Japanese quail | |
---|---|
Golden speckled is just one of the many names for this color type of Coturnix japonica. | |
Conservation status | |
Near Threatened (IUCN 3.1) | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Aves |
Order: | Galliformes |
Family: | Phasianidae |
Genus: | Coturnix |
Species: | C. japonica |
Binomial name | |
Coturnix japonica Temminck & Schlegel, 1848 |
The Japanese quail (Coturnix japonica), also known as the coturnix quail, is a species of Old World quail found in East Asia. First considered a subspecies of the common quail, it is now considered as a separate species. The Japanese quail has played an active role in the lives of humanity since the 12th century, and continues to play major roles in industry and scientific research. Where it is found, the species is abundant across most of its range. Currently, there are a few true breeding mutations of the Japanese quail. The varieties currently found in the United States include Pharaoh, Italian, Manchurian, Tibetan, Rosetta, along with the following mutations: sex-linked brown, fee, roux, silver, andalusian, blue/blau, white winged pied, progressive pied, albino, calico, sparkly, as well as non-color mutations such as celadon.
Taxonomy
The Japanese quail was formally described by the Dutch zoologist Coenraad Jacob Temminck and the German ornithologist Hermann Schlegel in 1848 and given the trinomial name Coturnix vulgaris japonica. This species is now placed in the genus Coturnix that was introduced in 1764 by the French naturalist François Alexandre Pierre de Garsault.
The Japanese quail was formerly considered to be conspecific with the common quail (Coturnix coturnix). The range of the two taxa meet in Mongolia and near Lake Baikal without apparent interbreeding. In addition, the offspring of crosses in captivity show reduced fertility. The Japanese quail is therefore now treated as a separate species. It is considered to be monotypic: no subspecies are recognised.
Description
The morphology of the Japanese quail differs depending on its stage in life. As chicks, both male and female individuals exhibit the same kind of plumage and coloring. Their heads are tawny in color, with small black patches littering the area above the beak. The wings and the back of the chick are a pale brown, the back also having four brown stripes running along its length. A pale yellow-brown stripe surrounded by smaller black stripes runs down the top of the head.
The plumage of the Japanese quail is sexually dimorphic, allowing for differing sexes to be distinguished from one another. Both male and female adults exhibit predominantly brown plumage. However, markings on the throat and breast, as well as the particular shade of brown of the plumage, can vary quite a bit. The breast feathers of females are littered with dark spots among generally pale feathers. Contrastingly, male breast feathers show off a uniform dark reddish-brown color that is devoid of any dark spots. This reddish-brown coloration also appears in the male cheek, while female cheek feathers are more cream colored. Some males also exhibit the formation of a white collar, whereas this does not occur in any female members of the species. It is important to note that while this coloration is very typical of wild populations of Coturnix japonica, domestication and selective breeding of this species has resulted in numerous different strains exhibiting a variety of plumage colors and patterns. Most of the strains are sexually dimorphic, however, there are some that can not be distinguished on the basis of plumage colouration, these include Texas A&M, English white, tuxedo and others .
Males tend to be smaller than females. Wild adults weigh between 90 and 100 grams while their domesticated counterparts typically weigh between 100 and 120 grams. However, weight among domesticated lines varies considerably, as commercial strains bred for meat production can weigh up to 300 grams.
Compared to the common quail the Japanese quail has darker upperparts with more contrast and is deeper rufous below. In the breeding season the male of the Japanese quail has distinctive rufous throat feathers. These are replaced by long pale feathers in the non-breeding season. This plumage feature is not observed in the common quail.
Vocalizations
Some 28 different call types have been distinguished based on the circumstances in which they are used and the various behaviors that are exhibited during the call. The call types of the Japanese quail differ between male and female, the same stimulus resulting in differing vocalizations. Most of the calls used by this quail are present after five weeks of development; however, they remain relatively changeable until sexual maturity is reached. The typical crow of the Japanese quail is characterized by two short parts that precede a final, major trill.
Crowing of males has been observed to expedite the development of the female's gonads as those exposed to such crowing reach maturity much earlier that those who are not exposed to male vocalizations. Differences in crow patterns have been observed between males with mates and un-mated males.
Distribution and habitat
Populations of the Japanese quail are known to mainly inhabit East Asia and Russia. This includes India, Korea, Japan, and China. Though several resident populations of this quail have been shown to winter in Japan, most migrate south to areas such as Vietnam, Cambodia, Laos, and southern China. This quail has also been found to reside in many parts of Africa, including Tanzania, Malawi, Kenya, Namibia, Madagascar, and the area of the Nile River Valley extending from Kenya to Egypt.
Breeding sites of the Japanese quail are largely localized to East and Central Asia, in such areas as Manchuria, southeastern Siberia, northern Japan, and the Korean Peninsula. However, it has also been observed to breed in some regions of Europe, as well as Turkey.
The Japanese quail is primarily a ground-living species that tends to stay within areas of dense vegetation in order to take cover and evade predation. Thus, its natural habitats include grassy fields, bushes along the banks of rivers, and agricultural fields that have been planted with crops such as oats, rice, and barley. It has also been reported to prefer open habitats such as steppes, meadows, and mountain slopes near a water source.
Behaviour and ecology
Normally, the Japanese quail has been considered to possess an underdeveloped sense of taste, this being evidenced by their inability to distinguish different kinds of carbohydrates presented to them. However, studies have shown that a limited ability to taste is indeed present. Evidence for this includes quail individuals exhibiting preferential choice of sucrose-containing solutions over simple distilled water and the avoidance of salty solutions. Though the Japanese quail possesses an olfactory epithelium, little is known about its ability to sense smell. Despite this, certain studies have revealed that these birds are able to detect certain substances using only their sense of smell. For example, they have been reported to be able to detect the presence of certain pesticides, as well as avoid food containing toxic proteins called lectin, using only the sense of smell. Through nasolateral conversion of the eyes, the Japanese quail is able to achieve frontal overlap of the eye fields. Long distance perception occurs with a binocular field accommodation. In order to maintain focus on a certain object while walking, the quail will exhibit corresponding head movements. The Japanese quail has also been shown to possess color vision, its perception of color being greater than that of form or shape. Not much is known about Coturnix japonica hearing; however, it has been shown to be able to distinguish between various human phonetic categories.
This quail species is also an avid dust bather, individuals undergoing numerous bouts of dust bathing each day. When dust bathing, this bird will rake its bill and legs across the ground in order to loosen up the ground, and then use its wings to toss the dust into the air. As the dust falls back down to the ground around the bird, it will shake its body and ruffle its feathers to ensure they receive a thorough coating. This behavior is believed to function in such things as simple feather maintenance and parasite removal.
Breeding
The type of relationship exhibited between male and female members of the Japanese quail has returned mixed reports, as they have been seen to exhibit both monogamous and polygamous relationships. A study of domesticated specimens reveals that females tend to bond with one or two males, though extra-pair copulations are also frequently observed.
Japanese quails show peak breeding activity during the summer season, when Testes increase in size and testosterone hormone concentrations hit their peak.
The Japanese quail exhibits a quite distinct and specific mating ritual. First, the male grabs the neck of the female and mounts her. After mounting the female, the male extends his cloaca by curving his back in an attempt to initiate cloacal contact between him and the female. If cloacal contact is achieved, insemination of the female will be exhibited by distinguishable foam present in the female's cloaca. After successfully mating with a female, the male characteristically performs a distinctive strut. Females will either facilitate the mating attempts of the male by remaining still and squatting in order to ease the access of the male to her cloaca or impede the attempts of the male by standing tall and running away from him. Females can also induce the initial sexual interactions by walking in front of a male and crouching. Males acting aggressively toward a female during the mating ritual have been shown to reduce successful matings.
Eggs tend to be laid in the few hours preceding dusk. Incubation of the egg starts as soon as the last egg in the clutch is laid and lasts an average of 16.5 days. Japanese quail females carry out most of the incubation of the eggs, becoming increasingly intolerant of the male throughout the incubation process. Eventually, the female will drive the male away before the eggs hatch. Thus, the females also provide all of the parental care to the newly hatched young.
Egg weight, color, shape, and size can vary greatly among different females of a Japanese quail population; however, these characteristics are quite specific and consistent for any given female. Eggs are generally mottled with a background color ranging from white to blue to pale brown. Depending on the strain of the Japanese quail, eggs can weigh anywhere from 8 to 13 grams, though the accepted average weight is 10 grams. Age seems to play a role in the size of eggs produced as older females tend to lay larger eggs.
Feeding
The diet of the Japanese quail includes many different types of grass seed such as white millet and panicum. They also feed upon a variety of insects, their larvae, and other small invertebrates.
The Japanese quail mainly eats and drinks at the beginning and end of the day: behavior shown to closely follow the photoperiod. However, they will still eat and drink throughout the day as well.
Relationship to humans
Domestication
The earliest records of domesticated Japanese quail populations are from 12th-century Japan, but some evidence indicates that the species was actually domesticated as early as the 11th century. These birds were originally bred as songbirds, and they were thought to have been regularly used in song contests.
In the early 1900s, Japanese breeders began to selectively breed for increased egg production. By 1940, the industry surrounding quail eggs was flourishing, but the events of World War II led to the complete loss of quail lines bred for their song type, as well as almost all of those bred for egg production. After the war, the few quail left were used to rebuild the industry, and all current commercial and laboratory lines today are considered to have originated from this remnant population.
Restocking wild game
The Japanese quail is considered to be a closely related allopatric species to the common quail, though both are still recognized as distinct species. Due to their close relationship and phenotypic similarities, as well as the recent decline in wild common quail populations throughout Europe, the Japanese quail is often crossed with the common quail to create hybrids that are used to restock the declining wild quail populations. Countries such as Greece, France, Spain, Portugal, England, Scotland, Canada, China, Australia, and Italy all release thousands of such hybrids each year to supplement their dwindling wild quail populations, often releasing these birds right before the start of the hunting season. These hybrids are practically indistinguishable from the native common quail in these areas, though worries have arisen that such hybridizations could be detrimental to the native quail populations.
Egg and meat production
Main article: Quail eggs Main article: Quails in cookeryAs the Japanese quail is easily managed, fast growing, and small in size, and can produce eggs at a high rate, it has been farmed in large quantities across the globe. Japan, India, China, Italy, Russia, and the United States all have established commercial Japanese quail-farming industries. The Japanese quail provides developing countries with a stable source of meat and developed countries with a suitable alternative to chicken. However, the quail finds its true economic and commercial value in its egg production, as domesticated lines of the Japanese quail can lay up to 300 eggs a year at very efficient feed-to-egg conversion ratios. A feed-to-egg conversion ratio of 2.62 was accomplished by the 1990s.
Research
Interest in the Japanese quail as a research animal greatly increased after 1957 due to groups at the University of California and Auburn University, who proposed its value in biomedical research. It is now widely used for research purposes in state, federal, university, and private laboratories. Fields in which C. japonica is widely used include genetics, nutrition, physiology, pathology, embryology, cancer, behavior, and the toxicity of pesticides.
Japanese quail eggs have orbited the Earth in several Soviet and Russian spacecraft, including the Bion 5 satellite and the Salyut 6 and Mir space stations. In March 1990, eggs on Mir were successfully incubated and hatched.
See also
References
- ^ BirdLife International (2016). "Coturnix japonica". IUCN Red List of Threatened Species. 2016: e.T22678949A95209097. doi:10.2305/IUCN.UK.2016-3.RLTS.T22678949A95209097.en. Retrieved 11 November 2021.
- Patz, Breanna. "Quail Genetics & Database". Pips 'n Chicks. Retrieved 2023-06-09.
- Rose, Micheal. "Plumage Genetics". Southwest Gamebirds. Retrieved 2023-06-09.
- Temminck, Coenraad Jacob; Schlegel, Hermann (1850). Siebold, Philipp Franz von (ed.). Fauna Japonica (in French). Vol. 4 Aves. Lugduni Batavorum (Leiden): Apud Auctorem. p. 103, Plate 61. Title page dated 1850. For a discussion of the actual publication date see: Mlíkovský, Jiří (2012). "The dating of Temminck & Schlegels "Fauna Japonica: Aves", with implications for the nomenclature of birds". Zoological Bibliography. 2 (2 & 3): 105–117.
- Garsault, François Alexandre Pierre de (1764). Les figures des plantes et animaux d'usage en medecine, décrits dans la Matiere Medicale de Geoffroy Medecin (in French). Vol. 5. Paris: Desprez. Plate 686.
- Welter-Schultes, F.W.; Klug, R. (2009). "Nomenclatural consequences resulting from the rediscovery of Les figures des plantes et animaux d'usage en médecine, a rare work published by Garsault in 1764, in the zoological literature". Bulletin of Zoological Nomenclature. 66 (3): 225–241 . doi:10.21805/bzn.v66i3.a1.
- ^ Gill, Frank; Donsker, David; Rasmussen, Pamela, eds. (2020). "Pheasants, partridges, francolins". IOC World Bird List Version 10.2. International Ornithologists' Union. Retrieved 3 September 2020.
- Peters, James Lee, ed. (1934). Check-List of Birds of the World. Vol. 2. Cambridge, Massachusetts: Harvard University Press. p. 92.
- ^ Moreau, R.E.; Wayre, P. (1968). "On the Palaearctic quails". Ardea. 56 (3–4): 209–227.
- ^ Cramp, Stanley, ed. (1980). "Coturnix coturnix Quail". Handbook of the Birds of Europe the Middle East and North Africa. The Birds of the Western Palearctic. Vol. II: Hawks to Bustards. Oxford: Oxford University Press. pp. 496–503 . ISBN 978-0-19-857505-4.
- ^ Hubrecht R, Kirkwood J (2010). The UFAW Handbook on the Care and Management of Laboratory and Other Research Animals. John Wiley & Sons. pp. 655–674.
- ^ Mills, AD; Crawford LL; Domjan M; Faure JM (1997). "The Behavior of the Japanese or Domestic Quail Coturnix japonica". Neuroscience and Biobehavioral Reviews. 21 (3): 261–281. doi:10.1016/S0149-7634(96)00028-0. PMID 9168263. S2CID 24234099.
- ^ Barilani, M; Deregnaucourt S; Gellego S; Galli L; Mucci N; Piomobo R; Puigcerver M; Rimondi S; Rodriguez-Teijeiro JD; Spano S; Randi E (2005). "Detecting hybridization in wild (Coturnix c. coturnix) and domesticated (Coturnix c. japonica) quail populations". Biological Conservation. 126 (4): 445–455. Bibcode:2005BCons.126..445B. doi:10.1016/j.biocon.2005.06.027.
- Chang, GB; Liu XP; Chang H; Chen GH; Zhao WM; Ji DJ; Chen R; Qin YR; Shi XK; Hu GS (June 2009). "Behavioral differentiation between wild Japanese quail, domestic quail, and their first filial generation". Poultry Science. 88 (6): 1137–1142. doi:10.3382/ps.2008-00320. PMID 19439621.
- ^ Puigcerver, Manel; Vinyoles, Dolors; Rodríguez-Teijeiro, José Domingo (2007). "Does restocking with Japanese quail or hybrids affect native populations of common quail Coturnix coturnix?". Biological Conservation. 136 (4): 628–635. Bibcode:2007BCons.136..628P. doi:10.1016/j.biocon.2007.01.007. hdl:2445/108051.
- ^ Pappas, J. "Coturnix japonica". Animal Diversity Web. Retrieved 20 October 2013.
- "Species Factsheet: Coturnix japonica". Birdlife International. Retrieved 20 October 2013.
- ^ Buchwalder, T; Wechsler B (1997). "The effect of cover on the behavior of Japanese quail (Coturnix japonica)". Applied Animal Behaviour Science. 54 (4): 335–343. doi:10.1016/s0168-1591(97)00031-2.
- ^ Galef, BG; White DJ (March 1998). "Mate-choice copying in Japanese quail Coturnix coturnix japonica". Animal Behaviour. 55 (3): 545–552. doi:10.1006/anbe.1997.0616. PMID 9514666. S2CID 22405084.
- Akbar, Z; Qureshi, AS; Rahman, SU (2012). "Effects of seasonal variation in different reproductive phases on the cellular response of bursa and testes in Japanese quail (Coturnix japonica), Pakistan". Pak Vet J. 32 (4): 525–529.
- ^ Correa, SM; Haran CM; Johnson PA; Adkins-Regan E (2011). "Copulatory behaviors and body condition predict post-mating female hormone concentrations, fertilization success, and primary sex rations in Japanese quail". Hormones and Behavior. 59 (4): 556–564. doi:10.1016/j.yhbeh.2011.02.009. PMID 21376051. S2CID 37684862.
- ^ Ainsworth, SJ; Stanley RL; Evan DJR (2010). "Developmental stages of the Japanese quail". Journal of Anatomy. 216 (1): 3–15. doi:10.1111/j.1469-7580.2009.01173.x. PMC 2807971. PMID 19929907.
- ^ Coturnix (Coturnix coturnix japonica): standards and guidelines for the breeding, care, and management of laboratory animals. Washington, D.C.: National Academy of Sciences. 1969. pp. 1–47.
- Shanaway, M. M. (1994). Quail Production Systems: A Review. Food & Agriculture Org. p. 126. ISBN 9789251033845.
- Muneo Takaoki, "Model Animals for Space Experiments — Species Flown in the Past and Candidate Animals for the Future Experiments", Biological Sciences in Space, Vol. 21, pp. 76-83 (2007).
- T.S. Guryeva et al., "The quail embryonic development under the conditions of weightlessness", Acta Vet. Brno, Suppl. 6, 62, 1993: S 25-S 30.
External links
- BirdLife Species Factsheet
- Slovak Commission for Research and Peaceful Uses of Space, with details on Ivan Bella's Japanese quail experiments on Mir, including photo of zero-gravity chick