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Domestic rabbit

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Domestic Rabbit
Domesticated
Scientific classification
Kingdom:
Phylum:
Class:
Order:
Family:
Genus:
Oryctolagus

Species:
Binomial name
Oryctolagus cuniculus

A domestic rabbit or more commonly known as simply the rabbit is any of the several varieties of European rabbit that have been domesticated. Domestic rabbits have been used as sources of food and wool, research subjects, and as pets. Male rabbits are called bucks; females are called does. An older term for an adult rabbit is coney, while rabbit referred only to the young animals.[1] More recently, the term kit or kitten has been used to refer to a young rabbit. A young hare is called a leveret; this term is sometimes informally applied to a young rabbit as well.

History

Rabbits kept in cages for scientific experimentation

Phoenician sailors visiting the coast of Spain c. 12th century BC, mistaking the European rabbit for a species from their homeland (the rock hyrax Procavia capensis), gave it the name i-shepan-ham (land or island of hyraxes). A theory exists that a corruption of this name, used by the Romans, became the Latin name for the peninsula, Hispania – although this theory is somewhat controversial.[2] In Rome rabbits were raised in large walled colonies.

Selective breeding of rabbits began in the Middle Ages, when they were first treated as domesticated farm animals. By the 16th century, several new breeds of different colors and sizes were being recorded.

In the 19th century, as animal fancy in general began to emerge, rabbit fanciers began to sponsor rabbit exhibitions and fairs in Western Europe and the United States. Breeds were created and modified for the added purpose of exhibition, a departure from the breeds that had been created solely for food, fur, or wool. The rabbit's emergence as a household pet began during the Victorian era.

Domestic Rabbits have been popular in the United States since the late 19th century. What became known as the "Belgian Hare Boom", began with the importation of the first Belgian Hares from England in 1888 and soon after the founding of the first rabbit club in America, the American Belgian Hare Association. From 1898 to 1901, many thousands of Belgian Hares were imported to America.[3] Today, the Belgian Hare is considered one of the rarest breeds with less than 200 in the United States as reported in a recent survey.[4]

The American Rabbit Breeders Association (ARBA) was founded in 1910 and is the national authority on rabbit raising and rabbit breeds having a uniform Standard of Perfection, registration and judging system. The domestic rabbit continues to be popular as a show animal and pet. Many thousand rabbit shows occur each year and are sanctioned in Canada and the United States by the ARBA. Today, the domesticated rabbit is the third most popular mammalian pet in Britain after dogs and cats.

Rabbits have been, and continue to be, used in laboratory work such as production of antibodies for vaccines and research of human male reproductive system toxicology. The Environmental Health Perspective, published by the National Institute of Health, states, "The rabbit [is] an extremely valuable model for studying the effects of chemicals or other stimuli on the male reproductive system." According to the Humane Society of the United States, rabbits are also used extensively in the study of bronchial asthma, stroke prevention treatments, cystic fibrosis, diabetes, and cancer. Animal rights activists have opposed animal experimentation for non-medical purposes, such as the testing of cosmetic and cleaning products, which has resulted in decreased use of rabbits in these areas.[citation needed]

Biology

Diet

The domestic rabbit's diet depends upon whether it is a pet, a meat or a fur rabbit. Meat and fur rabbits are fed diets which will improve meat or fur production and allow for the safe delivery of large litters of healthy kits while minimising costs and producing faeces which meet waste regulations where appropriate.[5]

Commercial pellets are available in most countries in a variety of formulations, and are typically fed to adult rabbits in limited quantities to prevent obesity. Most pellets are based on alfalfa as a protein and fiber source, with other grains being used to complete the carbohydrate requirements. Minerals and vitamins geared toward specific requirements of rabbits are added during production. Many commercial rabbit raisers also feed grass hay, although this can represent a hygiene issue in rabbitries.[6]

In contrast, a pet rabbit's diet may require fewer calories and energy, while taking advantage of many home-prepared ingredients.[7] Many rabbit welfare organisations and veterinarians recommended that a pet rabbit's diet should model off an approximation of a wild rabbit's natural diet as a foraging animal.[8][9] An often recommended feeding strategy for pet rabbits consists of grass hay, various combinations of leafy green vegetables, and limited commercial pellets. In this case, the focus is on providing adequate fiber. Testing trials to determine if this diet meets the animal's requirements for minerals and vitamins have not been done for hay/vegetable/pellet diets in the same way that pellet diets have been researched.[10] Many rabbit owners tend to feed their pet with only carrots. It should be noted that carrots alone have tons of sugar so feeding a well rounded meal with hay and other leafy greens will ensure your pet is getting the vital nutrients.[11]

A diet including too many pellets, root vegetables or sugary fruits can lead to diarrhea, obesity, poor wear on molar teeth and other health problems.[12] Studies have shown that although a short changeover period is needed, domestic rabbits are highly adaptable to diets produced from locally available forage products in developing countries.[13]

Digestion

Rabbits are hindgut fermenters and therefore have an enlarged cecum. The cecum allows rabbits to digest, via fermentation, what they otherwise would not be able to metabolically process. Because a rabbit has a sensitive and rather substantial gastrointestinal tract, a rabbit’s diet should consist of some amount of fiber. Without a proper diet, gastrointestinal stasis can occur and have detrimental effects on the animal itself.[14] It is in the cecum that this fiber is digested.

After a rabbit ingests food, the food travels down the esophagus and through a small valve called the cardia. In rabbits, this valve is very well pronounced and makes the rabbit incapable of vomiting. The food enters the stomach after passing through the cardia. Food then moves to the stomach and small intestine where a majority of nutrient extraction and absorption takes place. Food then passes into the colon and eventually into the cecum. Peristaltic muscle contractions (waves of motion) help to separate fibrous and non-fibrous particles. The non-fibrous particles are then moved backwards up the colon, through the illeo-cecal valve, and into the cecum. Symbiotic bacteria in the cecum help to further digest the non-fibrous particles into a more metabolically manageable substance. After as little as three hours, a soft, fecal pellet, called a cecotrope, is expelled from the rabbit’s anus. The rabbit instinctively eats these grape-like pellets, without chewing, in exchange keeping the mucous coating intact. This coating protects the vitamin- and nutrient-rich bacteria from stomach acid, until it reaches the small intestine, where the nutrients from the cecotrope can be absorbed.[15] [16]

The soft pellets contain a sufficiently large portion of nutrients that are critical to the rabbit’s health. This soft fecal matter is rich in vitamin B and other nutrients. The process of coprophagy is important to the stability of a rabbit’s digestive health because it is one important way that which a rabbit receives vitamin B in a form that is useful to its digestive wellness.[17] Occasionally, the rabbit may leave these pellets lying about its cage; this behavior is harmless and usually related to an ample food supply.

When caecal pellets are wet and runny (semi-liquid) and stick to the rabbit and surrounding objects they are called Intermittent Soft Cecotropes (ISCs). This is different from ordinary diarrhea and is usually caused by a diet too high in carbohydrates or too low in fiber. Soft fruit or salad items such as lettuce, cucumbers and tomatoes are possible causes. Increasing dietary fiber and decreasing carbohydrates should restore the gut flora to normal in the cecum and return gastrointestinal tract motility to normal. This can be avoided by providing a healthy diet of unlimited grass hay as the main part with fibrous green foods such as broccoli and cabbage and limited high fiber/low energy pellets. Note also that there are other more serious but uncommon causes such as cancer, intestinal obstructions and abscesses. [18] [19]


Breeding

Does are induced ovulators, and can therefore be bred at almost any time after reaching sexual maturity. Does of small breeds (Mini Rex, Polish) normally reach sexual maturity at 4 to 5 months, medium breeds (New Zealand, Rex) normally reach sexual maturity at 5 to 6 months, and large breeds (Flemish Giant, Checkered Giant) normally reach sexual maturity at 6 to 7 months. Males usually require more time to fully mature, and normally reach adult sperm counts between 6–7 months. Due to the territorial nature of female rabbits, it is standard practice for the doe to always be brought to the buck’s cage. When the doe is brought to the bucks’ cage, he quickly mounts her, performs pelvic thrusting culminating in ejaculation, and “flops” off. The whole act may take less than 30 seconds, and is often repeated several times. When he is finished, the buck should then be removed, but many breeders will reintroduce the buck a few hours later to increase the size of the litter.[20][21]


Genetics

The study of rabbit genetics is mainly due to medical researchers, fanciers, and the fur and meat industries. Each of these groups have differing interests and needs for genetic information. In biomedical research community and pharmaceutical industry, rabbits are used to produce antibodies, test toxicity of consumer products, and as a model organism. Among rabbit fanciers, the fiber/fur industry, the genetics of coat color and hair properties are paramount. The meat industry selects for disease resistance, feed conversion ratio, and reproduction potential.

Linkage Maps

Early genetic research focused on linkage distance between various gross phenotypes using linkage analysis. Between 1924 and 1941, the relationship between the c, y, b, du, En, l, r1, r2, A, dw, w, f, and br had been established (phenotype is listed below).

  • c -- albino
  • y -- yellow fat
  • du -- Dutch coloring
  • En -- English coloring
  • l -- angora
  • r1, r2 -- rex genes
  • A -- Agouti
  • dw -- dwarf gene
  • w -- wide intermediate-color band
  • f -- furless
  • br -- brachydactyly

The distance between these genes is as follows, enumerated by chromosome. The format is gene1—distance—gene2 -- ... [22]

  1. c -- 14.4 -- y -- 28.4 -- b
  2. du -- 1.2 -- EN -- 13.1 -- l
  3. r1 -- 17.2 -- r2
  4. A -- 14.7 -- dw -- 15.4 -- w
  5. f -- 28.3 -- br

The rabbit genome has been sequenced and is publicly available [23] The mitochondrial DNA has also been sequence. [24]

In 2011, parts of the rabbit genome were re-sequenced in greater depth in order to expose variation within the genome.[25]

Color Genes

There are 10 color gene groups (or loci) in rabbits. They are A, B, C, D, E, En, Du, Si, V, and W. Each locus has dominant and recessive genes. In addition to the loci there are also modifiers, which modify a certain gene. These include the rufus modifiers, color intensifiers, and plus/minus (blanket/spot) modifiers. A rabbit's coat only has two pigments, pheomelanin (yellow) and eumelanin (dark brown). There can also be no pigment, causing an albino or white rabbit. [26]

Within each group, the genes are listed in order of dominance, with the most dominant gene first. In parenthesis after the description is at least one example of a color that displays this gene.

Note: lower case are recessive and capital letters are dominant
Chinchilla
  • "A" represents the agouti locus (multiple bands of color on the hair shaft). The genes are:
    • A= agouti ("wild color" or chestnut agouti, opal, chinchilla, etc.)
    • a(t)= tan pattern (otter, tan, silver marten)
    • a= self or non-agouti (black, chocolate)
  • "B" represents the brown locus. The genes are:
    • B= black (chestnut agouti, black otter, black)
    • b= brown (chocolate agouti, chocolate otter, chocolate)
Blue
  • "C" represents the color locus. The genes are:
    • C= full color (black)
    • c(ch3)= dark chinchilla, removes yellow pigmentation (chinchilla, silver marten)
    • c(ch2)= medium (light) chinchilla, Slight reduction in eumelanin creating a more sepia tone in the fur rather than black.
    • c(ch1)= light (pale) chinchilla (sable, sable point, smoke pearl, seal)
    • c(h)= color sensitive expression of color. Warmer parts of body do not express color. Known as himalayan, the body is white with extremities ("points") colored in black, blue, chocolate or lilac, pink eyes
    • c= albino (ruby-eyed white or REW)
  • "D" represents the dilution locus. This gene dilutes black to blue and chocolate to lilac.
    • D= dense color (chestnut agouti, black, chocolate)
    • d= diluted color (opal, blue or lilac)
  • "E" represents the extension locus. It works with the 'A' and 'C' loci, and rufus modifiers. When it is recessive, it removes most black pigment. The genes are:
    • E(d)= dominant black
    • E(s)= steel (black removed from tips of fur, which then appear golden or silver)
    • E= normal
    • e(j)= Japanese brindling (harlequin), black and yellow pigment broken into patches over the body. In a broken color pattern this results in Tricolor.
    • e= most black pigment removed (agouti becomes red or orange, self becomes tortoise)
Dutch
  • "En" represents the plus/minus (blanket/spot) color locus. It is incompletely dominant and results in three possible color patterns:
    • EnEn= "Charlie" or a lightly marked broken with color on ears, on nose and sparsely on body
    • Enen= Broken rabbit with roughly even distribution of color and white
    • enen= Solid color with no white areas
  • "Du" represents the Dutch color pattern, (the front of the face, front part of the body, and rear paws are white, the rest of the rabbit has colored fur). The genes are:
    • Du= absence of Dutch pattern
    • du(d)= Dutch (dark)
    • du(w)= Dutch (white)
File:Český červený samec.jpg
Czech Red
  • "V" represents the vienna white locus. The genes are:
    • V= normal color
    • Vv= Vienna carrier, carries blue-eyed white gene. May appear as a solid color, with snips of white on nose and/or front paws, or Dutch marked.
    • v= vienna white (blue-eyed white or BEW)
  • "Si" represents the silver locus. The genes are:
    • Si= normal color
    • si= silver color (silver, silver fox)
  • "W" represents the middle yellow-white band locus and works with the agouti gene. The genes are:
    • W= normal width of yellow band
    • w= doubles yellow band width (Otter becomes Tan, intensified red factors in Thrianta and Belgian Hare)
  • "P" represents the OCA type II form of albinism, P is because it is an integral P protein mutation. The genes are:
    • P= normal color
    • p= albinism mutation, removes eumelanin and causes pink eyes. (Will change, for example, a Chestnut Agouti into a Shadow)


Breeds

Holland Lop with black patches on white ("broken") R

There are many different breeds of domestic rabbit, with various sizes, temperaments, and care requirements. As with breeds of dogs, rabbit breeds were selectively bred by humans at different times to achieve certain desired characteristics (including coat color and texture, size, and body shape). Care requirements have been greatly altered; for example, some new breeds need grooming a few times a day without fail, whereas others, such as the Holland lop, have a tendency to develop dental problems. Temperaments can vary slightly with breed and gender, as with any animal. There are 48 rabbit breeds recognized by the American Rabbit Breeders Association in the United States and over 50 rabbit breeds recognized by the British Rabbit Council. There are many more breeds of rabbits worldwide.

Most genetic defects in the domestic rabbit are due to recessive genes. These genes are carefully tracked by fanciers of the breeds who show them; just as dog fanciers carefully check for hip/eye and heart problems, rabbit fanciers extensively follow their own lines to remove unwanted defects. However, unpure dwarf-size breeds, which are bred for pets by non-fancier breeders, are not carefully screened for health problems, and may still develop these defects.[citation needed]



Rabbits as pets

Standard Chinchilla Domestic Rabbit

Rabbits have been kept as pets in Western nations since the 19th century. Neutered (spayed or castrated) rabbits kept indoors with proper care may have a lifespan of 8 to 12 years.[27] Rabbits are especially popular as pets in the United States during the Easter season, due to their association with the holiday. However, animal shelters that accept rabbits often complain that during the weeks and months following Easter, there is a rise of unwanted and neglected rabbits that were bought as Easter "gifts," especially for children.[28]

Rabbits are relatively inexpensive to keep when compared to larger animals, such as dogs or horses, although their care can still be moderately costly.[29] Currently, regulations do not require vaccinations for rabbits in the USA. Rabbits in the United Kingdom require viral haemorrhagic disease and Myxomatosis vaccinations. Pet rabbits can be kept outdoors or indoors. Accommodations can range from an outdoor hutch to an indoor cage or pen to the free run of the home. Veterinarians with experience with rabbits can be difficult to locate. However, disease is rare when rabbits are raised in sanitary conditions and provided with adequate care. Regular brushing of the coat helps to increase sanitation and reduce ingestion of loose fur. Regular trimming of the nails is required if pet rabbits live indoors where they can not dig.

Rabbits are wonderful household companions. They are easy to litterbox train, they are neat, they get along with cats, small animals, and well-trained dogs, and they are loving, smart, curious, and interesting. They do require education in order for them to live happy, healthy lives, and for the household to be a happy one. House Rabbit Society offers a wide variety of information for rabbit caretakers and potential caretakers to educate themselves about house rabbit care, bunny proofing their houses, medical care, diet, and more.[30]

Behavior

Rabbits are prey animals and their behavior is triggered by a need to defend themselves. This relates to their wild predecessors, who are easily startled and quick to show fear. A rabbit’s body language and posture are key factors to determining temperament. Like humans, rabbits have distinct personalities. However, breed variation plays a role in generalized behaviors. These more general behaviors include content/relaxed, alert, playful, submissive, aggressive, stressed, startled, and fearful.

Fearful behavior is often the most difficult to discern, as it can be mistaken for submissive behavior. (This is important because misinterpretation of a rabbit’s temperament can result in aggressive action and risk harm to the rabbit or others, and may increase the rabbit’s stress levels, further upsetting it.) When a rabbit is fearful, it could be extremely quiet and possibly twitchy, it may produce a high-pitched scream, and/or it will be crouched low with its ears pulled back and an accelerated pulse. It is crucial to pay attention to the rabbit’s facial expressions to determine that fear is indeed being displayed. In this case, the eyes will be bulging, and its cheek muscles will be tight. A fearful rabbit will sometimes thump its hind legs, and this is a behavior meant to alert other rabbits to a potential threat. If the rabbit feels a need to defend itself, it may attempt to kick or scratch the perceived threat with its hind legs. This could be extremely dangerous for the rabbit, as it risks breaking its legs or injuring its spine.[31]

Coping with stress is a key aspect of rabbit behavior, and this can be traced part of the brain known as ventral tegmental area (VTA). Dopaminergic neurons in this part of the brain release the hormone dopamine, generalized as a “feel good” hormone. In humans, dopamine is released through a variety of acts, including sexual activity, substance abuse (alcohol and/or drugs), and even eating chocolate. However, in rabbits, it is released as part of a coping mechanism while in a heightened state of fear or stress—having a calming effect. Dopamine has also been found in medial prefrontal cortex, nucleus accumbens, and the amygdala.[32]

Safety and health considerations

Improper holding or handling of pet rabbits can lead to strong kicks by the frightened rabbit, which can injure both the animal and the handler.[33] Rabbits will gnaw on almost anything, including electrical cords, cables, and paper products. Electrical components, when chewed by pet rabbits, can cause electrocution and burns.[34] Rabbits have been identified with few zoonotic (animal-to-human transmitted) diseases and are considered a "low risk" to people with competent immune systems, but a risk of transmission of E. coli, salmonella, and E. cuniculi exists, particularly for people with compromised immune systems. Physiological and behavioral responses to human-induced tonic immobility (abbreviated TI, sometimes termed "trancing") have been found to be indicative of a fear-motivated stress state, confirming that the promotion of TI to try to increase a bond between rabbits and their owners—thinking the rabbits enjoy it—is misplaced; however some researchers conclude that inducing TI in rabbits is appropriate for certain procedures as it holds less risk than anesthesia.[35]

Commercial rabbits

Meat rabbits

Commercially processed lean rabbit meat
Meat-type rabbits being raised as a supplementary food source during the Great Depression

Breeds such as the New Zealand and Californian are frequently utilized for meat in commercial rabbitries. These breeds have efficient metabolisms and grow quickly; they are ready for slaughter by approximately 14 to 16 weeks of age.

Rabbit fryers are rabbits that are between 70 to 90 days of age, and weighing between 3 to 5 lb (1 to 2 kg) live weight. Rabbit roasters are rabbits from 90 days to 6 months of age weighing between 5 to 8 lb (2 to 3.5 kg) live weight. Rabbit stewers are rabbits from 6 months on weighing over 8 lb.

Any type of rabbit can be slaughtered for meat, but those exhibiting the "commercial" body type are most commonly raised for meat purposes. Dark fryers (any other color but albino whites) are sometimes lower in price than albino fryers because of the slightly darker tinge of the fryer (purely pink carcasses are preferred by consumers) and because the hide is harder to remove manually than the white albino fryers.

Wool rabbits

Rabbits such as the Angora, American Fuzzy Lop, and Jersey Wooly produce wool. However, since the American Fuzzy Lop and Jersey Wooly are both dwarf breeds, only the much larger Angora breeds such as the English Angora, Satin Angora, Giant Angora, and French Angoras are used for commercial wool production. Their long fur is sheared, combed, or plucked (gently pulling loose hairs from the body during molting) and then spun into yarn used to make a variety of products. Angora sweaters can be purchased in many clothing stores and is generally mixed with other types of wool. Rabbit wool, called Angora, is 2.5 times warmer than sheep's wool.[36]

Fur rabbits

Dried rabbit pelts

All rabbits produce fur. Rabbits such as the Palomino, Satin, Chinchilla rabbit and Rex rabbit are commonly raised for fur. Each breed has unique coloring and fur characteristics. The rabbit is fed a diet especially balanced for fur production and the pelts are harvested when they have reached prime condition. Rabbit fur is widely used throughout the world. China imports much of its fur from Scandinavia (80%) and North America (5%) according to the USDA Foreign Agricultural Service GAIN Report CH7607.

Laboratory rabbits

Rabbits have been and continue to be used in laboratory work such as production of antibodies for vaccines and research of human male reproductive system toxicology. In 1972, around 450 000 rabbits were used for experiments in the United States, decreasing to around 240 000 in 2006.[37] The Environmental Health Perspective, published by the National Institute of Health, states, "The rabbit [is] an extremely valuable model for studying the effects of chemicals or other stimuli on the male reproductive system."[38] According to the Humane Society of the United States, rabbits are also used extensively in the study of bronchial asthma, stroke prevention treatments, cystic fibrosis, diabetes, and cancer.

The New Zealand White is one of the most commonly used breeds for research and testing.

Animal rights activists generally oppose animal experimentation for all purposes, and rabbits are no exception.[improper synthesis?] The use of rabbits for the Draize test,[39] which is used for, amongst other things, testing cosmetics on animals, has been cited as an example of cruelty in animal research. Albino rabbits are typically used in the Draize tests because they have less tear flow than other animals, and the lack of eye pigment makes the effects easier to visualize.[40]

Outdoor housing

Rabbits being raised on pasture at Polyface Farm

Rabbits can live outside in properly constructed housing or hutches. Hutches provide protection from the elements in winter and keep rabbits cool in summer heat. To protect from predators rabbit hutches are usually situated in a fenced yard, shed, barn, or other enclosed structure. Whether housed indoors or out, all rabbits can be provided shelves, ramps or tunnels, toys or other enrichment items. Rabbit waste can be measured in cubic yards per year. This waste is excellent for gardening and composting, and can be collected for these uses whether the rabbit is housed indoors or outdoors. An outdoor cage should be as large as possible, at least high enough for the rabbit to stand on its back legs without its head touching the ceiling. It should be large enough to enable the rabbit to take 4 or 5 hops along its length and width. The shelter may be heated in winter (although most rabbits can be kept outside with extra bedding even into temperatures well below freezing) and should be shaded or otherwise appropriately cooled in summer. Clean water must be available at all times, especially in hot weather to keep temperatures below 85 degrees. Large rabbits (such as the New Zealand breed) do fine in temperatures as low as -10 degrees Celsius/15 degrees Fahrenheit in a hutch with plenty of straw, if their needs for food and water are well met. Water cups or bottles that become frozen in cold weather must be changed two or three times daily. Below -10 degrees Celsius/15 degrees Fahrenheit it is necessary to shelter all animals in a barn or basement or garage. Covering cages three quarters of the way with a blanket, several cages grouped together, can generate a great deal of heat. One rule of thumb is at least eight pounds of animal per cage. Even newborn rabbits do well in cold if they have sufficient nest and many siblings to snuggle with. They should stay with the mother for longer periods of time in the winter for warmth. Domesticated rabbits are most comfortable in temperatures between 10 to 21 degrees C (50 to 70 degrees F), and cannot endure temperatures above 32 degrees C (90 degrees F) well without assistance such as deep shade, cold stones, frozen water bottles or fans.

Rabbits require clean environments and all housing should be cleaned regularly to ensure that no build-up of feces or urine occurs. Rabbit droppings are often left in beds with red worms to create compost, added to compost bins for enrichment of the compost, or applied directly to a garden as a "cool" fertilizer that will not burn plants.

Rabbits can be litter trained, which makes it much easier to clean up after them. Dust free litter that will not cause health problems if ingested is used for rabbits.

Exhibition

Checkered Giant at an exhibition

Conformation shows

Show rabbits are an increasingly popular activity. Showing rabbits helps to improve the vigor and physical behavior of each breed through competitive selection. County fairs are common venues through which rabbits are shown in the United States. Rabbit clubs at local state and national levels hold many shows each year. On any given weekend one may be able to find a show in most regions of the United States and the United Kingdom. Although only purebred animals are shown, a pedigree is not required to enter a rabbit in an ARBA-sanctioned show but is required to register your rabbit with the American Rabbit Breeders Association (ARBA). A rabbit must be registered in order to receive a Grand Champion certificate.[41] Children's clubs such as 4-H also include rabbit shows, usually in conjunction with county fairs. The ARBA holds an annual national convention which has as many as 25,000 animals competing form all over the world. The mega show moves to a different city each year. The ARBA also sponsors youth programs for families as well as underprivileged rural and inner city children to learn responsible care and breeding of domestic rabbits.

Show jumping

Rabbit show jumping, a form of athletic competition between rabbits, began in the 1970s and has since become popular in Europe, particularly Sweden and the United Kingdom. Any rabbit regardless of breed may participate in this kind of competition, as it is based on athletic skill.


Health problems

Fly strike

Fly strike is a rare condition which mostly affects rabbits kept in extremely unsanitary conditions and is more likely to occur during summer months. Fly strike happens when flies (particularly the Botfly) lay their eggs in the damp or soiled fur or in an open wound of a rabbit. Within 12 hours, the eggs hatch into the larvae stage of the fly, known as maggots. The maggots, initially small and almost invisible to the naked eye, can burrow into the skin of the rabbit and feed on the animal's tissue. Within 3–4 days, the larvae can be large as 15 mm long. In rare cases, if not treated, the rabbit can pass into shock and die. The most susceptible animals are those living in unsanitary housing, older rabbits who do not move much, and those who are unable to clean their bottom areas carefully. Rabbits raised on solid floors are more susceptible than rabbits raised on wire floors. Rabbits exhibiting one or more episodes of diarrhea are often inspected, especially during the summer months.[42] In 2002, the medicine Rearguard was approved in the United Kingdom for a 10-week per-application prevention of Fly strike.

Myxomatosis and West Nile Virus

Myxomatosis is a threat to the health of pet rabbits. Rabbits caged outdoors in Australia are vulnerable in areas with high numbers of mosquitoes. In Europe, fleas are the carriers of myxomatosis. In some countries, annual vaccinations against myxomatosis are available. In Australia pet rabbits cannot be vaccinated against myxomatosis which was introduced to the wild rabbit population as a means of population control. The Australian Government will not allow veterinarians to purchase and use the vaccine that would protect pet rabbits.[43] The keeping of pet rabbits is banned in the Australian state of Queensland.[44]

West Nile Virus is another threat to rabbits.[45] This is a fatal disease, and while there are vaccines available, they are not specifically indicated for rabbits. Recourse against the disease includes limiting the number of mosquitoes that are around pet rabbits.

Sore hocks

The formation of open sores on the rabbit's hocks, commonly called "sore hocks," is a problem that commonly afflicts mostly heavy-weight rabbits kept in cages with wire flooring or soiled solid flooring. The problem is most prevalent in rex-furred rabbits and heavy-weight rabbits (9+ pounds in weight), as well as those with thin foot bristles.

The condition results when, over the course of time, the protective bristle-like fur on the rabbit's hocks thins down. Standing urine or other unsanitary cage conditions can exacerbate the problem by irritating the sensitive skin. The exposed skin in turn can result in tender areas or, in severe cases, open sores, which may then become infected and abscessed if not properly cared for.

Most rabbits can live safely on wire floors with the provision of a resting board or mat. Ultra heavy-weight breeds such as Flemish Giants or Checkered Giants are best raised on solid or partially solid flooring. Alternatively, plastic-floored cages can be used in place of wire floors to provide more comfortable flooring.

Respiratory infections

An over-diagnosed ailment amongst rabbits is respiratory infection. Pasteurella bacteria, known colloquially as "snuffles," is usually misdiagnosed and has been known to be a factor in the overuse of antibiotics among rabbits.[46]

A runny nose, for instance, can have several causes, among those being high temperature or humidity, extreme stress, environmental pollution (like perfume or incense), or a sinus infection. Options for treating this is removing the pollutant, lowering or raising the temperature accordingly, and medical treatment for sinus infections.[46]

"Runny eyes" can be caused by dental disease or a blockage of the tear duct. Environmental pollution, corneal disease, entropion, distichiasis, or inflammation of the eyes are also causes. This is easy to diagnose as well as treat.[46]

Sneezing can be a sign of environmental pollution (such as too much dust) or food allergy.

While Pasteurella is a bacterium that lives in a rabbit's respiratory tract, it can flourish out of control in some cases. In the rare event that happens, antibiotic treatment is necessary.

Head tilt/wry neck/Encephalitozoon cuniculi (E. cuniculi)

Inner ear infections, certain protozoans, strokes, or other diseases or injuries affecting the brain or inner ear can lead to a condition known as wry neck or "head tilt." Although a heavy infestation of ear mites, an ear infection or injury can result in these symptoms, the most common cause of these symptoms is the protozoan parasite E. cuniculi. This condition can be fatal, due to a disorientation that causes the animal to stop eating and drinking. The drugs of choice for treatment and prevention of E. cuniculi infections are the benzimidazole anthelmintics, particularly fenbendazole. In the UK, Panacur Rabbit (containing fenbendazole) is marketed and recommended as a nine-day course to help contain this condition and is a simple oral paste to medicate at home. It is sold over the counter. Users in the US or other countries will need to consult with their veterinarians about use and dosage of fenbendazole.

Teeth problems

Malocclusion

Dental disease has several causes, namely genetics, inappropriate diet, injury to the jaw, infection, or cancer.

  • Malocclusion: Rabbit teeth are open-rooted and continue to grow throughout their lives. In some rabbits, the teeth are not properly aligned, a condition called malocclusion. Because of the misaligned nature of the rabbit's teeth, there is no normal wear to control the length to which the teeth grow. There are three main causes of malocclusion, most commonly genetic predisposition, injury, or bacterial infection. In the case of congenital malocclusion, treatment usually involves veterinary visits in which the teeth are treated with a dental burr (a procedure called crown reduction or, more commonly, teeth clipping) or, in some cases, permanently removed. In cases of simple malocclusion, a block of wood for the rabbit to chew on can rectify this problem.[citation needed]
  • Molar spurs: These are spurs that can dig into the rabbit's tongue and/or cheek causing pain. These can be filed down by an experienced veterinarian with a dental burr.

Signs of dental difficulty include difficulty eating, weight loss and small stools and visibly overgrown teeth. However, there are many other causes of ptyalism, including pain due to other causes.[47] A visit to an experienced rabbit veterinarian is strongly recommended[by whom?] in the case of a wet chin, or excessive grooming of the mouth area.

Gastrointestinal stasis

Gastrointestinal stasis is a serious and potentially fatal condition that occurs in some rabbits in which gut motility is severely reduced and possibly completely stopped. When untreated or improperly treated, GI stasis can be fatal in as little as 24 hours.

GI stasis is the condition of food not moving through the gut as quickly as normal. The gut contents may dehydrate and compact into a hard, immobile mass (impacted gut), blocking the digestive tract of the rabbit. Food in an immobile gut may also ferment, causing significant gas buildup and resultant gas pain for the rabbit.

The first noticeable symptom of GI stasis may be that the rabbit suddenly stops eating. Treatment frequently includes intravenous or subcutaneous fluid therapy (rehydration through injection of a balanced electrolyte solution), pain control, possible careful massage to promote gas expulsion and comfort, drugs to promote gut motility, and careful monitoring of all inputs and outputs. The rabbit's diet may also be changed as part of treatment, to include force-feeding to ensure adequate nutrition. Surgery to remove the blockage is not generally recommended and comes with a poor prognosis.[48]

Some rabbits are more prone to GI stasis than others. The causes of GI stasis are not completely understood, but common contributing factors are thought to include stress, reduced food intake, low fiber in the diet, dehydration and reduction in exercise. Stress factors can include changes in housing, transportation, or medical procedures under anesthesia. As many of these factors may occur together (poor dental structure leading to decreased food intake, followed by a stressful veterinary dental procedure to correct the dental problem) establishing a root cause may be difficult.[49]

GI stasis is sometimes misdiagnosed as "hair balls" by veterinarians or rabbit keepers not familiar with the condition.[50][51] While fur is commonly found in the stomach following a fatal case of gi stasis, it is also found in healthy rabbits. Molting and chewing fur can be a predisposing factor in the occurrence of gi stasis, however, the primary cause is the change in motility of the gut.

Veterinary care

Rabbits visit the vet for routine check ups, vaccination and when ill or injured. Some veterinary surgeons have a special interest in rabbits and some have extra qualifications. In the UK the following post graduate qualifications demonstrate specialist training in rabbits: Certificate in Zoological Medicine, Diploma in Zoological Medicine and Recognised specialist in Rabbit Medicine and Surgery.[52]

Routine checkups

Routine check ups usually involve assessment of weight, skin, health and teeth by the owner or a veterinarian. This is essential because a rabbit's health and welfare can be compromised by being overweight or underweight or by having dental problems. Checking the teeth is particularly important part of the examination as back teeth can only be seen with an otoscope. Veterinarians can also give personalised advice on diet and exercise.

Vaccinations

Rabbits should be vaccinated against Myxomatosis and Viral Haemorrhagic Disease in the UK.[53] These vaccinations are usually given annually, two weeks apart. If there is an outbreak of Myxomatosis locally this vaccine can be administered every six months for extra protection.[54] However, Myxomatosis immunisations are not available in all countries, including Australia, because of the risk that immunity will pass onto wild rabbits, which is what the disease was created for (the extermination of wild rabbits).

Worming

Some vets now recommend de-worming all rabbits against the parasite Encephalitozoon cuniculi. Some studies have indicated that in the UK over 50% of rabbits may be infected with this parasite. Fenbendazole is used as a deworming agent in other species of animal and has shown to be effective in treating rabbits. In the UK it is now sold in paste form as a treatment for rabbits under the brand name Panacur. It is particularly recommended for rabbits kept in colonies and before mixing new rabbits with each other.[55]

Ill or Injured

Some of the conditions that can occur in domestic rabbits include the following: dramatic or sudden loss of appetite, severe depression,[56] breathing problems,[57] sudden onset of head tilt, signs of maggot infestation,[58] not passing stools. Rabbits can also be exposed to poisons, involved in an accident, fall from a height or be exposed to smoke. Other rabbits conditions which indicate a need for medical treatment are drooling, unexplained weight loss, diarrhoea or fur loss. There are many other symptoms for which a rabbit requires medical aid or veterinary attention.

See also

Template:Wikipedia books

References

  1. ^ Online Etymology Dictionary
  2. ^ Anthon, Charles. A System of Ancient and Mediæval Geography for the Use of Schools and Colleges pg.14
  3. ^ http://www.livestockconservancy.org/index.php/heritage/internal/belgian-hare
  4. ^ Hare Surveyhttp://www.belgianhareclub.com/hare_survey.html
  5. ^ http://ojs.upv.es/index.php/wrs/article/view/382/369 | Towards reduced feeding costs, dietary safety and minimal mineral excretion in rabbits: a review, L Maertens - World Rabbit Science, 2010
  6. ^ Templeton, George (1968). Domestic Rabbit Production. Danville, Illinois: The Interstate Printers & Publishers, Inc. p. 58.
  7. ^ Brooks, Dale (1997). Ferrets, rabbits and rodents: Nutrition and Gastrointestional Physiology. Philadelphia: W.B. Saunders Company. p. 172. ISBN 978-0-7216-4023-5.
  8. ^ http://www.rabbitwelfare.co.uk/resources/index.php?section=leaflets.html#diet
  9. ^ http://www.thebrc.org/diet.htm
  10. ^ Brooks, Dale (1997). Ferrets, rabbits and rodents: Nutrition and Gastrointestional Physiology. Philadelphia: W.B. Saunders Company. pp. 173–174. ISBN 978-0-7216-4023-5.
  11. ^ {http://www.rspca.org.uk/adviceandwelfare/pets/rabbits/diet/myths
  12. ^ http://www.bio.miami.edu/hare/diet.html
  13. ^ J.A. Lowe (2006). "Pet Rabbit Feeding and Nutrition". The Nutrition of the Rabbit: 309–323.
  14. ^ Krempels, Ph.D., Dana M. "GastroIntestinal Stasis: The Silent Killer." University of Miami Department of Biology. Web. 19 April 2011. <http://www.bio.miami.edu/hare/ileus.html>.
  15. ^ The American Rabbit Breeders Ass'n., Inc. Official Guidebook: to Raising Better Rabbits and Cavies. Bloomington, IL: American Rabbit Breeders Association, 1991. Print.
  16. ^ Rees Davies, R. and J. A. E. Rees Davies (2003) "Rabbit Gastro-Intestinal Physiology," Vet Clin Exot Anim, 139-153 http://www.medirabbit.com/EN/GI_diseases/Rees-Davies.pdf
  17. ^ "Purina Mills Rabbit - NUTRITION & MANAGEMENT." Purina Mills Rabbit - Home. Web. 19 April 2011. <http://www.rabbitchow.com/NUTRITIONMANAGEMENT/default.aspx>.
  18. ^ Intermittent Soft Cecotropes in Rabbits, Susan Brown, DVM, VeterinaryPartner.com http://www.veterinarypartner.com/Content.plx?P=A&A=3012&S=1&SourceID=43
  19. ^ 10.6.4 Consistency of caecotrophs in Harcourt-Brown F. Textbook of rabbit medicine. Oxford: Butterworth-Heinemann; 2002. pp. 274-277
  20. ^ [Harkness, John E., and Joseph E. Wagner. The Biology and Medicine of Rabbits and Rodents. 2nd ed. Philadelphia: Lea & Febiger, 1983. Print.],
  21. ^ [Hume, C. W. The UFAW Handbook on the Care and Management of Laboratory Animals;. Edinburgh: Churchill Livingstone, 1972. Print.],
  22. ^ Castle, WE; Sawin, PB (1941). "Genetic linkage in the rabbit". Genetics. 27: 519–523. Retrieved 24 July 2015.
  23. ^ "Genome of Oryctolagus cuniculus (rabbit)". ncbi.nlm.nih.gov. National Institutes of Health. Retrieved 24 July 2015.
  24. ^ gissi, C; Gullberg, A; Arnason, U (1998). "The complete mitochondrial DNA sequence of the rabbit, Oryctolagus cuniculus". Genomics. 50 (2): 161–169. Retrieved 24 July 2015.
  25. ^ Carneiro, M (2011). "The Genetic Structure of Domestic Rabbits". Molecular Biology and Evolution. 28 (6): 1801–1816. Retrieved 23 July 2015.
  26. ^ |url=http://www.amysrabbitranch.com/Color&Genetics/Allele%20List%202011.pdf
  27. ^ "What's the lifespan of a rabbit?". House Rabbit Society. Retrieved 2007-10-11.
  28. ^ ABC7 Chicago (TV station) article "Easter Rabbits"
  29. ^ "Choosing a Rabbit as a Pet". Peteducation.com. Retrieved 2010-12-11.
  30. ^ [1]
  31. ^ 4-H (2004). "The Pet Rabbit". Rabbit Resource Handbook For Breeding, Market, and Pet Rabbit Projects. The Ohio State University Extension. pp. 103–106.{{cite book}}: CS1 maint: numeric names: authors list (link)
  32. ^ Guarraci, F & Knapp, B. (1999). "An electrophysiological characterization of ventral tegmental area dopaminergic neurons during differential pavlovian fear conditioning in the awake rabbit" (PDF). Behavioural Brain Research. 99 (2): pp. 169–179. doi:10.1016/S0166-4328(98)00102-8. PMID 10512583. {{cite journal}}: |pages= has extra text (help)CS1 maint: multiple names: authors list (link)
  33. ^ "Children and Rabbits". The House Rabbit Society. Retrieved 2010-12-11.
  34. ^ "Dealing with Medical Emergencies". The House Rabbit Society. Retrieved 2010-12-11.
  35. ^ McBride, Anne; et al. (2006). "Trancing rabbits: Relaxed hypnosis or a state of fear?". Proceedings of the VDWE International Congress on Companion Animal Behaviour and Welfare. VDWE International Congress on Companion Animal Behaviour and Welfare: pp. 135–137. Retrieved September 2, 2013. {{cite journal}}: |pages= has extra text (help) (downloadable .doc file). • Click here for PDF copy from hopperhome.com.
  36. ^ [2]
  37. ^ Kulpa-Eddy. "A review of trends in animal use in the United States (1972–2006)" (PDF). AATEX (14, Special Issue). Proc. 6th World Congress on Alternatives & Animal Use in the Life Sciences: 163–165.
  38. ^ Morton, Daniel (April 1988). "The use of rabbits in male reproductive toxicology". Environmental Health Perspectives. 77. National Institute of Health: 5–9. doi:10.2307/3430622. JSTOR 3430622. PMC 1474531. PMID 3383822.
  39. ^ M.K. Prinsen (2006). "The Draize Eye Test and in vitro alternatives; a left-handed marriage?". Toxicology in Vitro. 20 (1): Pages 78–81. doi:10.1016/j.tiv.2005.06.030. PMID 16055303.
  40. ^ Dawn, Karen (2008). Thanking the Monkey: Rethinking the Way we Treat Animals (1st ed.). New York City: HarperCollins. pp. 239–40. ISBN 978-0-06-135185-3. Retrieved 12 March 2013.
  41. ^ "Official Show Rules". American Rabbit Breeders Association. 2009. {{cite journal}}: Cite journal requires |journal= (help)
  42. ^ House Rabbit Society: Fly strike
  43. ^ "FeraFeast - Rabbits - Myxomatosis and Calicivirus". Retrieved 17 February 2012.
  44. ^ "Rabbits". Department of Primary Industries. Retrieved 29 January 2012.
  45. ^ http://www.cdc.gov/ncidod/dvbid/westnile/qa/transmission.htm
  46. ^ a b c Respiratory Disease by Dr. Susan A. Brown DVM
  47. ^ MediRabbit: Differential Diagnosis for Ptyalism
  48. ^ Harkness, John E. (2010). Biology and Medicine of Rabbits and Rodents (5th ed.). Ames, Iowa: Wiley-Blackwell. pp. 306–308. ISBN 978-0-8138-1531-2.
  49. ^ Jenkins, Jeffery (1997). Ferrets, Rabbits and Rodents: Gastointestinal Diseases. Philadelphia: W.B. Saunders Company. pp. 178–179. ISBN 0-7216-4023-0.
  50. ^ House Rabbit Society: Sluggish Motility in the Gastrointestinal Tract
  51. ^ University of Miami Department of Biology: Gastrointestinal Stasis, The Silent Killer
  52. ^ The Royal College of Veterinary Surgeons http://www.rcvs.org.uk/Templates/Internal.asp?NodeID=94964
  53. ^ British Veterinary Association Rabbit Care Downloads http://www.link2content.co.uk/uploads/bva/rabbit.pdf
  54. ^ http://www.intervet.co.uk/binaries/92_114377.pdf Intervet vaccination literature.
  55. ^ http://www.houserabbit.co.uk/resources/content/info-sheets/ecuniculi.htm RWAF Encephalitozoon Cuniculi
  56. ^ Harcourt-Brown F (2002). "Anorexia in rabbits 2". In Pract. 24 (8): 450–67. doi:10.1136/inpract.24.8.450.
  57. ^ Paul-Murphy J (2007). "Critical care of the rabbit". Vet Clin North Am Exot Anim Pract. 10 (2): 437–61. doi:10.1016/j.cvex.2007.03.002. PMID 17577559.
  58. ^ Cousquer G , 28: (2006). "Veterinary care of rabbits with myiasis". In Pract. 1028 (6): 342–349.{{cite journal}}: CS1 maint: extra punctuation (link) CS1 maint: numeric names: authors list (link)