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(Redirected from Water Buffalo) Species of large bovid This article is about the domesticated water buffalo. For its endangered wild ancestor, see Wild water buffalo. For the wild African species, see African buffalo. For other uses, see Water buffalo (disambiguation).

Water buffalo
Water buffalo spotted in Sylhet, Bangladesh
Conservation status
Domesticated
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Family: Bovidae
Subfamily: Bovinae
Genus: Bubalus
Species: B. bubalis
Binomial name
Bubalus bubalis
(Linnaeus, 1758)
Global distribution of the water buffalo in 2004
Synonyms

Bos bubalis Linnaeus, 1758

The water buffalo (Bubalus bubalis), also called domestic water buffalo, Asian water buffalo and Asiatic water buffalo, is a large bovid originating in the Indian subcontinent and Southeast Asia. Today, it is also kept in Italy, the Balkans, Australia, North America, South America and some African countries. Two extant types of water buffalo are recognized, based on morphological and behavioural criteria: the river buffalo of the Indian subcontinent and further west to the Balkans, Egypt and Italy; and the swamp buffalo from Assam in the west through Southeast Asia to the Yangtze Valley of China in the east.

The wild water buffalo (Bubalus arnee) most probably represents the ancestor of the domestic water buffalo. Results of a phylogenetic study indicate that the river-type water buffalo probably originated in western India and was domesticated about 6,300 years ago, whereas the swamp-type originated independently from Mainland Southeast Asia and was domesticated about 3,000 to 7,000 years ago. The river buffalo dispersed west as far as Egypt, the Balkans, and Italy; while swamp buffalo dispersed to the rest of Southeast Asia and up to the Yangtze Valley.

Water buffaloes were traded from the Indus Valley Civilisation to Mesopotamia, in modern Iraq, in 2500 BC by the Meluhhas. The seal of a scribe employed by an Akkadian king shows the sacrifice of water buffaloes.

Water buffaloes are especially suitable for tilling rice fields, and their milk is richer in fat and protein than that of dairy cattle. A large feral population became established in northern Australia in the late 19th century, and there are smaller feral herds in Papua New Guinea, Tunisia and northeastern Argentina. Feral herds are also present in New Britain, New Ireland, Irian Jaya, Colombia, Guyana, Suriname, Brazil, and Uruguay.

Taxonomy

A water buffalo skull

Carl Linnaeus first described the genus Bos and the water buffalo under the binomial Bos bubalis in 1758; the species was known to occur in Asia and was held as a domestic form in Italy. Ellerman and Morrison-Scott treated the wild and domestic forms of the water buffalo as conspecifics, whereas others treated them as different species. The nomenclatorial treatment of the wild and domestic forms has been inconsistent and varies between authors and even within the works of single authors.

In March 2003, the International Commission on Zoological Nomenclature achieved consistency in the naming of the wild and domestic water buffaloes by ruling that the scientific name Bubalus arnee is valid for the wild form. B. bubalis continues to be valid for the domestic form and applies also to feral populations.

In the early 1970s, different names were proposed for the river and swamp types of water buffalos; the river type was referred to as Bubalus bubalis bubalis (Linnaeus, 1758), while the swamp type was referred to as Bubalus bubalis carabanensis (Castillo, 1971). However, Bubalus carabanensis is considered a junior synonym of Bubalus kerabau Fitzinger, 1860.

Characteristics

See also: List of water buffalo breeds
An albino swamp buffalo in Chiang Mai province, Thailand

The skin of the river buffalo is black, but some specimens may have dark, slate-coloured skin. Swamp buffaloes have a grey skin at birth, which becomes slate blue later. Albinoids are present in some populations. River buffaloes have longer faces, smaller girths, and bigger limbs than swamp buffaloes. Their dorsal ridges extend further back and taper off more gradually. Their horns grow downward and backward, then curve upward in a spiral. Swamp buffaloes are heavy-bodied and stockily built, with a short body and large belly. The forehead is flat, the eyes are prominent, the face is short, and the muzzle is wide. The neck is comparatively long, and the withers and croup are prominent. A dorsal ridge extends backward and ends abruptly just before the end of the chest. Their horns grow outward and curve in a semicircle, but always remain more or less on the plane of the forehead. The tail is short, reaching only to the hocks. Size of the body and shape of horns may vary greatly among breeds. Height at the withers is 129–133 cm (51–52 in) for bulls and 120–127 cm (47–50 in) for cows, but large individuals may attain 160 cm (63 in). Head-lump length at maturity typically ranges from 240–300 cm (94–118 in) with a 60–100 cm (24–39 in) long tail. They range in weight from 300–550 kg (660–1,210 lb), but weights of over 1,000 kg (2,200 lb) have also been observed.

Tedong bonga is a piebald water buffalo featuring a unique black and white colouration that is favoured by the Toraja of Sulawesi.

The swamp buffalo has 48 chromosomes, while the river buffalo has 50 chromosomes. The two types do not readily interbreed, but fertile offspring can occur. Water buffalo-cattle hybrids have not been observed to occur, but the embryos of such hybrids reach maturity in laboratory experiments, albeit at lower rates than non-hybrids.

The rumen of the water buffalo differs from the rumen of other ruminants. It contains a larger population of bacteria, particularly the cellulolytic bacteria, lower protozoa, and higher fungi zoospores. In addition, higher levels of the rumen ammonia nitrogen (NH4-N) and pH have been found compared to those in cattle.

Ecology and behavior

Water buffaloes in the water
Water buffalo wallowing in mud

River buffaloes prefer deep water. Swamp buffaloes prefer to wallow in mudholes, which they make with their horns. During wallowing, they acquire a thick coating of mud. Both are well-adapted to a hot and humid climate with temperatures ranging from 0 °C (32 °F) in the winter to 30 °C (86 °F) and greater in the summer. Water availability is important in hot climates, since they need wallows, rivers, or splashing water to assist in thermoregulation. Some water buffalo breeds are adapted to saline seaside shores and saline sandy terrain.

Diet

Water buffaloes thrive on many aquatic plants. During floods, they graze submerged, raising their heads above the water and carrying quantities of edible plants. Water buffaloes eat reeds, Arundo donax, a kind of Cyperaceae, Eichhornia crassipes, and Juncaceae. Some of these plants are of great value to local peoples. Others, such as E. crassipes and A. donax, are a major problem in some tropical valleys and by eating them, the water buffaloes may help control these invasive plants.

Green fodders are widely used for intensive milk production and for fattening. Many fodder crops are conserved as hay, chaffed, or pulped. Fodders include alfalfa, the leaves, stems or trimmings of banana, cassava, Mangelwurzel, esparto, Leucaena leucocephala and kenaf, maize, oats, Pandanus, peanut, sorghum, soybean, sugarcane, bagasse, and turnips. Citrus pulp and pineapple wastes have been fed safely to buffalo. In Egypt, whole sun-dried dates are fed to milk buffalo up to 25% of the standard feed mixture.

Reproduction

A water buffalo calf in India

Swamp buffaloes generally become reproductive at an older age than river breeds. Young males in Egypt, India, and Pakistan are first mated around 3.0–3.5 years of age, but in Italy, they may be used as early as 2 years of age. Successful mating behaviour may continue until the animal is 12 years or even older. A good river buffalo male can impregnate 100 females in a year. A strong seasonal influence on mating occurs. Heat stress reduces libido.

Although water buffaloes are polyoestrous, their reproductive efficiency shows wide variation throughout the year. The cows exhibit a distinct seasonal change in displaying oestrus, conception rate, and calving rate. The age at the first oestrus of heifers varies between breeds from 13 to 33 months, but mating at the first oestrus is often infertile and usually deferred until they are 3 years old. Gestation lasts from 281 to 334 days, but most reports give a range between 300 and 320 days. Swamp buffaloes carry their calves for one or two weeks longer than river buffaloes. Finding water buffaloes that continue to work well at the age of 30 is not uncommon, and instances of a working life of 40 years have been recorded.

Domestication and breeding

Murrah buffalo herd at the Philippine Carabao Center
Trâu Nội buffaloes tied near a barn in Lào Cai, Vietnam

The most probable ancestor of domesticated water buffalo is the wild water buffalo (Bubalus arnee), which is native to the Indian subcontinent and tropical Southeast Asia. Two types of domesticated water buffalo are recognized, based on morphological and behavioural criteria – the river buffalo (of the western Indian subcontinent and west to the Levant, the Balkans, and the Mediterranean) and the swamp buffalo (found from Assam and East India in the west, east to the Yangtze Valley of China, and south through Indochina and Southeast Asia).

River- and swamp-type water buffalo are believed to have been domesticated independently. Results of a phylogenetic study indicate that the river-type water buffalo probably originated in western India and was probable domesticated about 6,300 years ago; the swamp-type originated independently from Mainland Southeast Asia, being domesticated between 3-7,000 years ago. The river buffalo dispersed west as far as Egypt, southern Europe, the Levant, and the Mediterranean regions; swamp buffalo dispersed in the opposite direction, to the rest of Southeast Asia, and as far as the Yangtze Valley in China.

Swamp-type water buffalo entered Island Southeast Asia from at least 2,500 years ago through the northern Philippines, where butchered remains of domesticated water buffalo have been recovered from the Neolithic Nagsabaran site (part of the Lal-lo and Gattaran Shell Middens, c. 2200 BCE to 400 CE). These became the ancestors of the distinctly swamp-type carabao buffalo breed of the Philippines which, in turn, spread to Guam, Indonesia, and Malaysia, among other smaller islands.

The present-day river buffalo is the result of complex domestication processes involving more than one maternal lineage and a significant maternal gene flow from wild populations after the initial domestication events. Twenty-two breeds of the river buffalo are known, including the Murrah, NiliRavi, Surti, Carabao, Anatolian, Mediterranean, and Egyptian buffaloes. China has a huge variety of water buffalo genetic resources, with 16 local swamp buffalo breeds in various regions.

Genetic studies

Results of mitochondrial DNA analyses indicate that the two types were domesticated independently. Sequencing of cytochrome b (CytB) genes of Bubalus species implies that the water buffalo originated from at least two populations, and that the river-type and the swamp-type have differentiated at the full species level. The genetic distance between the two types is so large that a divergence time of about 1.7 million years has been suggested. The swamp-type was noticed to have the closest relationship with the tamaraw of the northern Philippines.

A 2008 DNA analysis of Neolithic water buffalo remains in northern China (previously used as evidence of a Chinese domestication origin) found that the remains were of the extinct Bubalus mephistopheles and are not genetically related to modern domesticated water buffaloes. Another study in 2004 also concluded that the remains were from wild specimens. Both indicate that water buffaloes were first domesticated outside of China. Analyses of mitochondrial DNA and single-nucleotide polymorphism indicate that swamp and river buffaloes were crossbred in China.

A 2020 analysis of the genomes of 91 swamp and 30 river buffaloes showed that they separated already before domestication about 0.23 million years ago. A 2021 analysis of water buffalo and lowland anoa genomes unexpectedly found the anoa branching somewhere between swamp and river buffalos. A 2023 Filipino study using the CytB gene instead found the tamaraw branching between the two.

Distribution of populations

A carabao buffalo in the Philippines

By 2011, the global water buffalo population was about 172 million. The estimated global population of water buffalo is 208,098,759 head distributed in 77 countries in five continents.

In Asia

A water buffalo in Cambodia

More than 95.8% of the world population of water buffaloes are kept in Asia, including both the river-type and the swamp-type. The water buffalo population in India numbered over 97.9 million head in 2003, representing 56.5% of the world population. They are primarily of the river type, with 10 well-defined breeds: the Bhadawari, Banni, Jafarabadi, Marathwadi, Mehsana, Murrah, Nagpuri, Nili-Ravi, Pandharpuri, Surti, and Toda buffaloes. Swamp buffaloes occur only in small areas in northeastern India and are not distinguished into breeds.

Water buffaloes being washed in the Mutha river of Pune, India

In 2003, the second-largest population lived in China, with 22.76 million head, all of the swamp-type, with many breeds kept only in the lowlands, and other breeds kept only in the mountains; as of 2003, 3.2 million swamp-type carabao buffaloes were in the Philippines, nearly 3 million swamp buffaloes were in Vietnam, and roughly 773,000 buffaloes were in Bangladesh. About 750,000 head were estimated in Sri Lanka in 1997. In Japan, the water buffalo was used as a domestic animal throughout the Ryukyu Islands or Okinawa prefecture, however it is almost extinct now and mainly used as a tourist attraction. Per a 2015 report, about 836,500 water buffaloes were in Nepal.

The water buffalo is the main dairy animal in Pakistan, with 23.47 million head in 2010. Of these, 76% are kept in the Punjab. The rest are mostly kept in the province of Sindh. The water buffalo breeds used are the Nili-Ravi, Kundi, and Azi Kheli. Karachi alone has upwards of 400,000 head of water buffalo in 2021, which provide dairy as well as meat to the local population.

In Thailand, the number of water buffaloes dropped from more than 3 million head in 1996 to less than 1.24 million head in 2011. Slightly over 75% of them are kept in the country's northeastern region. By the beginning of 2012, less than one million were in the country, partly as a result of illegal shipments to neighbouring countries where sales prices are higher than in Thailand.

Water buffaloes are also present in the southern region of Iraq in the Mesopotamian Marshes. The draining of the Mesopotamian Marshes by Saddam Hussein was an attempt to punish the south for the 1991 Iraqi uprisings. After 2003 and the Firdos Square statue destruction, these lands were reflooded and a 2007 report on Maysan and Dhi Qar shows a steady increase in the number of water buffaloes. The report puts the number at 40,008 head in those two provinces.

In Europe and the Mediterranean

Buffaloes in Brașov County, Romania

Water buffaloes were probably introduced to Europe from India or other eastern sources. In Italy, the Longobard King Agilulf is said to have received water buffaloes around 600 AD. These were probably a present from the Khan of the Avars, a Turkic nomadic tribe that dwelt near the Danube River at the time. Sir H. Johnston knew of a herd of water buffaloes presented by a King of Naples to the Bey of Tunis in the mid-19th century that had resumed the feral state in northern Tunis.

European water buffaloes are all of the river-type and considered to be of the same breed named the Mediterranean buffalo. In Italy, the Mediterranean type was particularly selected and is called the Mediterranea Italiana buffalo to distinguish it from other European breeds, which differ genetically. Mediterranean buffalo are also kept in Romania, Bulgaria, Greece, Serbia, Albania, Kosovo, and North Macedonia, with a few hundred in the United Kingdom, Ireland, Germany, the Netherlands, Switzerland, and Hungary. Little exchange of breeding water buffaloes has occurred among countries, so each population has its own phenotypic features and performances. In Bulgaria, they were crossbred with the Indian Murrah breed, and in Romania, some were crossbred with Bulgarian Murrah. As of 2016, about 13,000 buffaloes were in Romania, down from 289,000 in 1989.

Populations in Turkey are of the Anatolian buffalo breed.

In Australia

A feral water buffalo in Australia

Between 1824 and 1849, swamp buffaloes were introduced into the Northern Territory, from Timor and Kisar and probably other islands in the Indonesian archipelago, to provide meat and hide. When the third attempt at settlement by the British on the Cobourg Peninsula was abandoned in 1849, the buffaloes were released. In the 1880s, a few river buffaloes were imported from India to Darwin for milk. Water buffalo have been the main grazing animals on the subcoastal plains and river basins between Darwin and Arnhem Land (the "Top End") since the 1880s. They became feral and caused significant environmental damage. Their only natural predators in Australia are crocodiles and dingoes, which can only prey on the younger animals. As a result, they were hunted in the Top End from 1885 until 1980.

In the early 1960s, an estimated population of 150,000 to 200,000 water buffaloes was living in the plains and nearby areas. The commencement of the brucellosis and tuberculosis campaign (BTEC) resulted in a huge culling program to reduce water buffalo herds to a fraction of the numbers that were reached in the 1980s. The BTEC was finished when the Northern Territory was declared free of the disease in 1997. Numbers dropped dramatically as a result of the campaign, but had recovered to an estimated 150,000 animals across northern Australia in 2008, and up to an estimated 200,000 by 2022. Both swamp and river buffaloes exist in feral populations, but swamp buffaloes are more prevalent than river buffaloes.

Significance to Aboriginal peoples

"Nganabbarru" is the Bininj Kunwok word for buffalo, which are represented in rock art paintings at Djabidjbakalloi. The buffalo left behind after the failed British attempt at settlement became a threat to the local Aboriginal peoples, as they had no guns at that time. As the herds expanded across into Arnhem Land, some local people seized the chance to hunt the animals for their hides in the 1880s, as they did not belong to anyone, unlike sheep and cattle. The industry continues to provide employment opportunities and income for traditional owners.

Uses

During the 1950s, water buffaloes were hunted for their skins and meat, which was exported and used in the local trade. In the late 1970s, live exports were made to Cuba and continued later into other countries. Swamp buffaloes are now crossed with river buffaloes in artificial insemination programs, and are kept in many areas of Australia. Some of these crossbreeds are used for milk production. Melville Island is a popular hunting location, where a steady population up to 4,000 individuals exists. Safari outfits are run from Darwin to Melville Island and other locations in the Top End, often with the use of bush pilots; buffalo horns, which can measure up to a record of 3.1 m (10 ft) tip-to-tip, are prized hunting trophies.

Water buffaloes were exported live to Indonesia until 2011, at a rate of about 3,000 per year. After the live export ban that year, the exports dropped to zero, and had not resumed as of June 2013. Tom Dawkins, CEO of NT Buffalo Industry Council, said in May 2022 that culling should be a last resort, given the flourishing and growing live export trade and economic benefits for Aboriginal people. By the end of 2021, cattle exports to Indonesia had dropped to the lowest level since 2012, while demand for buffalo was growing both in Australia and in Southeast Asia.

In South America

A Murrah buffalo on a Brazilian farm

Water buffaloes were introduced into the Amazon River basin in 1895. They are now extensively used there for meat and dairy production. In 2005, the water buffalo herd in the Brazilian Amazon stood at roughly 1.6 million head, of which 460,000 were located in the lower Amazon floodplains. The breeds used include the Mediterranean from Italy, the Murrah and Jafarabadi from India, and the carabao from the Philippines. The official Brazilian herd number in 2019 is 1.39 million head.

During the 1970s, small herds were imported to Costa Rica, Ecuador, Cayenne, Panama, Suriname, Guyana, and Venezuela.

In Argentina, many game ranches raise water buffaloes for commercial hunting.

Other important herds in South America are Colombia (>300.000), Argentina (>100.000) and Venezuela with unconfirmed reports ranging from 200 to 500 thousand head.

In North America

In 1974, four water buffaloes were imported to the United States from Guam to be studied at the University of Florida. In February 1978, the first herd arrived for commercial farming. Until 2002, only one commercial breeder was in the United States. Water buffalo meat is imported from Australia. Until 2011, water buffaloes were raised in Gainesville, Florida, from young obtained from zoo overflow. They were used primarily for meat production, and frequently sold as hamburger. Other U.S. ranchers use them for production of high-quality mozzarella cheese. Water buffaloes are also kept in the Caribbean, specifically in Trinidad and Tobago and Cuba.

Husbandry

Water buffaloes plowing rice fields in Java, Indonesia
Water buffalo dung is dried against the façade of a house in Yuanyang County, Yunnan, China.

The husbandry system of water buffaloes depends on the purpose for which they are bred and maintained. Most of them are kept by people who work on small farms in family units. Their water buffaloes live in close association with them, and are often their greatest capital asset. The women and girls in India generally look after the milking buffaloes, while the men and boys are concerned with the working animals. Throughout Asia, they are commonly tended by children who are often seen leading or riding their charges to wallows. Water buffaloes are the ideal animals for work in the deep mud of paddy fields because of their large hooves and flexible foot joints. They are often referred to as "the living tractor of the East". They are the most efficient and economical means of cultivation of small fields. In most rice-producing countries, they are used for threshing and for transporting the sheaves during the rice harvest. They provide power for oilseed mills, sugarcane presses, and devices for raising water. They are widely used as pack animals, and in India and Pakistan, for heavy haulage, also. In their invasions of Europe, the Turks used water buffaloes for hauling heavy battering rams. Their dung is used as a fertilizer, and as a fuel when dried.

Around 26 million water buffaloes are slaughtered each year for meat worldwide. They contribute 72 million tonnes of milk and three million tonnes of meat annually to world food, much of it in areas that are prone to nutritional imbalances. In India, river buffaloes are kept mainly for milk production and for transport, whereas swamp buffaloes are kept mainly for work and a small amount of milk.

Dairy products

Further information: List of water buffalo cheeses
Dairy products of water buffalo milk

Water buffalo milk presents physicochemical features different from those of other ruminant species, such as a higher content of fatty acids and proteins. The physical and chemical parameters of swamp-type and river-type water buffalo milk differ. Water buffalo milk contains higher levels of total solids, crude protein, fat, calcium, and phosphorus, and slightly higher content of lactose compared with those of cow milk. The high level of total solids makes water buffalo milk ideal for processing into value-added dairy products such as cheese. The conjugated linoleic acid content in water buffalo milk ranged from 4.4 mg/g fat in September to 7.6 mg/g fat in June. Seasons and genetics may play a role in variation of CLA level and changes in gross composition of water buffalo milk.

Water buffalo milk is processed into a large variety of dairy products, including:

Top 10 water buffalo milk producers—2020
Country Production (tonnes) Note
India 90,026,273
Pakistan 37,256,000
China 2,919,966
Egypt 1,747,641
Nepal 1,380,600
Italy 253,830
Myanmar 205,102
Iran 128,000
Mongolia 104,645
Indonesia 89,983
 World 134,425,197
  1. unofficial, semi-official, mirror data
  2. official figure
  3. ^ FAO estimate

Meat and skin products

Main article: Buffalo meat

Water buffalo meat, sometimes called "carabeef", is often passed off as beef in certain regions, and is also a major source of export revenue for India. In many Asian regions, water buffalo meat is less preferred due to its toughness; however, recipes have evolved (rendang, for example) where the slow cooking process and spices not only make the meat palatable, but also preserve it, an important factor in hot climates where refrigeration is not always available.

Their hides provide tough and useful leather, often used for shoes.

Bone and horn products

A bihu dancer blowing a hornpipe

The bones and horns are often made into jewellery, especially earrings. Horns are used for the embouchure of musical instruments, such as ney and kaval.

Environmental effects

Wildlife conservation scientists have started to recommend and use introduced populations of feral water buffaloes in far-away lands to manage uncontrolled vegetation growth in and around natural wetlands. Introduced water buffaloes at home in such environs provide cheap service by regularly grazing the uncontrolled vegetation and opening up clogged water bodies for waterfowl, wetland birds, and other wildlife. Grazing water buffaloes are sometimes used in Great Britain for conservation grazing, such as in the Chippenham Fen National Nature Reserve. The water buffaloes can better adapt to wet conditions and poor-quality vegetation than cattle.

In uncontrolled circumstances, though, water buffaloes can cause environmental damage, such as trampling vegetation, disturbing bird and reptile nesting sites, and spreading exotic weeds.

Reproductive research

In vitro fertilization

In 2004, Philippine Carabao Center (PCC) in Nueva Ecija produced the first swamp-type water buffalo born from an in vitro-produced, vitrified embryo. It was named "Glory" after President Gloria Macapagal Arroyo. Joseph Estrada's most successful project as an opposition senator, the PCC was created through Republic Act 3707, the Carabao Act of 1992.

There have been many attempts at creating hybrids between domestic cattle and domestic water buffaloes, however, to date, none have been successful; the embryos usually only get to the 8-cell stage before failing.

Cloning

The first cloned water buffalos were born in 2007. Chinese scientists used micromanipulation-based somatic cell nuclear transfer (SCNT) produce several clones of a swamp-type water buffalo. Three calves were born; two died young.

In 2007, the PCC announced plans to clone the swamp-type water buffalo. The plan was to use as a tool for genetic improvement in water buffaloes to produce "super buffalo calves" by multiplying existing germplasms, but without modifying or altering genetic material. A 2009 Voice of America article says the PCC is "close to producing the world's first water buffalo clone".

In 2009, National Dairy Research Institute (Karnal, India) cloned a river-type water buffalo using a simplified SCNT procedure they called "handmade cloning". The calf, named Samrupa, did not survive more than a week due to genetic defects. A few months later, a second cloned calf named Garima was successfully born. The Central Institute for Research on Buffaloes, India's premier research institute on water buffaloes, also became the second institute in the world to successfully clone the water buffalo in 2016.

In culture

  • In the Thai and Sinhalese animal and planetary zodiac, the water buffalo is the third animal zodiac of the Thai and the fourth animal zodiac of the Sinhalese people of Sri Lanka.
  • Some ethnic groups, such as Batak and Toraja in Indonesia and the Derung in China, sacrifice water buffaloes or kerbau (called horbo in Batak or tedong in Toraja) at several festivals.
  • The Minangkabau of West Sumatra adorn their houses and clothing with motifs based on the buffalo's horns as a tribute to the legend that pitted a buffalo (kabau) chosen by their kingdom against one by (traditionally) the Majapahit empire, to which their kingdom won.
  • In Chinese tradition, the water buffalo is associated with a contemplative life.
  • A water buffalo head was a symbol of death in Tibet.
  • The carabao is considered a national symbol of the Philippines, although this has no basis in Philippine law.
  • In Indian mythology, the Hindu god of death, Yama, rides on a water buffalo.
  • A male water buffalo is sacrificed in many parts of India during festivals associated Shaktism sect of Hinduism.
  • Legend has it that Chinese philosophical sage Laozi left China through the Hangu Pass riding a water buffalo.
  • In Gujarat and some parts of Rajasthan in India, mostly in Rayka, as well as many other communities, many worship the goddess Vihat, who uses a male water buffalo as her Vahana. Also, the goddess Varahi in Indian culture is shown to possess a water buffalo and ride it.
  • According to folklore, Mahishasura, a half-buffalo and half-human demon, was killed by the goddess Durga.
  • In Vietnam, water buffaloes are often the most valuable possession of poor farmers.
  • Many ethnic groups use the horns of water buffaloes as a game trophy, or for musical instruments and ornaments. Similarly, the water buffalo is the second animal zodiac in the Vietnamese zodiac.

Fighting festivals

Filipinos and American soldiers observed a water buffalo fight in 1906.
An unstaged water buffalo fight
  • The Pasungay Festival is held annually in the town of San Joaquin, Iloilo, the Philippines.
  • The Moh juj Water Buffalo Fighting Festival is held every year in Bhogali Bihu in Assam.
  • The Do Son Water Buffalo Fighting Festival of Vietnam is held each year on the ninth day of the eighth month of the lunar calendar at Do Son Township, Haiphong City, Vietnam. It is one of the most popular Vietnam festivals and events in Haiphong City. The preparations for this buffalo fighting festival begin from the two to three months earlier. The competing water buffalo are selected and methodically trained months in advance. It is a traditional festival of Vietnam attached to a Water God worshiping ceremony and the Hien Sinh custom to show the martial spirit of the local people of Do Son, Haiphong.
  • The Hai Luu Water Buffalo Fighting Festival of Vietnam has existed since the second century BC. General Lu Gia, at that time, had the water buffalo slaughtered to give a feast to the local people and the warriors, and organized buffalo fighting for amusement. Eventually, all the fighting water buffaloes will be slaughtered as tributes to the deities.
  • The Ko Samui Water Buffalo Fighting Festival of Thailand is a popular event held on special occasions such as New Year's Day in January, and Songkran in mid-April. This festival features head-wrestling bouts in which two male water buffaloes are pitted against one another. Unlike in Spanish-style bullfighting, wherein bulls get killed while fighting sword-wielding men, the festival held at Ko Samui is a fairly harmless contest. The fighting season varies according to ancient customs and ceremonies. The first water buffalo to turn and run away is considered the loser; the winning water buffalo becomes worth several million baht.
  • The Ma'Pasilaga Tedong Water Buffalo Fighting Festival, in Tana Toraja Regency of Sulawesi Island, Indonesia, is a popular event where the Rambu Solo or a Burial Festival takes place in Tana Toraja.

Racing festivals

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  • The Carabao Carroza Festival is held annually every May in the town of Pavia, Iloilo, the Philippines.
  • The Kambala races of Karnataka, India, take place between October and March. The races are conducted by having the water buffaloes (bulls) run in long parallel slushy ditches, where they are driven by men standing on wooden planks drawn by the water buffaloes. The objectives of the race are to finish first and to raise the water to the greatest height. It is also a rural sport. Kambala races are arranged with competition, as well as without competition, and as a part of thanksgiving (to God) in about 50 villages of coastal Karnataka.
  • Chonburi Province of Thailand, and in Pakistan, annual water buffalo races are held.
  • The Chon Buri water buffalo racing festival, in downtown Chonburi, 70 km (43 mi) south of Bangkok, an annual water buffalo festival is held in mid-October. About 300 water buffaloes race in groups of five or six, spurred on by bareback jockeys wielding wooden sticks, as hundreds of spectators cheer. The water buffalo has always played an important role in agriculture in Thailand. For the farmers, it is an important festival. It is also a celebration among rice farmers before the rice harvest. At dawn, farmers walk their water buffaloes through the surrounding rice fields, splashing them with water to keep them cool before leading them to the race field.
  • The Babulang water buffalo racing festival in Sarawak, Malaysia, is the largest or grandest of the many rituals, ceremonies and festivals of the traditional Bisaya community of Limbang, Sarawak. Highlights are the Ratu Babulang competition and the water buffalo races, which can only be found in this town in Sarawak, Malaysia.
  • At the Vihear Suor village water buffalo racing festival, Cambodia, each year, people visit Buddhist temples across the country to honor their deceased loved ones during a 15-day period commonly known as the Festival of the Dead, but in Vihear Suor village, about 22 mi (35 km) northeast of Phnom Penh, citizens each year wrap up the festival with a water buffalo race to entertain visitors and honour a pledge made hundreds of years ago. There was a time when many village cattle which provide rural Cambodians with muscle power to plow their fields and transport agricultural products died from an unknown disease. The villagers prayed to a spirit to help save their animals from the disease and promised to show their gratitude by holding a water buffalo race each year on the last day of the "P'chum Ben" festival, as it is known in Cambodia. The race draws hundreds of spectators, who come to see riders and their animals charge down the racing field, the racers bouncing up and down on the backs of their water buffaloes, whose horns were draped with colorful cloth.
  • Buffalo racing in Kerala is similar to the Kambala races.
  • A carabao cart in the Philippines in 1899 A carabao cart in the Philippines in 1899
  • Water buffalo racing at Babulang 2006 Water buffalo racing at Babulang 2006
  • A water buffalo race at Vandar village, Udupi district, India A water buffalo race at Vandar village, Udupi district, India

Religious festival

  • The Pulilan Carabao Festival is held annually every 14 and 15 May in the Philippine town of Pulilan in honor of St. Isidore the Laborer, the patron saint of farmers. As thanksgiving for a bountiful harvest every year, farmers parade their carabaos in the main town street, adorning them with garlands and other decorations. One of the highlights of the festival is the kneeling of the carabaos in front of the parish church.

See also

References

  1. ^ Cockrill, W. R. (1977). The water buffalo (PDF). Rome: Animal Production and Health Series No. 4. Food and Agriculture Organization of the United Nations. Archived from the original (PDF) on 16 June 2013.
  2. ^ Cockrill, W. R., ed. (1974). The husbandry and health of the domestic buffalo. Rome: Food and Agriculture Organization of the United Nations.
  3. Lau, C. H.; Drinkwater, R. D.; Yusoff, K.; Tan, S. G.; Hetzel, D. J. S.; Barker, J. S. F. (1998). "Genetic diversity of Asian water buffalo (Bubalus bubalis): mitochondrial DNA D-loop and cytochrome b sequence variation" (PDF). Animal Genetics. 29 (4): 253–264. doi:10.1046/j.1365-2052.1998.00309.x. PMID 9745663.
  4. ^ Zhang, Y.; Colli, L. & Barker, J. S. F. (2020). "Asian water buffalo: domestication, history and genetics". Animal Genetics. 51 (2): 177–191. doi:10.1111/age.12911. PMID 31967365.
  5. ^ Liu, Li; Chen, Xingcan; Jiang Leping (2004). "A study of Neolithic water buffalo remains from Zhejiang, China". Indo-Pacific Prehistory Association Bulletin. 24 (Taipei Papers 2): 113–120.
  6. ^ Yang, Dongya Y.; Liu, Li; Chen, Xingcan; Speller, Camilla F. (October 2008). "Wild or domesticated: DNA analysis of ancient water buffalo remains from north China". Journal of Archaeological Science. 35 (10): 2778–2785. Bibcode:2008JArSc..35.2778Y. doi:10.1016/j.jas.2008.05.010.
  7. McIntosh, J. (2008). The Ancient Indus Valley: New Perspectives. Santa Barabara: ABC-CLIO. ISBN 9781576079072.
  8. Khan, G.; Church, S. K.; Harding, R.; Lunde, P.; McIntosh, J.; Stone, C. (2011). "The First Civilizations in Contact: Mesopotamia and the Indus". Civilizations in Contact, Faculty of Asian and Middle Eastern Studies, University of Cambridge. Cambridge. Archived from the original on 3 April 2019. Retrieved 11 December 2014.
  9. Long, J. L. (2003). Introduced Mammals of the World: Their History, Distribution and Influence. Collingwood, Australia: Csiro Publishing. ISBN 9780643099166.
  10. Linnaeus, C. (1758). "Bos Bubalis". Systema naturæ per regna tria naturæ, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Vol. v.1 (10 ed.). Holmiae: Laurentii Salvii. p. 72.
  11. Ellerman, J.R. & Morrison-Scott, T. C. S. (1966). "Genus Bubalus H. Smith, 1827". Checklist of Palaearctic and Indian mammals 1758 to 1946 (Second ed.). London: British Museum of Natural History. pp. 383–384.
  12. Corbet, G.B. & Hill, J.E. (1987). A World List of Mammalian Species (Second ed.). London: British Natural History Museum. ISBN 0565009885.
  13. Groves, C. P. (1971). "Request for a declaration modifying Article 1 so as to exclude names proposed for domestic animals from Zoological Nomenclature". Bulletin of Zoological Nomenclature. 27: 269–272. doi:10.5962/bhl.part.29464.
  14. International Commission on Zoological Nomenclature (2003). "Opinion 2027 (Case 3010). Usage of 17 specific names based on wild species which are predated by or contemporary with those based on domestic animals (Lepidoptera, Osteichthyes, Mammalia): conserved". Bulletin of Zoological Nomenclature. 60: 81–84.
  15. Gentry, A.; Clutton-Brock, J. & Groves, C. P. (2004). "The naming of wild animal species and their domestic derivatives" (PDF). Journal of Archaeological Science. 31 (5): 645–651. Bibcode:2004JArSc..31..645G. doi:10.1016/j.jas.2003.10.006. Archived from the original (PDF) on 10 May 2012.
  16. ^ Curaudeau, M.; Rozzi, R.; Hassanin, A. (2021). "The genome of the lowland anoa (Bubalus depressicornis) illuminates the origin of river and swamp buffalo". Molecular Phylogenetics and Evolution. 161: 107170. Bibcode:2021MolPE.16107170C. doi:10.1016/j.ympev.2021.107170. PMID 33798669. S2CID 232772124.
  17. de Melo, B.A.; Nascimento, I.D.M.; Santos, L.T.A.D.; de Lima, L.G.; de Araújo, F.C.T.; Rios, R.R.S.; Couto, A.D.G. & Fraga, A.B. (2018). "Body morphometric measurements in Murrah crossbred buffaloes (Bubalus bubalis)". Journal of Applied Animal Research. 46 (1): 1307–1312. doi:10.1080/09712119.2018.1502669. S2CID 91784677.
  18. Priyanto, D., Suradissastra, K. (2010). Ko-evolusi dan Panarchy: Integrasi Ternak Kerbau dalam Sistem Sosial Etnis Toraja Archived 13 May 2013 at the Wayback Machine. Seminar dan Lokakarya Nasional Kerbau 2010
  19. Kochhar, H. P.; Rao, K. B.; Luciano, A. M.; Totey, S. M.; Gandolfi, F.; Basrur, P. K.; King, W. A. (2002). "In vitro production of cattle-water buffalo (Bos taurus - Bubalus bubalis) hybrid embryos". Zygote. 102 (2): 155–162. doi:10.1017/S0967199402002216. PMID 12056456. S2CID 9950985.
  20. Wanapat, M.; Ngarmsang, A.; Korkhuntot, S.; Nontaso, N.; Wachirapakorn, C.; Beakes, G.; Rowlinson, P. (1 July 2000). "A Comparative Study on the Rumen Microbial Population of Cattle and Swamp Buffalo Raised under Traditional Village Conditions in the Northeast of Thailand" (PDF). Asian-Australasian Journal of Animal Sciences. 13 (7): 918–921. doi:10.5713/ajas.2000.918. ISSN 2765-0189.
  21. Wanapat, M. (2001). "Swamp buffalo rumen ecology and its manipulation". Proceedings Buffalo Workshop.
  22. ^ Borghese, A., Mazzi, M. (2005). Buffalo Population and Strategies in the World. Pages 1–39 in Borghese, A. (ed.) Buffalo Production and Research. REU Technical Series 67. Inter-regional Cooperative Research Network on Buffalo, FAO Regional Office for Europe, Rome.
  23. Barile, V. L. (2005). "Reproductive Efficiency in Female Buffaloes". pp. 77–108 in Borghese, A. (ed.) Buffalo Production and Research Archived 20 October 2013 at the Wayback Machine. REU Technical Series 67. Inter-regional Cooperative Research Network on Buffalo, FAO Regional Office for Europe, Rome.
  24. Groves, C. P. (2006). "Domesticated and Commensal Mammals of Austronesia and Their Histories". In Bellwood, P.; Fox, J. J.; Tryon, D. (eds.). The Austronesians. Canberra: Research School of Pacific Studies, The Australian National University. pp. 161–176. doi:10.22459/A.09.2006.08. ISBN 9780731521326.
  25. Amano, Noel; Piper, Philip J.; Hung, Hsiao-chun; Bellwood, Peter (2013). "Introduced Domestic Animals in the Neolithic and Metal Age of the Philippines: Evidence From Nagsabaran, Northern Luzon". The Journal of Island and Coastal Archaeology. 8 (3): 317–335. doi:10.1080/15564894.2013.781084. hdl:1885/22954. S2CID 131368496.
  26. Mijares, Armand Salvador B. (2006). "The early Austronesian migration to Luzon: perspectives from the Peñablanca Cave Sites". Indo-Pacific Prehistory Association Bulletin. 26: 72–78. CiteSeerX 10.1.1.403.7868.
  27. Kumar, S.; Nagarajan, M.; Sandhu, J. S.; Kumar, N.; Behl, V. (2007). "Phylogeography and domestication of Indian river buffalo". BMC Evolutionary Biology. 7 (1): 186. Bibcode:2007BMCEE...7..186K. doi:10.1186/1471-2148-7-186. PMC 2140268. PMID 17915036.
  28. ^ Moioli, B. and A. Borghese (2005). Buffalo Breeds and Management Systems. Pages 51–76 in Borghese, A. (ed.) Buffalo Production and Research Archived 20 October 2013 at the Wayback Machine. REU Technical Series 67. Inter-regional Cooperative Research Network on Buffalo, FAO Regional Office for Europe, Rome.
  29. Kumar, S.; Nagarajan, M.; Sandhu, J. S.; Kumar, N.; Behl, V. & Nishanth, G. (2007). "Mitochondrial DNA analyses of Indian water buffalo support a distinct genetic origin of river and swamp buffalo" (PDF). Animal Genetics. 38 (3): 227–232. doi:10.1111/j.1365-2052.2007.01602.x. PMID 17459014. Archived from the original (PDF) on 4 March 2016. Retrieved 19 February 2013.
  30. Tanaka, Kazuaki; Solis, Chester D.; Masangkay, Joseph S.; Maeda, Kei-Ichiro; Kawamoto, Yoshi; Namikawa, Takao (1996). "Phylogenetic relationship among all living species of the genus Bubalus based on DNA sequences of the cytochrome b gene". Biochemical Genetics. 34 (11–12): 443–452. doi:10.1007/BF00570125. PMID 9126673. S2CID 22075565.
  31. Pérez-Pardal, L.; Chen, S.; Costa, V.; Liu, X.; Carvalheira, J. & Beja-Pereira, A. (2018). "Genomic differentiation between swamp and river buffalo using a cattle high-density single nucleotide polymorphisms panel". Animal. 12 (3): 464–471. Bibcode:2018Anim...12..464P. doi:10.1017/S1751731117001719. PMID 28735584. S2CID 206340224.
  32. Sun, T.; Shen, J.; Achilli, A.; Chen, N.; Chen, Q.; Dang, R.; Zheng Z; Zhang, H.; Lei, C.; Zhang, X.; Wang, S.; Zhang, T.; Lu, H.; Ma, Y.; Jia, Y.; Capodiferro, M.R.; Huang, Y.; Lan, X.; Chen, H. & Jiang, Y. (2020). "Genomic analyses reveal distinct genetic architectures and selective pressures in buffaloes". GigaScience. 9 (2): giz166. doi:10.1093/gigascience/giz166. PMC 7033652. PMID 32083286.
  33. Cailipan, Therese Patricka; Paraguas, Alexander; Cuanang, Aivhie Jhoy; Soliven, Nelvie Fatima Jane; Roño, John Gregor; Fontanilla, Francis; Servo, Emerson; Cao, Ernelea; Fontanilla, Ian Kendrich; Villamor, Lilian (5 September 2023). "Molecular Data and Karyotype Revealed Two Distinct Species of Domesticated Water Buffaloes in the Philippines". Philippine Journal of Science. 152 (5). doi:10.56899/152.05.27. S2CID 263317713.
  34. Borghese, A. (2011). "Situation and Perspectives of Buffalo in the World, Europe and Macedonia" Archived 4 March 2016 at the Wayback Machine. Macedonian Journal of Animal Science 1 (#2): 281–296.
  35. ^ Minervino, A.H.H.; Zava, M.; Vecchio, D.; Borghese, A. (2020). "Bubalus bubalis: A Short Story". Frontiers in Veterinary Science. 7: 570413. doi:10.3389/fvets.2020.570413. PMC 7736047. PMID 33335917.
  36. ^ C. V. Singh, R. S. Barwal (2010). Buffalo Breeding Research and Improvement Strategies in India. In: The Buffalo in the World. Proceedings of the 9th World Buffalo Congress, Buenos Aires, April 2010, pages 1024–1031. Archived 17 April 2012.
  37. Faruque, M. O.; Nomura, K.; Takahashi, Y.; Amano, T. (2004). "Genetic diversity of Asian water buffalo" (PDF). Present Status and Genetic Variability of Animal Genetic Resources in Asian Region. Proceedings of the 10th NIAS International Workshop on Genetic Resources. Tsukuba, Japan: National Institute of Agrobiological Sciences (NIAS). pp. 61–79.
  38. Micallef, H. (2015-11-24) Water Buffalo Milk Soap Archived 18 August 2021 at the Wayback Machine. saknepal.org
  39. Agricultural Census Commission (2012). Pakistan Agricultural Census 2010. Archived 27 December 2013 at the Wayback Machine Government of Pakistan, Statistics Division, Agricultural Census Organization, Lahore.
  40. FAO (2013). Breeds reported by Pakistan: Buffalo. Domestic Animal Diversity Information System, Food and Agriculture Organisation of the United Nations, Rome.
  41. "In Karachi's cattle colonies, thousands of newborn buffaloes illegally killed each year". Arab News PK. 2 February 2021. Retrieved 6 November 2022.
  42. Moustafa, A. M.; Ali, S. N.; Bennett, M. D.; Hyndman, T. H.; Robertson, I. D.; Edwards, J. (April 2017). "A Case-control Study of Haemorrhagic Septicaemia in Buffaloes and Cattle in Karachi, Pakistan, in 2012". Transboundary and Emerging Diseases. 64 (2): 520–527. doi:10.1111/tbed.12393. hdl:1983/16f5e846-aea1-4b02-9dae-a268dac7f5df. PMID 26189329. S2CID 9463614.
  43. Uriyapongson, Suthipong (2013). "Buffalo and Buffalo Meat in Thailand". Buffalo Bulletin. 32 (Sp. 1). Citeseer: 329–332.
  44. Abid, H. (2007). "Water Buffalo in the Iraqi Marshes" (PDF). Nature Iraq: 29.
  45. Lydekker, R. (1898). "The Indian buffalo – Bos bubalis". Wild Oxen, Sheep, and Goats of all Lands. London: Rowland Ward. pp. 118–128.
  46. Rushe, Elizabeth. "Ireland's First Water Buffalo Farmer Signs €1M Contract with Aldi Ireland". Forbes. Retrieved 16 November 2023.
  47. "Only 13 000 buffalo left in Romania". European Parliament. 18 March 2016.
  48. ^ Letts, G. A. (1964). "Feral Animals in the Northern Territory". Australian Veterinary Journal. 40 (3): 84–88. doi:10.1111/j.1751-0813.1964.tb01703.x.
  49. ^ "Feral Water Buffalo". Trishan. 2021. Retrieved 4 June 2022.
  50. ^ Chaseling, O. (2022). "Photographer David Hancock's 30-year journey documenting Australia's wild buffalo". ABC News. Retrieved 4 June 2022.
  51. Jenkins, D.J.; Williams, T.; Raidal, S.; Gauci, C.; Lightowlers, M.W. (2019). "The first report of hydatid disease (Echinococcus granulosus) in an Australian water buffalo (Bubalus bubalis)". International Journal for Parasitology: Parasites and Wildlife. 8: 256–259. Bibcode:2019IJPPW...8..256J. doi:10.1016/j.ijppaw.2019.03.011. PMC 6430717. PMID 30976509.
  52. ^ "The feral water buffalo (Bubalus Bubalis)" (PDF). Department of Sustainability, Environment, Water, Population and Communities. 2011.
  53. Sharp, K. (2009). Frontier to the Crossroads. Outback Magazine 67:
  54. "Buffalo exports still suffering". ABC Radio National. RN Breakfast. 10 June 2013. Retrieved 4 June 2022.
  55. "November cattle exports slow while buffalo shipments grow". Beef Central. 17 December 2021. Retrieved 4 June 2022.
  56. Sheikh, P.A.; Merry, F.D.; McGrath, D.G. (2006). "Water buffalo and cattle ranching in the Lower Amazon Basin: Comparisons and conflicts". Agricultural Systems. 87 (3): 313–330. Bibcode:2006AgSys..87..313S. doi:10.1016/j.agsy.2005.02.003.
  57. ^ National Research Council (U.S.). (2002). The Water Buffalo: New Prospects for an Underutilized Animal : Report. National Academy Press, Washington, D.C.
  58. "Pointer Big Game | WATER BUFFALO". www.pointerbiggame.com. Retrieved 6 November 2022.
  59. "Buffalos find home on the kitchen range // Sought-after meat lower than beef in cholesterol, fat" (1989). Austin American Statesman: D3
  60. Mehren, E. (2003-10-09). "Water buffalo enlisted for Vermont venture" Chicago Tribune.
  61. Mehren, E. (2003-09-22). "A Taste of Italy, Via Vermont" (2003). Los Angeles Times
  62. "Buffalo make the mozzarella" . Los Angeles Times. Associated Press (2006-11-23).
  63. Fletcher, J. (2006-08-10). "Buffalo milk's curds and whey" Archived 20 June 2015 at the Wayback Machine. San Francisco Chronicle.
  64. Borghese, A. (2005). "Buffalo Production and Research". REU Technical Series (67).
  65. "Crops and livestock products". fao.org. Retrieved 25 October 2019.
  66. D'Ambrosio, C.; Arena, S.; Salzano, A.M.; Renzone, G.; Ledda, L.; Scaloni, A. (2008). "A proteomic characterization of water buffalo milk fractions describing PTM of major species and the identification of minor components involved in nutrient delivery and defense against pathogens". Proteomics. 8 (17): 3657–3666. doi:10.1002/pmic.200701148. PMID 18668696. S2CID 25778239.
  67. Khan, M.A.S.; Islam, M. N.; Siddiki, M.S.R. (2007). "Physical and chemical composition of swamp and water buffalo milk: a comparative study". Italian Journal of Animal Science. 6 (Suppl. 2): 1067–1070. doi:10.4081/ijas.2007.s2.1067.
  68. Han, X.; Lee, F.L.; Zhang, L. & Guo, M.R. (2012). "Chemical composition of water buffalo milk and its low-fat symbiotic yogurt development" (PDF). Functional Foods in Health and Disease. 2 (4): 86–106. doi:10.31989/ffhd.v2i4.96.
  69. ^ Borghese, A. (2005). "Buffalo Cheese and Milk Industry". In Borghese, A. (ed.). Buffalo Production and Research. REU Technical Series 67. Rome: Inter-regional Cooperative Research Network on Buffalo, FAO Regional Office for Europe. pp. 185–195.
  70. "[no title cited]". Food and Agricultural Organization / Economic and Social Department / Statistical Division. United Nations. 17 May 2022. Archived from the original on 26 July 2011. Retrieved 17 May 2022.
  71. "Why Wear Horn Earrings?" (PDF). Bandaru Organics. Archived from the original (PDF) on 10 March 2016. Retrieved 14 August 2014.
  72. BBC News February 2004 Buffalo improve wildlife habitat Archived 27 March 2012 at the Wayback Machine
  73. ""Buffaloes and wetlands" -- grazing in wetland management: A discussion from the Ramsar Forum over late March 1998". Archived from the original on 2 February 2009. Retrieved 18 September 2007.
  74. Natural England (2008). "Buffalo improve wildlife habitat in Cambridgeshire". Natural England East of England press office.
  75. Roth, J. & P. Myers (2004). "Bubalis Bubalis". University of Michigan Museum of Zoology Animal Diversity Web.
  76. Uy, J. (2007). "'Super carabao' making the scene in year of the rats". inquirer.net.
  77. Patil, S.; Totey, S. (2003). "Developmental failure of hybrid embryos generated by in vitro fertilization of water buffalo (Bubalus bubalis) oocyte with bovine spermatozoa". Molecular Reproduction and Development. 64 (3): 360–368. doi:10.1002/mrd.10269. PMID 12548668. S2CID 34587206.
  78. ^ Selokar, Naresh L.; Saini, Monika; Palta, Prabhat; Chauhan, Manmohan S.; Manik, Radhey S.; Singla, Suresh K. (April 2018). "Cloning of Buffalo, a Highly Valued Livestock Species of South and Southeast Asia: Any Achievements?". Cellular Reprogramming. 20 (2): 89–98. doi:10.1089/cell.2017.0051. PMID 29620444.
  79. Hicap, J. M. (2007). "RP to produce Southeast Asia's first cloned buffalo". The Manila Times. Archived from the original on 3 October 2020. Retrieved 21 June 2017.
  80. "Philippines Close to Creating World's First Water Buffalo Clone". Voice of America. 28 October 2009.
  81. Samrupa, World's first cloned buffalo calf from India Archived 26 December 2022 at the Wayback Machine. Topinews.com
  82. ICAR-CIRB Annual Report 2015-16 (PDF) (Report). Hisar, Haryana, India: ICAR-Central Institute for Research on Buffaloes. 3 July 2016. Retrieved 11 August 2022.
  83. Upham, E. (1829). The History and Doctrine of Budhism: Popularly Illustrated: with Notices of the Kappooism, Or Demon Worship, and of the Bali, Or Planetary Incantations, of Ceylon. London: R. Ackermann.
  84. Krisnawati, Ega (25 September 2020). "Asal Usul Nama Minangkabau dan Sejarah Suku Minang". Tirto (in Indonesian). Retrieved 24 May 2021.
  85. ^ Tressider, J. (1997). The Hutchinson Dictionary of Symbols. London: Helicon Publisher. p. 31. ISBN 1-85986-059-1.
  86. Pangilinan, L. Jr. (2014). "In Focus: 9 Facts You May Not Know About Philippine National Symbols". National Commission for Culture and the Arts. Archived from the original on 26 November 2016. Retrieved 8 January 2019.
  87. Wiley, Andra S. (2017). Cohen, Mathilde; Otomo, Yoriko (eds.). Making Milk: The Past, Present and Future of Our Primary Food. Bloomsbury Publishing. p. 50. ISBN 978-1-350-02997-2.
  88. Fuller Christopher John (2004). "4". The camphor flame: popular Hinduism and society in India (Revised and Expanded ed.). Princeton University Press. p. 83. ISBN 978-0-691-12048-5.
  89. Fuller C. J. (26 July 2004). The Camphor Flame: Popular Hinduism and Society in India (Revised ed.). Princeton University Press. p. 83. ISBN 978-0-691-12048-5. ASIN 069112048X.
  90. Hiltebeitel, Alf (February 1980). "Rāma and Gilgamesh: the sacrifices of the water buffalo and the bull of heaven". History of Religions. 19 (3): 187–195. doi:10.1086/462845. JSTOR 1062467. S2CID 162925746.
  91. "Cylinder Seal of Ibni-Sharrum". Louvre Museum. Archived from the original on 9 February 2023. Retrieved 22 March 2019.
  92. "Site officiel du musée du Louvre". cartelfr.louvre.fr.
  93. Brown, Brian A.; Feldman, Marian H. (2013). Critical Approaches to Ancient Near Eastern Art. Walter de Gruyter. p. 187. ISBN 9781614510352.
  94. Dutta, P. (2008). "Bonfire, feast & lots more". The Telegraph. Calcutta, India. Archived from the original on 4 February 2013. Retrieved 19 January 2008.
  95. Do Son: buffalo fighting festival (Vietnam) Archived 5 July 2007 at the Wayback Machine, 14 September 2005, VietNamNet Bridge
  96. Do Son Buffalo Fighting Festival Vietnam. Asiarooms.com
  97. Buffalo Fighting in Hai Luu Commune, Vietnam News Agency
  98. Water Buffalo-fighting festival Archived 16 February 2020 at the Wayback Machine. Youtube
  99. Koh Samui Point (2017). Buffalo Fighting Archived 2 March 2017 at the Wayback Machine
  100. "Kambala".
  101. "Bull race held at Kaakkoor peacefully". The Hindu. Chennai, India. 27 February 2004. Archived from the original on 28 January 2005.
  102. "'Maramadi' winners". The Hindu. Chennai, India. 27 February 2004. Archived from the original on 1 August 2004.
  103. "Pulilan Carabao Festival (Pulilan, Bulacan)". Experience Bulacan. Provincial Government of Bulacan. Archived from the original on 20 December 2016. Retrieved 26 December 2016.

Further reading

  • Clutton-Brock, J. 1999. A Natural History of Domesticated Mammals. Cambridge, UK: Cambridge University Press. ISBN 0-521-63495-4.
  • Fahimuddin, M. 1989. Domestic Water Buffalo. Janpath, New Delhi: Oxford & IBH Publishing Co. Pvt. Ltd. ISBN 81-204-0402-5.
  • Guinness Book of Records, 2005.
  • The Water Buffalo: New Prospects for an Underutilized Animal. Washington, D.C. 1981. National Academy Press. ISBN 978-0-309-04159-1.
  • Nowak, R. M. and Paradiso, J. L. 1983. Walker's Mammals of the World. Baltimore, Maryland: The Johns Hopkins University Press. ISBN 0-8018-2525-3.
  • Roth, J. and P. Myers. "Bubalis Bubalis", University of Michigan Museum of Zoology Animal Diversity Web. Retrieved 15 January 2009
  • Ruangprim, T. et al. 2007. "Rumen microbes and ecology of male dairy, beef cattle and buffaloes". In: Proceedings Animal Science Annual Meeting, Khon Kaen University, Khon Kaen 40002, Thailand.
  • Thu, Nguyen Van and T. R. Preston. 1999. "Rumen environment and feed degradability in swamp buffaloes fed different supplements". Livestock Research for Rural Development 11 (3)
  • Voelker, W. 1986. The Natural History of Living Mammals. Medford, New Jersey: Plexus Publishing, Inc. ISBN 0-937548-08-1.
  • Wilson, D. E. and Reeder, D. M. 1993. Mammal Species of the World: A Taxonomic and Geographic Reference, Second Edition. Smithsonian Institution.

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(including kudus)
Taurotragus
Family Bovidae (subfamily Antilopinae)
Antilopini
Ammodorcas
Antidorcas
Antilope
Eudorcas
Gazella
Litocranius
Nanger
Procapra
Saigini
Saiga
Neotragini
Dorcatragus
Madoqua
Neotragus
Nesotragus
Oreotragus
Ourebia
Raphicerus
Cephalophini
Cephalophus
Philantomba
Sylvicapra
Suborder Suina
Suidae
Babyrousa
Hylochoerus
Phacochoerus
Porcula
Potamochoerus
Sus
Tayassuidae
Tayassu
Catagonus
Dicotyles
Suborder Tylopoda
Camelidae
Lama
Camelus
Suborder Whippomorpha
Hippopotamidae
Hippopotamus
Choeropsis
Cetacea
Working animals
Dog
Horse
Other species
Related topics
Taxon identifiers
Bubalus bubalis
Bos bubalis
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