extinct in southern China since 2001.[135][136] Having earlier rejected the Western-led environmentalist movement, China changed its stance in the 1980s and became a party to the CITES treaty. By 1993 it had banned the trade in tiger parts, and this diminished the use of tiger bones in traditional Chinese medicine.[137] The Tibetan people's trade in tiger skins has also been a threat to tigers. The pelts were used in clothing, tiger-skin chuba being worn as fashion. In 2006 the 14th Dalai Lama was persuaded to take up the issue. Since then there has been a change of attitude, with some Tibetans publicly burning their chubas.[138]

In 1994, the Indonesian Sumatran Tiger Conservation Strategy addressed the potential crisis that tigers faced in Sumatra. The Sumatran Tiger Project (STP) was initiated in June 1995 in and around the Way Kambas National Park to ensure the long-term viability of wild Sumatran tigers and to accumulate data on tiger life-history characteristics vital for the management of wild populations.[139] By August 1999, the teams of the STP had evaluated 52 sites of potential tiger habitat in Lampung Province, of which only 15 these were intact enough to contain tigers.[140] In the framework of the STP a community-based conservation program was initiated to document the tiger-human dimension in the park to enable conservation authorities to resolve tiger-human conflicts based on a comprehensive database rather than anecdotes and opinions.[141]

The Wildlife Conservation Society and Panthera Corporation formed the collaboration Tigers Forever, with field sites including the world's largest tiger reserve, the 21,756 km2 (8,400 sq mi) Hukaung Valley in Myanmar. Other reserves were in the Western Ghats in India, Thailand, Laos, Cambodia, the Russian Far East covering in total about 260,000 km2 (100,000 sq mi).[142]

Tigers have been studied in the wild using a variety of techniques. Tiger population have been estimated using plaster casts of their pugmarks, although this method was criticized as being inaccurate.[143] More recent techniques include the use of camera traps and studies of DNA from tiger scat, while radio-collaring has been used to track tigers in the wild.[144] Tiger spray has been found to be just as good, or better, as a source of DNA than scat.[145]

Relationship with humans

Tiger hunting

Tiger hunting on elephant-back in India, 1808

The tiger has been one of the most sought after game animals of Asia. Tiger hunting took place on a large scale in the early 19th and 20th centuries, being a recognised and admired sport by the British in colonial India, the maharajas and aristocratic class of the erstwhile princely states of pre-independence India. A single maharaja or English hunter could claim to kill over a hundred tigers in their hunting career.[63] Over 80,000 tigers were slaughtered in just 50 years spanning from 1875 to 1925 in British-ruled India.[146] Tiger hunting was done by some hunters on foot; others sat up on machans with a goat or buffalo tied out as bait; yet others on elephant-back.[147] King George V on his visit to Colonial India in 1911 killed 39 tigers in a matter of 10 days[148] One of these is on display at the Royal Albert Memorial Museum.[149]

Historically, tigers have been hunted at a large scale so their famous striped skins could be collected. The trade in tiger skins peaked in the 1960s, just before international conservation efforts took effect. By 1977, a tiger skin in an English market was considered to be worth US$4,250.[63]

Body part use

A hunting party poses with a killed Javan tiger, 1941

Tiger parts are commonly used as amulets in South and Southeast Asia. In the Philippines, the fossils in Palawan were found besides stone tools. This, besides the evidence for cuts on the bones, and the use of fire, suggests that early humans had accumulated the bones.[150] and the condition of the tiger subfossils, dated to approximately 12,000 to 9,000 years ago, differed from other fossils in the assemblage, dated to the Upper Paleolithic. The tiger subfossils showed longitudinal fracture of the cortical bone due to weathering, which suggests that they had post-mortem been exposed to light and air. Tiger canines were found in Ambangan sites dating to the 10th to 12th centuries in Butuan, Mindanao.[151][152]

Many people in China and other parts of Asia have a belief that various tiger parts have medicinal properties, including as pain killers and aphrodisiacs.[153] There is no scientific evidence to support these beliefs. The use of tiger parts in pharmaceutical drugs in China is already banned, and the government has made some offences in connection with tiger poaching punishable by death.[which?] Furthermore, all trade in tiger parts is illegal under the Convention on International Trade in Endangered Species of Wild Fauna and Flora and a domestic trade ban has been in place in China since 1993.[154]

However, the trading of tiger parts in Asia has become a major black market industry and governmental and conservation attempts to stop it have been ineffective to date.[63] Almost all black marketers engaged in the trade are based in China and have either been shipped and sold within their own country or into Taiwan, South Korea or Japan.[63] The Chinese subspecies was almost completely decimated by killing for commerce due to both the parts and skin trades in the 1950s through the 1970s.[63] Contributing to the illegal trade, there are a number of tiger farms in the country specialising in breeding them for profit. It is estimated that between 5,000 and 10,000 captive-bred, semi-tame animals live in these farms today.[155][156][157] However, many tigers for traditional medicine black market are wild ones shot or snared by poachers and may be caught anywhere in the tiger's remaining range (from Siberia to India to the Malay Peninsula to Sumatra). In the Asian black market, a tiger penis can be worth the equivalent of around $300 U.S. dollars. In the years of 1990 through 1992, 27 million products with tiger derivatives were found.[63] In July 2014 at an international convention on endangered species in Geneva, Switzerland , a Chinese representative admitted for the first time his government was aware trading in tiger skins was occurring in China.[158]

Man-eating tigers

Main page: Biology:Tiger attack

Wild tigers that have had no prior contact with humans actively avoid interactions with them. However, tigers cause more human deaths through direct attack than any other wild mammal.[63] Attacks are occasionally provoked, as tigers lash out after being injured while they themselves are hunted. Attacks can be provoked accidentally, as when a human surprises a tiger or inadvertently comes between a mother and her young,[159] or as in a case in rural India when a postman startled a tiger, used to seeing him on foot, by riding a bicycle.[160] Occasionally tigers come to view people as prey. Such attacks are most common in areas where population growth, logging, and farming have put pressure on tiger habitats and reduced their wild prey. Most man-eating tigers are old, missing teeth, and unable to capture their preferred prey.[45] For example, the Champawat Tiger, a tigress found in Nepal and then India, had two broken canines. She was responsible for an estimated 430 human deaths, the most attacks known to be perpetrated by a single wild animal, by the time she was shot in 1907 by Jim Corbett.[161] According to Corbett, tiger attacks on humans are normally in daytime, when people are working outdoors and are not keeping watch.[162] Early writings tend to describe man-eating tigers as cowardly because of their ambush tactics.[163]

Man-eaters have been a particular problem in recent decades in India and Bangladesh, especially in Kumaon, Garhwal and the Sundarbans mangrove swamps of Bengal, where some healthy tigers have hunted humans. Because of rapid habitat loss attributed to climate change, tiger attacks have increased in the Sundarbans.[164] The Sundarbans area had 129 human deaths from tigers from 1969 to 1971. In the 10 years prior to that period, about 100 attacks per year in the Sundarbans, with a high of around 430 in some years of the 1960s.[63] Unusually, in some years in the Sundarbans, more humans are killed by tigers than vice versa.[63] In 1972, India's production of honey and beeswax dropped by 50% when at least 29 people who gathered these materials were devoured.[63] In 1986 in the Sundarbans, since tigers almost always attack from the rear, masks with human faces were worn on the back of the head, on the theory that tigers usually do not attack if seen by their prey. This decreased the number of attacks only temporarily. All other means to prevent attacks, such as providing more prey or using electrified human dummies, did not work as well.[165]

In captivity

Publicity photo of animal trainer Gunther Gebel-Williams with several of his trained tigers, c. 1969

In Ancient Roman times, tigers were kept in menageries and amphitheatres to be exhibited, trained and paraded, and were often provoked to fight gladiators and other exotic beasts.[166][167] Since the 17th century, tigers were sought after to be kept at European castles as symbols of their owners' power. Tigers became zoo and circus exhibits in the 18th century: a tiger could cost up to 4,000 francs in France.[168]

In 2007, over 4,000 captive tigers lived in China, of which 3,000 were held by about 20 larger facilities, with the rest held by some 200 smaller facilities.[169] In 2011, 468 facilities in the USA kept 2,884 tigers.[170] Nineteen US states banned private ownership of tigers, a license is required in 15 states, and 16 states have no regulation.[171] Many captive tigers are actually the result of crosses between Siberian and Bengal tigers.[172]

Cultural depictions

Tigers and their superlative qualities have been a source of fascination for humans since ancient times, and they are routinely visible as important cultural and media motifs. They are also considered one of the charismatic megafauna, and are used as the face of conservation campaigns worldwide. In a 2004 online poll conducted by cable television channel Animal Planet, involving more than 50,000 viewers from 73 countries, the tiger was voted the world's favourite animal with 21% of the vote, narrowly beating the dog.[173]

Mythology and legend

Tiger-shaped jie (badge of authority) with gold inlays, from the tomb of Zhao Mo

In Chinese mythology and culture, the tiger is one of the 12 animals of the Chinese zodiac. In Chinese art, the tiger is depicted as an earth symbol and equal rival of the Chinese dragon – the two representing matter and spirit respectively. The Southern Chinese martial art Hung Ga is based on the movements of the tiger and the crane. In Imperial China, a tiger was the personification of war and often represented the highest army General Officer,[174] while the emperor and empress were represented by a dragon and phoenix, respectively. The White Tiger (Chinese: 白虎; pinyin: Bái Hǔ) is one of the Four Symbols of the Chinese constellations. It is sometimes called the White Tiger of the West (Chinese: 西方白虎), and it represents the west and the autumn season.[174]

The tiger's tail appears in stories from countries including China and Korea, it being generally inadvisable to grasp a tiger by the tail.[175][176] In Korean mythology and culture, the tiger is regarded as a guardian that drives away evil spirits and a sacred creature that brings good luck – the symbol of courage and absolute power. For the people who live in and around the forests of Korea, the tiger considered the symbol of the Mountain Spirit or King of mountain animals.[citation needed]

In Buddhism, the tiger is one of the Three Senseless Creatures, symbolising anger, with the monkey representing greed and the deer lovesickness.[174] The Tungusic peoples considered the Siberian tiger a near-deity and often referred to it as "Grandfather" or "Old man". The Udege and Nanai called it "Amba". The Manchu people considered the Siberian tiger as "Hu Lin", the king.[177] In Hinduism, the god Shiva wears and sits on tiger skin.[178] The ten-armed warrior goddess Durga rides the tigress (or lioness) Damon into battle. In southern India the god Ayyappan was associated with a tiger.[179] Dingu-Aneni is the god in North-East India is also associated with tiger.[180] The weretiger replaces the werewolf in shapeshifting folklore in Asia;[181] in India they were evil sorcerers, while in Indonesia and Malaysia they were somewhat more benign.[182] In Taiwanese folk beliefs, Aunt Tiger portrays the story of a tiger, which turns into an old woman, abducts children at night and devours them to satisfy her appetite.[183] In the Greco-Roman world, the tiger was depicted being ridden by the god Dionysus.[184]

Literature and media

Blake's original printing of The Tyger, 1794

In the Hindu epic Mahabharata, the tiger is fiercer and more ruthless than the lion.[185] William Blake's poem "The Tyger" portrays the tiger as a menacing and fearful animal, and the tiger Shere Khan in Rudyard Kipling's 1894 The Jungle Book is the mortal enemy of the human protagonist.[186] Yann Martel's novel Life of Pi features the title character surviving shipwreck for months on a small boat with a large Bengal tiger while avoiding being eaten. The story was adapted in Ang Lee's feature film of the same name in 2012.[187]

Friendly tiger characters include Tigger in A. A. Milne's Winnie-the-Pooh and Hobbes of the comic strip Calvin and Hobbes, both represented as stuffed animals come to life.[188] Tony the Tiger is a famous mascot for Kellogg's breakfast cereal Frosted Flakes.[189]

Heraldry and emblems

The tiger is one of the animals displayed on the Pashupati seal of the Indus Valley civilisation. The tiger was the emblem of the Chola Dynasty and was depicted on coins, seals and banners.[190] The seals of several Chola copper coins show the tiger, the Pandyan emblem fish and the Chera emblem bow, indicating that the Cholas had achieved political supremacy over the latter two dynasties. Gold coins found in Kavilayadavalli in the Nellore district of Andhra Pradesh have motifs of the tiger, bow and some indistinct marks.[191] The tiger symbol of Chola Empire was later adopted by the Liberation Tigers of Tamil Eelam and the tiger became a symbol of the unrecognised state of Tamil Eelam and Tamil independence movement.[192] The Bengal tiger is the national animal of India and Bangladesh.[193] The Malaysian tiger is the national animal of Malaysia.[194] The Siberian tiger is the national animal of South Korea .[citation needed] The Tiger is featured on the logo of the Delhi Capitals Indian Premier League team.[citation needed]

In European heraldry, the tyger, a depiction of a tiger as imagined by European artists, is among the creatures used in charges and supporters. This creature has several notable differences from real tigers, lacking stripes and having a leonine tufted tail and a head terminating in large, pointed jaws. A more realistic tiger entered the heraldic armory through the British Empire's expansion into Asia, and is referred to as the Bengal tiger to distinguish it from its older counterpart. The Bengal tiger is not a common creature in heraldry, but is used as a supporter in the arms of Bombay and emblazoned on the shield of the University of Madras.[195]

See also

  • Siegfried & Roy, two famous tamers of tigers
  • List of largest cats
  • Tiger King, a 2020 crime documentary series on the exotic pet trade

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Goodrich, J.; Wibisono, H.; Miquelle, D.; Lynam, A.J; Sanderson, E.; Chapman, S.; Gray, T.N.E.; Chanchani, P. et al. (2022). "Panthera tigris". IUCN Red List of Threatened Species 2022: e.T15955A214862019. doi:10.2305/IUCN.UK.2022-1.RLTS.T15955A214862019.en. https://www.iucnredlist.org/species/15955/214862019. Retrieved 31 August 2022. 
  2. 2.0 2.1 2.2 2.3 Linnaeus, C. (1758). "Felis tigris" (in la). Caroli Linnæi Systema naturæ per regna tria naturæ, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus I (decima, reformata ed.). Holmiae: Laurentius Salvius. p. 41. https://archive.org/stream/mobot31753000798865#page/41/mode/2up. 
  3. Dinerstein, E.; Loucks, C.; Wikramanayake, E.; Ginsberg, J.; Sanderson, E.; Seidensticker, J.; Forrest, J.; Bryja, G. et al. (2007). "The Fate of Wild Tigers". BioScience 57 (6): 508–514. doi:10.1641/B570608. 
  4. Ellerman, J.R.; Morrison-Scott, T.C.S. (1951). "Panthera tigris, Linnaeus, 1758". Checklist of Palaearctic and Indian mammals 1758 to 1946. London: British Museum. p. 318. https://www.biodiversitylibrary.org/page/8722619. 
  5. Brigida, Danielle (September 11, 2023). "New Tiger Population Estimate". https://www.worldwildlife.org/stories/new-tiger-population-estimate-of-5-574-wild-tigers-announced-by-global-tiger-forum. 
  6. Liddell, H. G.; Scott, R. (1940). "τίγρις". A Greek-English Lexicon (Revised and augmented ed.). Oxford: Clarendon Press. https://www.perseus.tufts.edu/hopper/text?doc=Perseus%3Atext%3A1999.04.0057%3Aentry%3Dti%2Fgris. 
  7. Liddell, H. G.; Scott, R. (1940). "πάνθηρ". A Greek-English Lexicon (Revised and augmented ed.). Oxford: Clarendon Press. https://www.perseus.tufts.edu/cgi-bin/ptext?doc=Perseus%3Atext%3A1999.04.0057%3Aentry%3D%2377441. 
  8. Pocock, R. I. (1929). "Tigers". Journal of the Bombay Natural History Society 33 (3): 505–541. https://archive.org/details/journalofbomb33341929bomb/page/n133. 
  9. 9.0 9.1 Pocock, R. I. (1939). "Panthera tigris". The Fauna of British India, Including Ceylon and Burma. Mammalia: Volume 1. London: T. Taylor and Francis, Ltd.. pp. 197–210. https://archive.org/stream/PocockMammalia1/pocock1#page/n247/mode/2up. 
  10. 10.0 10.1 Wozencraft, W.C. (2005). "Species Panthera tigris". in Wilson, D.E.; Reeder, D.M. Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. p. 546. ISBN 978-0-8018-8221-0. OCLC 62265494. http://www.departments.bucknell.edu/biology/resources/msw3/browse.asp?id=14000259. 
  11. 11.0 11.1 11.2 11.3 Kitchener, A. (1999). "Tiger distribution, phenotypic variation and conservation issues". in Seidensticker, J.; Christie, S.; Jackson, P.. Riding the Tiger: Tiger Conservation in Human-Dominated Landscapes. Cambridge: Cambridge University Press. pp. 19–39. ISBN 978-0521648356. https://books.google.com/books?id=dbQ8AAAAIAAJ&pg=PA19. 
  12. 12.00 12.01 12.02 12.03 12.04 12.05 12.06 12.07 12.08 12.09 12.10 12.11 12.12 12.13 12.14 12.15 12.16 12.17 12.18 12.19 12.20 12.21 12.22 12.23 12.24 Mazák, V. (1981). "Panthera tigris". Mammalian Species (152): 1–8. doi:10.2307/3504004. 
  13. Wilting, A.; Courtiol, A.; Christiansen, P.; Niedballa, J.; Scharf, A. K.; Orlando, L.; Balkenhol, N.; Hofer, H. et al. (2015). "Planning tiger recovery: Understanding intraspecific variation for effective conservation". Science Advances 11 (5): e1400175. doi:10.1126/sciadv.1400175. PMID 26601191. Bibcode2015SciA....1E0175W. 
  14. 14.0 14.1 Kupferschmidt, K. (2015). "Controversial study claims there are only two types of tiger". Science. doi:10.1126/science.aac6905. 
  15. 15.0 15.1 15.2 15.3 Kitchener, A. C.; Breitenmoser-Würsten, C.; Eizirik, E.; Gentry, A.; Werdelin, L.; Wilting, A.; Yamaguchi, N.; Abramov, A. V. et al. (2017). "A revised taxonomy of the Felidae: The final report of the Cat Classification Task Force of the IUCN Cat Specialist Group". Cat News (Special Issue 11): 66–68. https://repository.si.edu/bitstream/handle/10088/32616/A_revised_Felidae_Taxonomy_CatNews.pdf?sequence=1&isAllowed=y#page=66. 
  16. Liu, Y.-C.; Sun, X.; Driscoll, C.; Miquelle, D. G.; Xu, X.; Martelli, P.; Uphyrkina, O.; Smith, J. L. D. et al. (2018). "Genome-wide evolutionary analysis of natural history and adaptation in the world's tigers". Current Biology 28 (23): 3840–3849. doi:10.1016/j.cub.2018.09.019. PMID 30482605. 
  17. Armstrong, E. E.; Khan, A; Taylor, R. W.; Gouy, A; Greenbaum, G; Thiéry, A; Kang, J. T.; Redondo, S. A. et al. (2021). "Recent evolutionary history of tigers highlights contrasting roles of genetic drift and selection". Molecular Biology and Evolution 38 (6): 2366–2379. doi:10.1093/molbev/msab032. PMID 33592092. 
  18. 18.0 18.1 18.2 18.3 18.4 18.5 Nowell, K.; Jackson, P. (1996). "Tiger, Panthera tigris (Linnaeus, 1758)". Wild Cats: Status Survey and Conservation Action Plan. Gland, Switzerland: IUCN. pp. 55–65. ISBN 2-8317-0045-0. https://portals.iucn.org/library/sites/library/files/documents/1996-008.pdf#page=80. 
  19. 19.0 19.1 Illiger, C. (1815). "Überblick der Säugethiere nach ihrer Verteilung über die Welttheile". Abhandlungen der Königlichen Preußischen Akademie der Wissenschaften zu Berlin 1804–1811: 39–159. http://bibliothek.bbaw.de/bbaw/bibliothek-digital/digitalequellen/schriften/anzeige/index_html?band=07-abh/18041811&seite:int=195. Retrieved 7 May 2020. 
  20. 20.00 20.01 20.02 20.03 20.04 20.05 20.06 20.07 20.08 20.09 20.10 Heptner, V. G.; Sludskij, A. A. (1992). "Tiger". Mlekopitajuščie Sovetskogo Soiuza. Moskva: Vysšaia Škola. Washington DC: Smithsonian Institution and the National Science Foundation. pp. 95–202. https://archive.org/stream/mammalsofsov221992gept#page/94/mode/2up. 
  21. 21.0 21.1 Driscoll, C. A.; Yamaguchi, N.; Bar-Gal, G. K.; Roca, A. L.; Luo, S.; MacDonald, D. W.; O'Brien, S. J. (2009). "Mitochondrial Phylogeography Illuminates the Origin of the Extinct Caspian Tiger and Its Relationship to the Amur Tiger". PLOS ONE 4 (1): e4125. doi:10.1371/journal.pone.0004125. PMID 19142238. Bibcode2009PLoSO...4.4125D. 
  22. 22.0 22.1 Cite error: Invalid <ref> tag; no text was provided for refs named Seidensticker1999
  23. 23.0 23.1 23.2 23.3 Temminck, C. J. (1844). "Aperçu général et spécifique sur les Mammifères qui habitent le Japon et les Iles qui en dépendent". Fauna Japonica sive Descriptio animalium, quae in itinere per Japoniam, jussu et auspiciis superiorum, qui summum in India Batava imperium tenent, suscepto, annis 1825–1830 collegit, notis, observationibus et adumbrationibus illustravit Ph. Fr. de Siebold. Leiden: Lugduni Batavorum. https://archive.org/details/faunajaponicasi00sieb/page/43. 
  24. 24.0 24.1 Mazák, J. H. (2010). "Craniometric variation in the tiger (Panthera tigris): Implications for patterns of diversity, taxonomy and conservation". Mammalian Biology 75 (1): 45–68. doi:10.1016/j.mambio.2008.06.003. 
  25. 25.0 25.1 Hilzheimer, M. (1905). "Über einige Tigerschädel aus der Straßburger zoologischen Sammlung". Zoologischer Anzeiger 28: 594–599. https://archive.org/details/zoologischeranze28deut/page/596. 
  26. Cite error: Invalid <ref> tag; no text was provided for refs named Mazak1968
  27. 27.0 27.1 27.2 27.3 27.4 27.5 Mazák, J. H.; Groves, C. P. (2006). "A taxonomic revision of the tigers (Panthera tigris) of Southeast Asia". Mammalian Biology 71 (5): 268–287. doi:10.1016/j.mambio.2006.02.007. http://www.dl.edi-info.ir/A%20taxonomic%20revision%20of%20the%20tigers%20of%20Southeast%20Asia.pdf. 
  28. 28.0 28.1 28.2 Luo, S.-J.; Kim, J.-H.; Johnson, W. E.; van der Walt, J.; Martenson, J.; Yuhki, N.; Miquelle, D. G.; Uphyrkina, O. et al. (2004). "Phylogeography and genetic ancestry of tigers (Panthera tigris)". PLOS Biology 2 (12): e442. doi:10.1371/journal.pbio.0020442. PMID 15583716. 
  29. Schwarz, E. (1912). "Notes on Malay tigers, with description of a new form from Bali". Annals and Magazine of Natural History Series 8 Volume 10 (57): 324–326. doi:10.1080/00222931208693243. https://archive.org/stream/annalsmagazineof8101912lond#page/324/mode/2up. 
  30. 30.0 30.1 Pocock, R. I. (1929). "Tigers". Journal of the Bombay Natural History Society 33: 505–541. https://archive.org/details/journalofbomb33341929bomb/page/n185. 
  31. 31.0 31.1 Johnson, W. E.; Eizirik, E.; Pecon-Slattery, J.; Murphy, W. J.; Antunes, A.; Teeling, E.; O'Brien, S. J. (2006). "The Late Miocene radiation of modern Felidae: A genetic assessment". Science 311 (5757): 73–77. doi:10.1126/science.1122277. PMID 16400146. Bibcode2006Sci...311...73J. https://zenodo.org/record/1230866. 
  32. Werdelin, L.; Yamaguchi, N.; Johnson, W. E.; O'Brien, S. J. (2010). "Phylogeny and evolution of cats (Felidae)". Biology and Conservation of Wild Felids. Oxford, UK: Oxford University Press. pp. 59–82. ISBN 978-0-19-923445-5. https://www.researchgate.net/publication/266755142. Retrieved 2018-10-21. 
  33. Davis, B. W.; Li, G.; Murphy, W. J. (2010). "Supermatrix and species tree methods resolve phylogenetic relationships within the big cats, Panthera (Carnivora: Felidae)". Molecular Phylogenetics and Evolution 56 (1): 64–76. doi:10.1016/j.ympev.2010.01.036. PMID 20138224. http://www.academia.edu/download/46328641/Supermatrix_and_species_tree_methods_res20160607-12326-st2bcr.pdf. [|permanent dead link|dead link}}]
  34. 34.0 34.1 34.2 34.3 Mazák, J. H.; Christiansen, P.; Kitchener, A. C. (2011). "Oldest Known Pantherine Skull and Evolution of the Tiger". PLOS ONE 6 (10): e25483. doi:10.1371/journal.pone.0025483. PMID 22016768. Bibcode2011PLoSO...625483M. 
  35. Davis, B. W.; Li, G.; Murphy, W. J. (2010). "Supermatrix and species tree methods resolve phylogenetic relationships within the big cats, Panthera (Carnivora: Felidae)". Molecular Phylogenetics and Evolution 56 (1): 64–76. doi:10.1016/j.ympev.2010.01.036. PMID 20138224. 
  36. Tseng, Z. J.; Wang, X.; Slater, G. J.; Takeuchi, G. T.; Li, Q.; Liu, J.; Xie, G. (2014). "Himalayan fossils of the oldest known pantherine establish ancient origin of big cats". Proceedings of the Royal Society B: Biological Sciences 281 (1774): 20132686. doi:10.1098/rspb.2013.2686. PMID 24225466. 
  37. Hemmer, Helmut (2023). "The evolution of the palaeopantherine cats, Palaeopanthera gen. nov. Blytheae (Tseng et al., 2014) and Palaeopanthera pamiri (Ozansoy, 1959) comb. Nov. (Mammalia, Carnivora, Felidae)". Palaeobiodiversity and Palaeoenvironments 103 (4): 827–839. doi:10.1007/s12549-023-00571-5. Bibcode2023PdPe..103..827H. 
  38. Jiangzuo, Q.; Wang, Y.; Ge, J.; Liu, S.; Song, Y.; Jin, C.; Jiang, H.; Liu, J. (2023). "Discovery of jaguar from northeastern China middle Pleistocene reveals an intercontinental dispersal event". Historical Biology 35 (3): 293–302. doi:10.1080/08912963.2022.2034808. Bibcode2023HBio...35..293J. 
  39. 39.0 39.1 39.2 Kitchener, A.; Yamaguchi, N. (2010). "What is a Tiger? Biogeography, Morphology, and Taxonomy". in Tilson, R.. Tigers of the World: The Science, Politics and Conservation of Panthera tigris (Second ed.). London, Burlington: Academic Press. pp. 53–84. ISBN 978-0-08-094751-8. https://books.google.com/books?id=XFIbjBEQolMC&pg=PA53. 
  40. Hu, J; Westbury, M. V.; Yuan, J; Wang, C; Xiao, B; Chen, S; Song, S; Wang, L et al. (2022). "An extinct and deeply divergent tiger lineage from northeastern China recognized through palaeogenomics". Proceedings of the Royal Society B: Biological Sciences 289 (1979). doi:10.1098/rspb.2022.0617. PMID 35892215. 
  41. Cooper, D. M.; Dugmore, A. J.; Gittings, B. M.; Scharf, A. K.; Wilting, A.; Kitchener, A. C. (2016). "Predicted Pleistocene–Holocene rangeshifts of the tiger (Panthera tigris)". Diversity and Distributions 22 (11): 1–13. doi:10.1111/ddi.12484. Bibcode2016DivDi..22.1199C. 
  42. Cho, Y. S.; Hu, L.; Hou, H.; Lee, H.; Xu, J.; Kwon, S.; Oh, S.; Kim, H. M. et al. (2013). "The tiger genome and comparative analysis with lion and snow leopard genomes". Nature Communications 4: 2433. doi:10.1038/ncomms3433. PMID 24045858. Bibcode2013NatCo...4.2433C. 
  43. 43.0 43.1 Actman, Jani (24 February 2017). "Cat Experts: Ligers and Other Designer Hybrids Pointless and Unethical". https://news.nationalgeographic.com/2017/02/wildlife-watch-liger-tigon-big-cat-hybrid/. 
  44. "Genomic Imprinting". Genetic Science Learning Center, Utah.org. https://learn.genetics.utah.edu/content/epigenetics/imprinting/. 
  45. 45.0 45.1 45.2 45.3 45.4 45.5 45.6 45.7 Miquelle, D. (2001). "Tiger". in MacDonald, D.. The Encyclopedia of Mammals (Second ed.). Oxford University Press. pp. 18–21. ISBN 978-0-7607-1969-5. 
  46. Godfrey, D.; Lythgoe, J. N.; Rumball, D. A. (1987). "Zebra stripes and tiger stripes: the spatial frequency distribution of the pattern compared to that of the background is significant in display and crypsis". Biological Journal of the Linnean Society 32 (4): 427–433. doi:10.1111/j.1095-8312.1987.tb00442.x. 
  47. Allen, W. L.; Cuthill, I. C.; Scott-Samuel, N. E.; Baddeley, R. (2010). "Why the leopard got its spots: relating pattern development to ecology in felids". Proceedings of the Royal Society B 278 (1710): 1373–1380. doi:10.1098/rspb.2010.1734. PMID 20961899. 
  48. Fennell, J. G.; Talas, L.; Baddeley, R. J.; Cuthill, I. C.; Scott-Samuel, N. E. (2019). "Optimizing colour for camouflage and visibility using deep learning: the effects of the environment and the observer's visual system". Journal of the Royal Society Interface 16 (154): 20190183. doi:10.1098/rsif.2019.0183. PMID 31138092. 
  49. Xu, X.; Dong, G. X.; Schmidt-Küntzel, A.; Zhang, X. L.; Zhuang, Y.; Fang, R.; Sun, X.; Hu, X.S. et al. (2017). "The genetics of tiger pelage color variations". Cell Research 27 (7): 954–957. doi:10.1038/cr.2017.32. PMID 28281538. PMC 5518981. https://www.luo-lab.org/publications/Xu17-CellRes-GoldenTiger.pdf. 
  50. Xavier, N. (2010). "A new conservation policy needed for reintroduction of Bengal tiger-white". Current Science 99 (7): 894–895. https://www.currentscience.ac.in/Volumes/99/07/0894.pdf. 
  51. Begany, L.; Criscuolo, C. L. (2009). "Accumulation of Deleterious Mutations Due to Inbreeding in Tiger Population". http://bigcatrescue.org/wp-content/uploads/2014/10/Accumulation-of-Deleterious-Mutations-Due-to-Inbreeding-in-Tiger-Population.pdf. 
  52. Sagar, V.; Kaelin, C. B.; Natesh, M.; Reddy, P. A.; Mohapatra, R. K.; Chhattani, H.; Thatte, P.; Vaidyanathan, S. et al. (2021). "High frequency of an otherwise rare phenotype in a small and isolated tiger population". PNAS 118 (39): e2025273118. doi:10.1073/pnas.2025273118. PMID 34518374. Bibcode2021PNAS..11825273S. 
  53. Sanderson, E.; Forrest, J.; Loucks, C.; Ginsberg, J.; Dinerstein, E.; Seidensticker, J.; Leimgruber, P.; Songer, M. et al. (2006). Setting Priorities for the Conservation and Recovery of Wild Tigers: 2005–2015: The Technical Assessment. New York – Washington DC: WCS, WWF, Smithsonian, and NFWF-STF. http://www.worldwildlife.org/species/finder/tigers/WWFBinaryitem9363.pdf. Retrieved 7 August 2019. 
  54. 54.0 54.1 54.2 Sunquist, M. (2010). "What is a Tiger? Ecology and Behaviour". in R. Tilson. Tigers of the World: The Science, Politics and Conservation of Panthera tigris (Second ed.). London, Burlington: Academic Press. p. 19−34. ISBN 978-0-08-094751-8. https://books.google.com/books?id=XFIbjBEQolMC&pg=PA23. 
  55. Miquelle, D. G.; Smirnov, E. N.; Merrill, T. W.; Myslenkov, A. E.; Quigley, H.; Hornocker, M. G.; Schleyer, B. (1999). "Hierarchical spatial analysis of Amur tiger relationships to habitat and prey". in Seidensticker, J.; Christie, S.; Jackson, P.. Riding the Tiger. Tiger Conservation in Human-dominated Landscapes. London: Cambridge University Press. pp. 71–99. ISBN 978-0521648356. http://www.panthera.org/node/342. 
  56. 56.0 56.1 Wikramanayake, E. D.; Dinerstein, E.; Robinson, J. G.; Karanth, K. U.; Rabinowitz, A.; Olson, D.; Mathew, T.; Hedao, P. et al. (1999). "Where can tigers live in the future? A framework for identifying high-priority areas for the conservation of tigers in the wild". in Seidensticker, J.; Christie, S.; Jackson, P.. Riding the Tiger: Tiger Conservation in Human Dominated Landscape. London: Cambridge University Press. pp. 254–272. ISBN 978-0521648356. 
  57. Jigme, K.; Tharchen, L. (2012). "Camera-trap records of tigers at high altitudes in Bhutan". Cat News (56): 14–15. 
  58. Adhikarimayum, A. S.; Gopi, G. V. (2018). "First photographic record of tiger presence at higher elevations of the Mishmi Hills in the Eastern Himalayan Biodiversity Hotspot, Arunachal Pradesh, India". Journal of Threatened Taxa 10 (13): 12833–12836. doi:10.11609/jott.4381.10.13.12833-12836. 
  59. Simcharoen, S.; Pattanavibool, A.; Karanth, K. U.; Nichols, J. D.; Kumar, N. S. (2007). "How many tigers Panthera tigris are there in Huai Kha Khaeng Wildlife Sanctuary, Thailand? An estimate using photographic capture-recapture sampling". Oryx 41 (4): 447–453. doi:10.1017/S0030605307414107. 
  60. Wibisono, H. T.; Linkie, M.; Guillera-Arroita, G.; Smith, J. A.; Sunarto; Pusarini, W.; Asriadi; Baroto, P. et al. (2011). "Population Status of a Cryptic Top Predator: An Island-Wide Assessment of Tigers in Sumatran Rainforests". PLOS ONE 6 (11): e25931. doi:10.1371/journal.pone.0025931. PMID 22087218. Bibcode2011PLoSO...625931W. 
  61. 61.0 61.1 61.2 61.3 Thapar, V. (1994). The Tiger's Destiny. London: Kyle Cathie. pp. 47, 174–175. ISBN 978-1-85626-142-5. 
  62. Sunquist, M.; Sunquist, F. (1991). "Tigers". Great Cats. Fog City Press. pp. 97–98. ISBN 978-1-875137-90-9. 
  63. 63.00 63.01 63.02 63.03 63.04 63.05 63.06 63.07 63.08 63.09 63.10 63.11 63.12 63.13 63.14 63.15 63.16 Novak, R. M.; Walker, E. P. (1999). "Panthera tigris (tiger)". Walker's Mammals of the World (6th ed.). Baltimore: Johns Hopkins University Press. pp. 825–828. ISBN 978-0-8018-5789-8. https://books.google.com/books?id=T37sFCl43E8C&pg=PA825. 
  64. Joshi, A.; Vaidyanathan, S.; Mondol, S.; Edgaonkar, A.; Ramakrishnan, U. (2013). "Connectivity of Tiger (Panthera tigris) Populations in the Human-Influenced Forest Mosaic of Central India". PLOS ONE 8 (11): e77980. doi:10.1371/journal.pone.0077980. PMID 24223132. Bibcode2013PLoSO...877980J. 
  65. Smith, J. L. D. (1993). "The role of dispersal in structuring the Chitwan tiger population". Behaviour 124 (3): 165–195. doi:10.1163/156853993X00560. 
  66. McDougal, Charles (1977). The Face of the Tiger. London: Rivington Books and André Deutsch. pp. 63–76. ISBN 9780233969466. https://books.google.com/books?id=Q-EHAQAAMAAJ. 
  67. 67.0 67.1 67.2 67.3 Mills, S. (2004). Tiger. London: BBC Books. p. 89. ISBN 978-1-55297-949-5. 
  68. Burger, B. V.; Viviers, M. Z.; Bekker, J. P. I.; Roux, M.; Fish, N.; Fourie, W. B.; Weibchen, G. (2008). "Chemical Characterization of Territorial Marking Fluid of Male Bengal Tiger, Panthera tigris". Journal of Chemical Ecology 34 (5): 659–671. doi:10.1007/s10886-008-9462-y. PMID 18437496. Bibcode2008JCEco..34..659B. https://citeseerx.ist.psu.edu/document?repid=rep1&type=pdf&doi=586948b8396932dd13d9e5a880e77cb7618a273f. 
  69. Smith, J. L. David; McDougal, C.; Miquelle, D. (1989). "Scent marking in free-ranging tigers, Panthera tigris". Animal Behaviour 37: 1–10. doi:10.1016/0003-3472(89)90001-8. 
  70. 70.0 70.1 70.2 70.3 70.4 70.5 Schaller, G. (1967). The Deer and the Tiger: A Study of Wildlife in India. Chicago: Chicago Press. https://archive.org/details/in.ernet.dli.2015.553304. 
  71. 71.0 71.1 Thapar, V. (1989). Tiger: Portrait of a Predator. New York: Smithmark. ISBN 978-0-8160-1238-1. 
  72. Sunquist, M. E.; Sunquist, F. (2002). "Tiger Panthera tigris". Wild Cats of the World. Chicago: University of Chicago Press. p. 356. ISBN 978-0-226-77999-7. https://books.google.com/books?id=IF8nDwAAQBAJ&pg=PA320. 
  73. Peters, G.; Tonkin-Leyhausen, B. A. (1999). "Evolution of Acoustic Communication Signals of Mammals: Friendly Close-Range Vocalizations in Felidae (Carnivora)". Journal of Mammalian Evolution 6 (2): 129–159. doi:10.1023/A:1020620121416. 
  74. Hayward, M. W.; Jędrzejewski, W.; Jędrzejewska, B. (2012). "Prey preferences of the tiger Panthera tigris". Journal of Zoology 286 (3): 221–231. doi:10.1111/j.1469-7998.2011.00871.x. 
  75. 75.0 75.1 75.2 Perry, R. (1965). The World of the Tiger. p. 260. 
  76. "Trouble for rhino from poacher and Bengal tiger". The Telegraph. 2008. http://www.telegraphindia.com/1080313/jsp/northeast/story_9012303.jsp. 
  77. "Tiger kills elephant at Eravikulam park". The New Indian Express. 2009. http://www.newindianexpress.com/cities/kochi/article103095.ece. 
  78. "Tiger kills adult rhino in Dudhwa Tiger Reserve". The Hindu. 2013. https://www.thehindu.com/news/national/other-states/tiger-kills-adult-rhino-in-dudhwa-tiger-reserve/article4357638.ece. 
  79. Karanth, K. U.; Nichols, J. D. (1998). "Estimation of tiger densities in India using photographic captures and recaptures". Ecology 79 (8): 2852–2862. doi:10.1890/0012-9658(1998)079[2852:EOTDII2.0.CO;2]. http://erepo.usiu.ac.ke/bitstream/handle/11732/758/Estimation%20of%20tiger%20densities%20in%20India%20using%20photographic%20captures%20and%20recaptures.pdf?sequence=4&isAllowed=y. 
  80. Sankhala, p. 17
  81. Hunter, L. (2011). Carnivores of the World. Princeton University Press. ISBN 978-0-691-15228-8. 
  82. 82.0 82.1 Sunquist, M.; Sunquist, F. (2002). "Tiger Panthera tigris (Linnaeus, 1758)". Wild Cats of the World. Chicago: University of Chicago Press. pp. 343–372. ISBN 978-0-22-677999-7. https://books.google.com/books?id=IF8nDwAAQBAJ&pg=PA344. 
  83. Sankhala, p. 23
  84. 84.0 84.1 Mills, S. (2004). Tiger. Richmond Hill, Ontario: Firefly Books. p. 168. ISBN 978-1-55297-949-5. 
  85. 85.0 85.1 Mazak, V. (2004) (in de). Der Tiger. Westarp Wissenschaften Hohenwarsleben. ISBN 978-3-89432-759-0. 
  86. Sunquist, F.; Sunquist, M. (2002). Tiger Moon. University of Chicago Press. ISBN 978-0-226-77997-3. 
  87. Mills, Gus; Hofer, Heribert (1998). Hyaenas: status survey and conservation action plan. IUCN/SSC Hyena Specialist Group. ISBN:2-8317-0442-1.
  88. Miquelle, D.G., Stephens, P.A., Smirnov, E.N., Goodrich, J.M., Zaumyslova, O.Yu. & Myslenkov, A.I. (2005). Tigers and Wolves in the Russian Far East: Competitive Exclusion, Functional Redundancy and Conservation Implications. In Large Carnivores and the Conservation of Biodiversity. Ray, J.C., Berger, J., Redford, K.H. & Steneck, R. (eds.) New York: Island Press. pp. 179–207 ISBN:1-55963-080-9.
  89. Goldsmith, O. (2010). A History of the Earth, And Animated Nature, Volume 2. Nabu Press. p. 297. ISBN 978-1-145-11108-0. 
  90. Mills, S. (2004). Tiger. Richmond Hill: Firefly Books. p. 168. ISBN 978-1-55297-949-5. 
  91. Pandit, P. K. (2012). "Sundarban Tiger − a new prey species of estuarine crocodile at Sundarban Tiger Reserve, India". Tigerpaper XXXIX (1): 1–5. http://www.fao.org/3/a-am998e.pdf. 
  92. "Sympatric Tiger and Leopard: How two big cats coexist in the same area". http://www.ecology.info/tiger-leopard.htm.  Ecology.info
  93. 93.0 93.1 Karanth, K. U.; Sunquist, M. E. (2000). "Behavioural correlates of predation by tiger (Panthera tigris), leopard (Panthera pardus) and dhole (Cuon alpinus) in Nagarahole, India". Journal of Zoology 250 (2): 255–265. doi:10.1111/j.1469-7998.2000.tb01076.x. 
  94. Karanth, K. U.; Sunquist, M. E. (1995). "Prey Selection by Tiger, Leopard and Dhole in Tropical Forests". Journal of Animal Ecology 64 (4): 439–450. doi:10.2307/5647. Bibcode1995JAnEc..64..439K. 
  95. Sillero-Zubiri, C., Hoffmann, M. and Macdonald, D.W. (eds). 2004. Canids: Foxes, Wolves, Jackals and Dogs. Status Survey and Conservation Action Plan. IUCN/SSC Canid Specialist Group. Gland, Switzerland and Cambridge, UK. ISBN:2-8317-0786-2
  96. Thinley, P.; Rajaratnam, R.; Lassoie, J. P.; Morreale, S. J.; Curtis, P. D.; Vernes, K.; Leki Leki; Phuntsho, S. et al. (2018). "The ecological benefit of tigers (Panthera tigris) to farmers in reducing crop and livestock losses in the eastern Himalayas: Implications for conservation of large apex predators". Biological Conservation 219: 119–125. doi:10.1016/j.biocon.2018.08.007. 
  97. 97.0 97.1 97.2 Sankhala, K. S. (1967). "Breeding behaviour of the tiger Panthera tigris in Rajasthan". International Zoo Yearbook 7 (1): 133–147. doi:10.1111/j.1748-1090.1967.tb00354.x. 
  98. 98.0 98.1 98.2 Guggisberg, C. A. W. (1975). "Tiger Panthera tigris (Linnaeus, 1758)". Wild Cats of the World. New York: Taplinger Pub. Co.. pp. 180–215. ISBN 978-0-7950-0128-4. https://archive.org/details/wildcatsofworld00gugg/page/180. 
  99. Pacifici, M.; Santini, L.; Di Marco, M.; Baisero, D.; Francucci, L.; Grottolo Marasini, G.; Visconti, P.; Rondinini, C. (2013). "Generation length for mammals". Nature Conservation (5): 87–94. 
  100. Wildlife Conservation Society (2015). "Tiger dad: Rare family portrait of Amur tigers the first-ever to include an adult male". ScienceDaily. https://www.sciencedaily.com/releases/2015/03/150306143548.htm. 
  101. "T-25 Dollar- The Famous Tiger of Ranthambore". Ranthambore National Park. https://www.ranthamborenationalpark.com/t-25.html. 
  102. "India's tiger population rises, Madhya Pradesh has most big cats" (in en-IN). The Hindu. 2023-07-29. ISSN 0971-751X. https://www.thehindu.com/sci-tech/energy-and-environment/indias-tiger-population-rises-madhya-pradesh-has-most-big-cats/article67136263.ece. 
  103. "India's tiger population reaches 3925". 31 July 2023. https://currentaffairs.adda247.com/indias-tiger-population-reaches-3925-with-6-1-annual-growth-rate-holds-75-of-global-wild-tiger-population/. 
  104. "Russia announces tiger census results". https://tigers.panda.org/news_and_stories/stories/russia_announce_tiger_census_results/. 
  105. "Sumatran Tiger". https://www.fauna-flora.org/species/sumatran-tiger/. 
  106. DNPWC; DFSC (2022). Status of Tigers and Prey in Nepal 2022 (Report). Kathmandu, Nepal: Department of National Parks and Wildlife Conservation & Department of Forests and Soil Conservation, Ministry of Forests and Environment. https://dnpwc.gov.np/media/files/Status_of_Tigers_Ic2ylSC.pdf. 
  107. "Thailand's Wild Tigers Have Doubled Since 2014". https://www.thaipbsworld.com/thailands-wild-tigers-have-doubled-in-number189-since-2014/. 
  108. "Bhutan's roaring success in tiger conservation steals the spotlight, numbers register a huge jump - South Asia News". https://www.wionews.com/south-asia/bhutans-roaring-success-in-tiger-conservation-grows-spotlight-with-latest-numbers-620999/amp. 
  109. "Status Of Malayan Tigers". https://www.wwf.org.my/tiger_facts/status_of_malayan_tigers/. 
  110. Qi, J.; Gu, J.; Ning, Y.; Miquelle, D. G.; Holyoak, M.; Wen, D.; Liang, X.; Liu, S. et al. (2021). "Integrated assessments call for establishing a sustainable meta-population of Amur tigers in Northeast Asia". Biological Conservation 261 (12): 109250. doi:10.1016/j.biocon.2021.109250. Bibcode2021BCons.26109250Q. 
  111. "PR: Announcement of Minimum Tiger number in Myanmar". 2019. https://www.wwf.org.mm/?350932/Announcement-of-Minimum-Tiger-number-in-Myanmar. 
  112. 112.0 112.1 Global Tiger Forum (2016). "Global wild tiger population status, April 2016". Global Tiger Forum, WWF. http://tigers.panda.org/wp-content/uploads/Background-Document-Wild-Tiger-Status-2016.pdf. 
  113. Howard, B. C. (2016). "Tiger Numbers Rise for First Time in a Century". National Geographic. http://news.nationalgeographic.com/2016/04/160410-tiger-numbers-rise-wwf-conservation-double-population/. 
  114. Daigle, K. (2016). "World's wild tiger count rising for first time in a century". Phys Org. http://phys.org/news/2016-04-world-wild-tiger-century.html. 
  115. Sanderson, E. W.; Forrest, J.; Loucks, C.; Ginsberg, J.; Dinerstein, E.; Seidensticker, J.; Leimgruber, P.; Songer, M. et al. (2010). "Setting Priorities for the Conservation and Recovery of Wild Tigers: 2005–2015". in Tilson, R.; Nyhus, P. J.. Tigers of the World: The Science, Politics and Conservation of Panthera tigris (Second ed.). London, Burlington: Academic Press. pp. 143–161. ISBN 978-0-08-094751-8. https://repository.si.edu/bitstream/handle/10088/11080/nzp_9_Sanderson.pdf?sequence=1. 
  116. van Uhm, D.P. (2016). The Illegal Wildlife Trade: Inside the World of Poachers, Smugglers and Traders (Studies of Organized Crime). New York: Springer. 
  117. "Traditional Chinese Medicine". World Wildlife Foundation. http://www.worldwildlife.org/what/globalmarkets/wildlifetrade/traditionalchinesemedicine.html. 
  118. Jacobs, A. (2010). "Tiger Farms in China Feed Thirst for Parts". The New York Times. https://www.nytimes.com/2010/02/13/world/asia/13tiger.html?_r=1. 
  119. Burke, Jason (20 January 2015). "India's tiger population increases by almost a third". The Guardian. https://www.theguardian.com/environment/2015/jan/20/india-tiger-population-increases-endangered-species. 
  120. "International Tiger Day 2019: PM Modi Releases Report, India counts 2967 Tigers". Jagran Josh. 2019. https://www.jagranjosh.com/current-affairs/international-tiger-day-2019-pm-modi-releases-report-india-counts-2967-tigers-1564375425-1. 
  121. "India almost doubled its tiger population, says Minister on International Tiger Day". 29 July 2022. https://newsonair.com/2022/07/29/india-almost-doubled-its-tiger-population-says-minister-on-international-tiger-day/. 
  122. "Tiger census: India now has 3,167 tigers, numbers show" (in en-GB). BBC News. 2023-04-10. https://www.bbc.com/news/world-asia-india-65229322. 
  123. "Front Page : Over half of tigers lost in 5 years: census". The Hindu. 13 February 2008. http://www.hindu.com/2008/02/13/stories/2008021357240100.htm. 
  124. Foster, P. (2007). "Why the tiger's future is far from bright". The Telegraph. https://www.telegraph.co.uk/comment/personal-view/3642330/Why-the-tigers-future-is-far-from-bright.html. 
  125. "Tiger Reserves". ENVIS Centre on Wildlife & Protected Areas. http://wiienvis.nic.in/Database/trd_8222.aspx. 
  126. Page, J. (2008). "Tigers flown by helicopter to Sariska reserve to lift numbers in western India". The Times (London). http://www.timesonline.co.uk/tol/news/world/asia/article4272945.ece. 
  127. "India reports sharp decline in wild tigers". National Geographic. 2008. http://news.nationalgeographic.com/news/2008/02/080213-AP-india-disap.html. 
  128. "It's the tale of a tiger, two tigresses in wilds of Sariska". EconomicTimes. 2009. http://economictimes.indiatimes.com/Earth/Its-the-tale-of-a-tiger-two-tigresses-in-wilds-of-Sariska/rssarticleshow/4212845.cms. 
  129. "Tigers galore in Ranthambhore National Park". The Hindu. 2009. http://www.hindu.com/2009/03/11/stories/2009031152382000.htm. 
  130. Goodrich, J.M.; Miquelle, D.G.; Smirnov, E.M.; Kerley, L.L.; Quigley, H.B.; Hornocker, M.G. (2010). "Spatial structure of Amur (Siberian) tigers (Panthera tigris altaica) on Sikhote-Alin Biosphere Zapovednik, Russia". Journal of Mammalogy 91 (3): 737–748. doi:10.1644/09-mamm-a-293.1. 
  131. "Amur (Siberian) tiger". World Wildlife Fund. http://wwf.panda.org/what_we_do/endangered_species/tigers/about_tigers/amur_tiger/. 
  132. Timothy, E.; Fulbright, D.; Hewitt, G. (2007). Wildlife Science: Linking Ecological Theory and Management Applications. CRC Press. ISBN 978-0-8493-7487-6. 
  133. Miquelle, D.; Darman, Y.; Seryodkin, I. (2011). "Panthera tigris ssp. altaica". IUCN Red List of Threatened Species (IUCN) 2011: e.T15956A5333650. doi:10.2305/IUCN.UK.2011-2.RLTS.T15956A5333650.en. https://www.iucnredlist.org/species/15956/5333650. 
  134. "Russia Announce Tiger Census Results" (in en). https://tigers.panda.org/news_and_stories/stories/russia_announce_tiger_census_results.cfm. 
  135. Tilson, R.; Defu, H.; Muntifering, J.; Nyhus, P. J. (2004). "Dramatic decline of wild South China tigers Panthera tigris amoyensis: field survey of priority tiger reserves". Oryx 38 (1): 40–47. doi:10.1017/S0030605304000079. 
  136. Nyhus, P. (2008). "Panthera tigris ssp. amoyensis". IUCN Red List of Threatened Species 2008: e.T15965A5334628. doi:10.2305/IUCN.UK.2008.RLTS.T15965A5334628.en. https://www.iucnredlist.org/species/15965/5334628. 
  137. Yeh, Emily T. (2012). "Transnational Environmentalism and Entanglements of Sovereignty: The Tiger Campaign Across the Himalayas". Political Geography 31 (7): 408–418. doi:10.1016/j.polgeo.2012.06.003. 
  138. "Animal Skin Clothes Burned in Tibet After Dalai Lamas Call". The Office of His Holiness the Dalai Lama. 17 February 2006. http://www.dalailama.com/news/post/27-animal-skin-clothes-burned-in-tibet-after-dalai-lamas-call. 
  139. Franklin, N., Bastoni, Sriyanto, Siswomartono, D., Manansang, J. and R. Tilson (1999). Last of the Indonesian tigers: a cause for optimism, pp. 130–147 in: Seidensticker, J., Christie, S. and Jackson, P. (eds). Riding the tiger: tiger conservation in human-dominated landscapes. Cambridge University Press, Cambridge, ISBN:0-521-64835-1.
  140. Tilson, R. (1999). Sumatran Tiger Project Report No. 17 & 18: July − December 1999. Grant number 1998-0093-059. Indonesian Sumatran Tiger Steering Committee, Jakarta.
  141. Nyhus, P., Sumianto and R. Tilson (1999). The tiger-human dimension in southeast Sumatra, pp. 144–145 in: Seidensticker, J., Christie, S. and Jackson, P. (eds). Riding the tiger: tiger conservation in human-dominated landscapes. Cambridge University Press, Cambridge, ISBN:0-521-64835-1.
  142. Rabinowitz, A. (2009). "Stop the bleeding: implementing a strategic Tiger Conservation Protocol". Cat News (51): 30–31. ISSN 1027-2992. http://www.panthera.org/sites/default/files/Rabinowitz_2009_Stop_the_Bleeding_Tiger_Conservation_Protocol.pdf. 
  143. Karanth, K.U.; Nichols, J.D.; Seidensticker, J.; Dinerstein, E.; Smith, J.L.D.; McDougal, C.; Johnsingh, A.J.T.; Chundawat, R.S. (2003). "Science deficiency in conservation practice: the monitoring of tiger populations in India". Animal Conservation 6 (2): 141–146. doi:10.1017/S1367943003003184. Bibcode2003AnCon...6..141K. https://repository.si.edu/bitstream/handle/10088/338/Karanth2003.pdf?sequence=1&isAllowed=y. 
  144. Gopalaswamy, A. M.; Royle, J. A.; Delampady, M.; Nichols, J. D.; Karanth, K. U.; Macdonald, D. W. (2012). "Density estimation in tiger populations: combining information for strong inference". Ecology 93 (7): 1741–1751. doi:10.1890/11-2110.1. PMID 22919919. Bibcode2012Ecol...93.1741G. 
  145. Caragiulo, A.; Pickles, R. S. A.; Smith, J. A.; Smith, O.; Goodrich, J.; Amato, G. (2015). "Tiger (Panthera tigris) scent DNA: a valuable conservation tool for individual identification and population monitoring". Conservation Genetics Resources 7 (3): 681–683. doi:10.1007/s12686-015-0476-9. Bibcode2015ConGR...7..681C. 
  146. Mahesh Rangarajan (2005). India's Wildlife History: An Introduction. New Delhi: Permanent Black. p. 32. ISBN 8178241404. https://www.researchgate.net/publication/249292987. Retrieved 3 August 2022. 
  147. "The Manpoora Tiger (about a Tiger Hunt in Rajpootanah)". The Treasures of Indian Wildlife. Mumbai: Bombay Natural History Society. 2005. pp. 22–27. ISBN 0195677285. 
  148. Lodh, S. (2020). "Portrayal of 'Hunting' in Environmental History of India". Altralang Journal 2 (02): 199. doi:10.52919/altralang.v2i02.84. https://www.univ-oran2.dz/revuealtralang/index.php/altralang/article/view/84. 
  149. "Shooting Tigers in Early 20th-Century India". 2018. https://imperialglobalexeter.com/2018/09/17/shooting-tigers-in-early-20th-century-india/. 
  150. Piper, P. J.; Ochoa, J.; Lewis, H.; Paz, V.; Ronquillo, W. P. (2008). "The first evidence for the past presence of the tiger Panthera tigris (L.) on the island of Palawan, Philippines: extinction in an island population". Palaeogeography, Palaeoclimatology, Palaeoecology 264 (1–2): 123–127. doi:10.1016/j.palaeo.2008.04.003. Bibcode2008PPP...264..123P. 
  151. Van der Geer, A.; Lyras, G.; De Vos, J.; Dermitzakis, M. (2011). "15 (The Philippines); 26 (Carnivores)". Evolution of Island Mammals: Adaptation and Extinction of Placental Mammals on Islands. John Wiley & Sons. pp. 220–347. ISBN 9781444391282. https://books.google.com/books?id=JmSsNuwMAxgC&pg=PT219. 
  152. Ochoa, J.; Piper, P. J. (2017). "Tiger". in Monks, G.. Climate Change and Human Responses: A Zooarchaeological Perspective. Springer. pp. 79–80. ISBN 978-9-4024-1106-5. https://books.google.com/books?id=e-hyDgAAQBAJ&pg=PA80. 
  153. Harding, Andrew (23 September 2006). "Beijing's penis emporium". BBC News. http://news.bbc.co.uk/2/hi/programmes/from_our_own_correspondent/5371500.stm. 
  154. Nowell, K. (2007). "Asian big cat conservation and trade control in selected range States: evaluating implementation and effectiveness of CITES Recommendations". TRAFFIC International. http://www.felidae.org/KNOWELLPUBL/abc_report.pdf. 
  155. "Chinese tiger farms must be investigated". WWF. 24 April 2007. http://www.wwf.org.uk/news/n_0000003865.asp. 
  156. "WWF: Breeding tigers for trade soundly rejected at CITES". Panda.org. 13 June 2007. http://www.panda.org/about_wwf/where_we_work/asia_pacific/where/bhutan/index.cfm?uNewsID=106740. 
  157. Jackson, Patrick (29 January 2010). "Tigers and other farmyard animals". BBC News. http://news.bbc.co.uk/2/hi/asia-pacific/8487122.stm. 
  158. "Conservationists shocked by Chinese admission of tiger skin selling". Shanghai Sun. http://www.shanghaisun.com/index.php/sid/223750073/scat/b8de8e630faf3631/ht/Conservationists-shocked-by-Chinese-admission-of-tiger-skin-selling. 
  159. Singh, Kesri (1959). The tiger of Rajasthan. Hale. 
  160. Byrne, Peter (2002). Shikari Sahib. Pilgrims Publishing. pp. 291–292. ISBN 978-81-7769-183-2. 
  161. Wood, G. (1983). The Guinness Book of Animal Facts and Feats. Guinness Superlatives. ISBN 978-0-85112-235-9. https://archive.org/details/guinnessbookofan00wood. 
  162. Corbett, J. (1944). Man-Eaters of Kumaon. Bombay: Oxford University Press. https://archive.org/details/in.ernet.dli.2015.458957. 
  163. The Man-Eater of Segur", from Nine Man-Eaters and One Rogue, Kenneth Anderson, Allen & Unwin, 1954
  164. "Climate change linked to Indian tiger attacks". Environmental News Network. 20 October 2008. http://www.enn.com/wildlife/article/38442. 
  165. Montgomery, Sy (2009). Spell of the Tiger: The Man-Eaters of Sundarbans. Chelsea Green Publishing. pp. 37–38. ISBN 978-0-395-64169-9. https://archive.org/details/spelloftigermane00mont/page/37. 
  166. Auguet, R. (1994). Cruelty and civilization: the Roman games. Psychology Press. pp. 83–85. ISBN 978-0-415-10453-1. 
  167. Baker, W. (1988). Sports in the Western World. University of Illinois Press. p. 33. ISBN 978-0-252-06042-7. https://archive.org/details/sportsinwesternw00bake/page/33. 
  168. Baratay, E. (2004). Zoo: A History of Zoological Gardens in the West. Reaktion Books. p. 19. ISBN 978-1-86189-208-9. 
  169. Nowell, K.; Ling, X. (2007). Taming the tiger trade: China's markets for wild and captive tiger products since the 1993 domestic trade ban. Hong Kong: TRAFFIC East Asia. http://www.worldwildlife.org/species/finder/tigers/WWFBinaryitem15400.pdf. 
  170. Wildlife Watch Group (2011). "Less than 3,000 Pet Tigers in America". Wildlife Times 5 (37): 12–13. http://www.citesnepal.org/download.php?id=18. 
  171. "Summary of State Laws Relating to Private Possession of Exotic Animals". Born Free USA. http://www.bornfreeusa.org/b4a2_exotic_animals_summary.php. 
  172. Sanderson, J.; Moulton, M. (1998). Wildlife Issues in a Changing World (Second ed.). CRC Press. p. 133. ISBN 978-1-4398-3262-2. 
  173. "Endangered tiger earns its stripes as the world's most popular beast". The Independent. December 6, 2004. http://findarticles.com/p/articles/mi_qn4158/is_20041206/ai_n12814678. 
  174. 174.0 174.1 174.2 Cooper, J. C. (1992). Symbolic and Mythological Animals. London: Aquarian Press. pp. 161–162. ISBN 978-1-85538-118-6. 
  175. "Tiger's Tail". Cultural China. http://history.cultural-china.com/Wise/wise173.html. 
  176. Curry, L. S.; Chan-Eun, P. (1999). A Tiger by the tail and other Stories from the heart of Korea. Englewood: Libraries Unlimited. ISBN 9780313069345. 
  177. Matthiessen, P.; Hornocker, M. (2008). Tigers in the Snow (reprint ed.). Paw Prints. ISBN 9781435296152. 
  178. Sivkishen (2014). Kingdom of Shiva. New Delhi: Diamond Pocket Books Pvt Ltd.. pp. 301. 
  179. Balambal, V. (1997). "19. Religion – Identity – Human Values – Indian Context". Bioethics in India: Proceedings of the International Bioethics Workshop in Madras: Biomanagement of Biogeoresources, 16–19 January 1997. Eubios Ethics Institute. http://www.eubios.info/india/BII19.HTM. Retrieved 8 October 2007. 
  180. Nanditha, K. (2010). Sacred Animals of India. Penguin Books India. ISBN 978-8184751826. https://penguin.co.in/book/sacred-animals-of-india/. Retrieved 5 August 2022. 
  181. Summers, M. (1933). The Werewolf in Lore and Legend (2012 ed.). Mineola: Dover Publications. p. 21. ISBN 978-0-517-18093-8. 
  182. Newman, P. (2012). Tracking the Weretiger: Supernatural Man-Eaters of India, China and Southeast Asia. McFarland. pp. 96–102. ISBN 978-0-7864-7218-5. https://books.google.com/books?id=PdPTM6NitwoC&q=weretiger&pg=PA97. 
  183. Hulick, J. (2009). "Review of Auntie Tiger". Bulletin of the Center for Children's Books 62 (6): 267. doi:10.1353/bcc.0.0662. 
  184. Dunbabin, K. M. D. (1999). Mosaics of the Greek and Roman World. Cambridge: Cambridge University Press. pp. 32, 44. ISBN 978-0-521-00230-1. https://books.google.com/books?id=U7Uu_Dq8oY4C. 
  185. Krishna-Dwaipayana Vyasa. "SECTION LXVIII". The Mahabharata. http://www.sacred-texts.com/hin/m07/m07065.htm. 
  186. Green, S. (2006). Tiger. Reaktion Books. pp. 72–73, 125–27. ISBN 978-1861892768. https://archive.org/details/tigerreaktionboo00gree/page/n73. 
  187. Castelli, J.-C. (2012). The Making of Life of Pi: A Film, a Journey. London: Harper Collins. ISBN 978-0062114136. 
  188. Kuznets, L. R. (1994). When Toys Come Alive: Narratives of Animation, Metamorphosis, and Development. Yale University Press. p. 54. ISBN 978-0300056457. https://archive.org/details/whentoyscomealiv00kuzn/page/54. 
  189. Gifford, C. (2005). Advertising & Marketing: Developing the Marketplace. Heinemann-Raintree Library. pp. 34–35. ISBN 978-1403476517. https://archive.org/details/advertisingmarke0000giff/page/34. 
  190. Hermann Kulke, K Kesavapany, Vijay Sakhuja (2009) Nagapattinam to Suvarnadwipa: Reflections on the Chola Naval Expeditions to Southeast Asia, Institute of Southeast Asian Studies, p. 84.
  191. Singh, U. (2008). A History of Ancient and Early Medieval India: From the Stone Age to the 12th Century. Delhi, Chennai: Pearson Education. ISBN 9788131711200. https://books.google.com/books?id=H3lUIIYxWkEC&pg=PAfront. 
  192. Somasundaram, D. (2013). Scarred Communities: Psychosocial Impact of Man-made and Natural Disasters on Sri Lankan Society. New Delhi: Sage Publications India. ISBN 9789353881054. 
  193. "National Animal". Government of India Official website. http://india.gov.in/knowindia/national_symbols.php?id=11. 
  194. DiPiazza, F.. Malaysia in Pictures. https://archive.org/details/malaysiainpictur0000dipi/page/14. 
  195. Fox-Davies, A. (1909). A Complete Guide to Heraldry. London: T. C. and E. C. Jack. pp. 191–192. https://archive.org/details/completeguidetoh00foxduoft. 

Further reading

External links


Wikidata ☰ {{{from}}} entry



Retrieved from "https://handwiki.org/wiki/index.php?title=Biology:Tiger&oldid=3636059"