Hostname: page-component-78c5997874-94fs2 Total loading time: 0 Render date: 2024-11-10T09:53:06.051Z Has data issue: false hasContentIssue false

A Review of the Physiology of Coturnix (Japanese Quail)

Published online by Cambridge University Press:  18 September 2007

Wilbor O. Wilson
Affiliation:
Department of Avian SciencesUniversity of CaliforniaDavis, California95616
Get access

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Research Article
Copyright
Copyright © Cambridge University Press 1972

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Arrington, L. C., Abplanalp, H., Wilson, W. O. 1962. Experimental modification of the laying pattern in Japanese quail. Brit. Poultry Sci. 3: 105113.CrossRefGoogle Scholar
Arrington, L. C., Ringer, R. K. and Wolford, J. H.. 1969. Effect of pinealectomy Of coturnix reared under non-stimulatory photoperiods. Poultry Sci. 48: 454459.CrossRefGoogle ScholarPubMed
Atwal, O. S.McFarland, L. Z. and Wilson, W. O.. 1964. Hematology of coturnix from birth to maturity. Poultry Sci. 43: 13921401.CrossRefGoogle Scholar
Axelrod, J. and Lauber, J. K.. 1968. Hydroxyindole-O-methyltransferase in several avian species (coturnix dindon canard and pigeon). Pharmacol G.B. 17: 828830.Google Scholar
Bacon, W., Cherms, F. L. Jr, and McShan, W. H.. 1964. Gonadotropin assay of pituitary from sexually mature male and laying female coturnix quail. Endocrin. 74: 498500.CrossRefGoogle ScholarPubMed
Bacon, W. L., Cherms, F. L., MacDonald, G. J., and McShan, W. H.. 1969. Gonadotropin potency variation in anterior pituitaries from sexually mature quail. (C. c. j.). Poultry sci. 48: 718721.CrossRefGoogle Scholar
Bacon, W. L., and Kootz, M.. 1971. Ovarian follicular growth and maturation in coturnix quail. Poultry Sci. 50: 233236.CrossRefGoogle ScholarPubMed
Boissin, J. and Assenmacher, I.. 1970. Circadian rhythms in adrenal cortical activity in the quail. J. Interdiscpl. Cycl Res. 1: 251265.CrossRefGoogle Scholar
Brody, P. N. and Zarrow, M. X.. 1968. The effect of estradiol, progesterone and prolactin on the oviduct of coturnix quail. Fed. Proc. 27: 497.Google Scholar
Cain, J. R. and Wilson, W. O.. 1971. Development of a radiommunoassay for chicken LH. Poultry Sci. 50: 1560. Abstr.Google Scholar
Casey, J. M., Reeves, J. J., Harrison, P. C. and Peterson, R. P.. 1971. Dual bioradiommuno detection of LH-RH like activity in hypothalamic tissue of coturnix quail. Poultry Sci. 50: 15621563. Abstr.Google Scholar
Daniels, G. L.. 1968. Ovulation and longevity in the Japanese quail. Poultry Sci. 47: 18751878.CrossRefGoogle ScholarPubMed
Della-Corte, F., Bracci, M. A. and Cosenza, L.. 1967. Somministrazione di FSH edi LH in quaglie sessaulmente immature per induzione del fotoperiodo et di prolattina in quaglii normali. Atti Soe. Peloritana Sci. Fis. Mat Nat. 13: 1121.Google Scholar
Ernst, R. A. and Ringer, R. K.. 1968. The effect of DDT, Zectran, and Zytron on packed cell volume, tota1 erythrocyte number and mean corpuscular volume of Japanese quail. Poultry Sci. 47: 639643.CrossRefGoogle Scholar
Farris, H. E.. 1967. Classical conditioning and courting behavior in Japanese quail. J. Exp.Analysis of Behavior 10: 213217.CrossRefGoogle ScholarPubMed
Follett, B. K.. 1970. Gonadotropin-releasing activity in the quail hypothalamus. Gen. Comp. Endocrin. 15: 165179.CrossRefGoogle ScholarPubMed
Follett, B. K. and Farner, D. S.. 1966. The effect of daily photoperiod on gonadal growth neurohypophysical hormone content and neurosecretion in the hypothalamalo-hypophysial system of the Japanese quail (Coturnix coturnix japonica). Gen. Comp. Endocrin. 7: 111124.CrossRefGoogle Scholar
Follett, B. K. and Riley, J.. 1967. Effect of the length of the daily photoperiod on thyroid activity in the female Japanese quail(Cuturnix coturnix juponica). Jour. Endocrin. 39: 615616.CrossRefGoogle Scholar
Follett, B. K. and Sharp, P. J.. 1968. Adrenergic and cholinergic Systems in the hypothalamus of the Japanese quail. Arch.d'Anat. d'Histol. and et du embroyl norm et exper. 51: 212222.Google ScholarPubMed
Follett, B. K. and Sharp, P. J.. 1969. Circadian rhythmicity in photoperiodically induced gonadotropins release and gonadal growth in quail. Nature 223: 968971.CrossRefGoogle ScholarPubMed
Follett, B. K., Scanes, C. G. and Cunningham, F. J.. 1971. A radiommunoassay of avian luteinizing hormone. J. Endocrin. 51: 359378.Google Scholar
Fujii, S., and Tamura, T.. 1967. Studies on the cloacal gland of the quail. II. Histochemical observations on secretions in the gland. Japanese Poultry Sci., 4: 194200.CrossRefGoogle Scholar
Hedlund, L., Ralph, C. L., Chepko, J. and Lunch, H. J.. 1971. A diurnal serotonin cycle in the pineal body of Japanese quail: photoperiod phasing and the effect of superior cervical ganglionectomy. Gen. Comp. Endocrin. 16: 5258.CrossRefGoogle ScholarPubMed
Homma, K., Wilson, W. O. and McFarland, L. Z.. 1965. Yolk dye deposition an index of ovum maturation in coturnix. Amer. Zool., Vol. 5: No. 2 Abst. 194.Google Scholar
HommaK., T. K., T., Siopes, D., Wilson, W. O. and McFarland, L. Z.. 1966. Identification of sex of day-old quail (Coturnix coturnix japonica) by cloaca1 examination. Poultry Sci. 45: 469472.CrossRefGoogle Scholar
Homma, K., McFarland, L. Z., and Wilson, W. O.. 1967. Response of the reproductive organs of the Japanese quail to pinealectomy and melatonin injection. Poultry Sci. 46: 314319.CrossRefGoogle Scholar
Homma, K. and Sakakibara, Y.. 1971. Encephalic photorecptors and their significance in photoperiodic control of sexual activity in Japanese quail. pp. 333341 In Biochronometry ed. Menaker, M., Natl. Acad. Sci., Washington, D. C.Google Scholar
Kannankeril, J. V. and Domm, L. V.. 1968. The influence of gonadectomy of sexual characters in the Japanese quail. Jour. Morphol. 126: 395412.CrossRefGoogle Scholar
Kato, M. and Konishi, T.. 1968. The effect of light and temperature on the testicular growth of the Japanese quail. Poultry Sci. 47: 10521056.CrossRefGoogle ScholarPubMed
Kato, M., Kato, Y. and Oishi, T.. 1967. Radioluminous paints as activator of the photoreceptor systems studied with swallow-tailed butterfly and quail. Proc. of Japanese Academy 43: 220223.CrossRefGoogle Scholar
Kincl, F. A. and Sickles, J. S.. 1969. Influence of progestational inovlation in the Japanese quail. Acta. Endocrinol. 60: 512516.Google ScholarPubMed
Konishi, T.. 1965. A method for the quantitative analysis of the neurosecretory materials in the avian median eminence. Zool. Magazine 74: 313328.Google Scholar
Konishi, T.. 1967. Neurosecretory activity in the anterior median eminence in relation to photoperiodic testicular responses in young Japanese quail. Endocrinol. Jap. 14: 6068.CrossRefGoogle ScholarPubMed
Konishi, T., Ishiguro, T. and Kato, M.. 1965. Photoperiodical studies on the testicular development of Japanese quail. Zool. Magazine 74(2): 5462.Google Scholar
Konishi, T. and Kato, M.. 1967. Light-induced rhythmic changes in the hypothalamic neurosecretory activity in Japanese quail. Endocrinol. Jap. 14: 239245.CrossRefGoogle ScholarPubMed
McFarland, L. Z., Mather, F. B. and Wilson, W. O.. 1964. Testicular response to gonadotropin in intermittent light in coturnix reared under limited light. Am. Jour. Vet. Res. 25: 15311534.Google ScholarPubMed
McFarland, L. Z., Yousef, M. K. and Wilson, W. O.. 1966. Influence of ambient temperature and hypothalamic lesions on the disappearance rate of thyroxine-I131 in the Japanese quail. Life Sciences 5: 309315.CrossRefGoogle Scholar
McFarland, L. Z., Homma, K. and Wilson, W. O.. 1968. Superior cervical ganglionectomy in Japanese quail. Experientia 24: 245247.CrossRefGoogle ScholarPubMed
McFarland, L. Z., Warner, R. L., Wilson, W. O. and Mather, F. B.. 1968. The cloacal gland complex of the Japanese quail. Experientia 24: 941943.CrossRefGoogle ScholarPubMed
McFarland, L. Z., Winget, C. M., Wilson, W. O. and Johnson, C. M.. 1970. Role of selenium in neural physiology of avian species. Poultry Sci. 49: 216221.CrossRefGoogle ScholarPubMed
Mahn, S.. 1969. Heart rates in Japanese quail. Poultry Sci. 48: 744.CrossRefGoogle ScholarPubMed
Marks, H. L.. 1967. The effect of debeaking on the fertility of Japanese quail. Quail Quarterly 4:(2): 4345.Google Scholar
Mather, F. B and Wilson, W. O.. 1964. Post-natal testicular development in the Japanese quail. Poultry Sci. 43: 860864.CrossRefGoogle Scholar
Meier, A. H. and Dusseau, J. W.. 1968. Prolactin and the photoperiodic gonadal responses in several avian species. Physiol. Zool. 41: 95103.CrossRefGoogle Scholar
Nagra, C. L., Meyer, R. K. and Bilstad, N.. 1959. Cloaca1 glands in Japanese quail. Histogensis and response to sex steroids. Anat. Rec. 133 (2): 415.Google Scholar
National Academy of Sciences National Research Council 1969. Coturnix-Standards and guidelines NAS publ. #1703, Washington, D.C.Google Scholar
Oishi, T., Konishi, T. and Kato, M.. 1966. Investigations of photorecepting mechanisms to control the gonadal development in Japanese quail. Environmental Control in Biology 3 (2): 8790.CrossRefGoogle Scholar
Oishi, T. and Kato, M.. 1968. Pineal organ as a possible photoreceptor in photoperiodic testicular response in Japanese quail. Memoirs of Faculty of Science, Kyoto University, Series of Biology 2 (1): 1218.Google Scholar
Oksche, A., Wilson, W. O. and Farner, D. S.. 1964. The hypothalamic neurosecretory system of Coturnix coturnix japonica. Zeit. Zellforschung 61: 688709.CrossRefGoogle ScholarPubMed
Opel, H.. 1967. The time of release of ovulating hormones in the coturnix quail as assayed by hypophysectomy. Poultry Sci. 46: 1302. Abstr.Google Scholar
Opel, H.. 1969. Transbuccal hypophysectomy in the Japanese quail. Poultry Sci. 48: 722728.CrossRefGoogle ScholarPubMed
Padgett, C. A. and Ivey, W.. 1959. Coturnix quail as a laboratory research animal. Science 129: 267268.CrossRefGoogle ScholarPubMed
Purcell, S. M. Jr. 1969. Morphological and stereological evaluation of testes of the Japanese quail. Ph.D. Dissertation, Univ. of Calif., Davis.Google Scholar
Ralph, C. L., Hedlund, L. and Murphy, W. A.. 1967. Diurnal cycles of melatonin in bird pineal bodies. Comp. Biochem. Physiol. 22: 591599.CrossRefGoogle Scholar
Ralph, C. L., Lynch, H. J. and Gundy, G. C. and Hedlund, L.. 1970. Pineal function and oviposition in Japanese quail: Superior cervical ganglionectomy and photoperiod. Sci. 170: 915997.Google ScholarPubMed
Ringer, R. K.. 1968. Blood pressure in Japanese and Bobwhite quail. Poultry Sci. 47: 16021604.CrossRefGoogle ScholarPubMed
Rothstein, R.. 1967. Some observations on the nesting behavior of coturnix quail in pseudonatural conditions. Poultry Sci. 46: 260262.CrossRefGoogle ScholarPubMed
A, Sayle. and Wolfson, A.. 1968a. Influence of the pineal gland on gonadal maturation in the Japanese quail. Endocrinol. 83: 12371246.Google Scholar
Sayler, A. and Wolfson, A.. 1968b. Role of the eyes and superior cervical ganglion on the effect of light on the pineal and gonads of the Japanese quail. Arch. d'Anat. d'Histol. and et du embryol. norm.et exper. 51: 615626.Google Scholar
Selinger, H.E. and Bermant, G.. 1967. Hormonal control of aggressive behavior in Japanese quail. Behavior 28: 255268.CrossRefGoogle ScholarPubMed
Sharp, P. J. and Follett, B. K.. 1968. Distribution of monoamines in the hypothalmus of the Japanese quail. Zeit.zellforschung 90: 245262.CrossRefGoogle Scholar
Sharp, P. J. and Follett, B. K.. 1969a. The blood supply to the pituitary and basal hypothalamus in the Japanese quail. J. Anat. 104: 227232.Google Scholar
Sharp, P. J. and Follett, B. K.. 1969b. The effect of hypothalamic lesions on the gonadotropin release in Japanese quail. Neuroendocrinol. 5: 205218.CrossRefGoogle ScholarPubMed
Shopes, T. D.. 1972. The effect of pinealectomy and blinding on the growth, maturation and periodic gonadal response of Japanese quail. MS Thesis University of California, Davis.Google Scholar
Stevens, V. C. 1961. Experimental studies of nesting by coturnix quail. J. Wildlife Mgt. 25: 99101.CrossRefGoogle Scholar
Tamura, T., Fujii, S., Kunisaki, H., and Yamane, M.. 1965. Histological observations on the quail oviduct: with reference to pigment (porphyrin) in the uterus. Fish and Anim. Husb., Hiroshima Univ., 6: 3757.Google Scholar
Tamura, T., and Fujii, S.. 1966a. Histological observations on the quail oviduct: On the secretions in the mucous epithelium of the uterus. J. Fish. and Anim. Husb., Hiroshima Univ., 6: 357371.Google Scholar
Tamura, T., and Fujii, S.. 1966b. Observations on the quail oviduct; Histochemical observations on the secretions of the glands and the mucous cells. J. Fish. and Anim. Husb., Hiroshima Univ., 6: 373393.Google Scholar
Tamura, T. and Fujii, S.. 1967a. Comparative observations on the distribution of flourescent pigments(porphyrins) in the egg-coverings of chickens and quail. J. Fish and Anim. Husb., Hiroshima Univ., 7: 3541.Google Scholar
Tamura, T., and Fujii, S.. 1967. Comparative observations on the distribution of flourescent pigments (porphyrins) in the chicken and quail uteri. J. Fish and Anim. Husb., Hiroshima Univ., 7: 4349.Google Scholar
Tanaka, K., Mather, F. B., Wilson, W. O. and McFarland, L. Z.. 1965. Effect of photoperiod on early growth of gonads and on potency of gonadotropins in the anterior pituitary of coturnix. Poultry Science. 44: 662665.CrossRefGoogle ScholarPubMed
Tanaka, K., Wilson, W. O., Mather, F. B. and McFarland, L. Z.. 1966a. Diurnal variation in the gonadotropin potency of the adenophypophysis of the Japanese quail. Gen.Comp. Endrocrinol. 6: 14.CrossRefGoogle Scholar
Tanaka, K., Wilson, W. O. and McFarland, L. Z.. 1966b. Testicular response in Japanese quail as a bioassay of the pituitary gonadotropins. Amer. Jour. Vet. Res. 27: 10671069.Google ScholarPubMed
Tixier-Vidal, A., Follett, B. K. and Farner, D. S.. 1968. The. anterior pituitary of the Japanese quail. The cytological effects of photoperiodic stimulation. Zeit. Zellforschung 92: 610635.CrossRefGoogle ScholarPubMed
Vohra, P.. 1971. A review of the nutrition of Japanese quail. World's Poultry Sci. J. 27: 2634CrossRefGoogle ScholarPubMed
Warner, R. L.. 1970. Edocrine control of sexually dimorphic plumage in Japanese quail. Ph.D. Dissertation. Univ. of California, Davis.Google Scholar
Wentworth, B. C.. 1968. Avian birth control potentialities with synthetic grit. Nature 220: 12431245.CrossRefGoogle ScholarPubMed
Wetherbee, D. K., Coppinger, R. P., Wentworth, B. C. and Walsh, R. E.. 1964 Antifecundity effects of Sudan Black B and transovarian intervital staning in avian population control. Mass. Agr. Expt. Sta. Bull. 543.Google Scholar
Whiting, M. G.. 1966. The composition of eggs in Japanese quail. Quoted in The Quail Quarterly 3(4): 75.Google Scholar
Wilson, W. O., Abbott, U. K. and Abplanalp, H.. 1959. Developmental and Physiological studies with a new pilot animal for poultry. Coturnix Quail Poultry Sci. 38: 1260. Abstr.Google Scholar
Wilson, W. O., Abplanalp, H. and Arrington, L.. 1962. Sexual development of Japanese Quail as affected by changes in photoperiods. Poultry Sci. 41: 1722.CrossRefGoogle Scholar
Wilson, W. O., Mather, F. B. and Tanaka, K.. 1965. Maintenance of egg production in coturnix following reduction in photoperiod. Poultry Sci. 44: 12991302.CrossRefGoogle Scholar
Wilson, W. O. and Siopes, T. D.. 1967. Conditioned gonadal response of Japanese quail to cyclic photoperiods. Int. J. Biometeor. 11: 289295.CrossRefGoogle Scholar
Wilson, W. O., Cain, J. R. and Siopes, T. D.. 1971. The interaction of light and temperature in coturnix. Poultry Sci. 50: 204207.CrossRefGoogle ScholarPubMed
Woodard, A. E. and Mather, F. B.. 1964a. Effect of photoperiod on the cyclic patterns of body temperature in the quail. Nature 203: 422423.CrossRefGoogle ScholarPubMed
Woodard, A. E. and Mather, F. B.. 1964b. The timing of ovulation, movement of the ova through the oviduct, pigmentation and shell deposition in Japanese quail. Poultry Sci. 43: 14271432.CrossRefGoogle Scholar
Woodard, A. E., Moore, J. A. and Wilson, W. O.. 1969. Effect of wavelength of light on growth and reproduction of Japanese quail. Poultry Sci. 48: 118–13.CrossRefGoogle Scholar
Woodard, A. E. and Wilson, W. O.. 1970. Behavioral patterns associated with oviposition in Japanese quail and chickens. J. Interdiscipl. Cycle res. 1: 173180.CrossRefGoogle Scholar
Woodard, A. E. and Abplanalp, H.. 1971. Longevity and reproduction in Japanese quail maintained under stimulatory ligting. Poultry Sci. 50: 688692.CrossRefGoogle Scholar
Yousef, M. K., McFarland, L. Z. and Wilson, W. O.. 1966. Ambient temperature effects on hypothalamic, rectal and skin temperature in coturnix. Life Sciences 5: 18871896.CrossRefGoogle ScholarPubMed