Abstract
Deer are long-lived herbivores, and most species are seasonal breeders. In females, the most energy-demanding phase of the reproductive cycle (late pregnancy and lactation) is timed to coincide with the period of maximum food abundance and quality. In males, the period of fertility is timed to the availability of estrous females. The annual cycle in gonadal activity is generated endogenously and is entrained to a particular time of year by responses to environmental cues; these are principally changes in day length in the cold/temperate zones, and possibly nutrition in the tropics.
Key words
- Annual rhythms
- environmental cues
- latitude
- ovary
- pineal gland
- pituitary gland
- seasonal reproductive cycles
- testis
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References
Adam CL, Atkinson T (1984) Effect of feeding melatonin to red deer (Cervus elaphus) on the onset of the breeding season. J Reprod Fert 72: 463 – 466
Arendt J (1986) Role of the pineal gland and melatonin in seasonal reproductive function in mammals. Oxford Reviews Reprod Biol 8: 266 – 320
Asdell SA (1964) Patterns of Mammalian Reproduction, 2nd ed. Comstock, Ithaca, New York
Asher GW, Peterson A J, Bass J J (1989) Seasonal pattern of LH and testosterone secretion in adult male fallow deer Dama dama. J Reprod Fert 85: 657 – 665
Asher GW, Barrell GH, Adam JL, Staples L (1988) Effects of subcutaneous melatonin implants on reproductive seasonality of farmed fallow deer (Dama dama). J Reprod Fert 84: 679 – 691
Asher GW, Day AM, Barrel GK (1987) Annual cycle of liveweight and reproductive changes of farmed male fallow deer (Dama dama) and the effect of daily oral administration of melatonin in summer on the attainment of seasonal fertility. J Reprod Fert 79: 353 – 362
Baker JR (1938) The evolution of breeding seasons. In de Beer GR (ed) Evolution: Essays on Aspects of Evolutionary Biology, Oxford University Press, Oxford, pp 161 – 177
Bronson FH (1989) Mammalian Reproductive Biology. University of Chicago Press, Chicago
Brown RD, Cowan RL, Kavanaugh JF (1978) Effect of pinealectomy on seasonal androgen titres, antler growth and feed intake in white-tailed deer. J Anim Sci 47: 435 – 440
Bubenik GA (1983) Shift of seasonal cycle in white- tailed deer by oral administration of melatonin. J Exp Zool 225: 155 – 156
Chapman DI, Chapman NG, Dansie O (1984) The periods of conception and parturition in feral Reeves muntjac (Muntiacus reevesi) in Southern England based upon age of juvenile animals. J Zool London 204: 575 – 578
Clutton-Brock TH, Guinness FE, Albon SD (1982) Red Deer: Behaviour and Ecology of Two Sexes. University of Chicago Press, Chicago
Corbet GB, Southern HN (1977) The Handbook of British Mammals. Blackwell Scientific Publications, Oxford.
Goss RJ (1983) Deer Antlers: Regeneration, Function and Evolution. Academic Press, New York
Leader-Williams N (1988) Reindeer on South Georgia. Cambridge University Press, Cambridge
Lincoln GA (1989) Seasonal aspects of testicular function. In Burger H, de Kretser D (eds) The Testis, 2nd ed. Raven Press, New York, pp 329 – 386
Lincoln GA (1985) Seasonal breeding in deer. In Fennessy PF, Drew KR (eds) Biology of Deer Production. R Soc N Z Wellington Bull 22: 165 – 180
Lincoln GA (1971) The seasonal reprodutive changes in the red deer stag (Cervus elaphus). J Zool London 163: 105 – 123
Lincoln DW, Fraser HM, Lincoln GA, Martin GB, McNeilly AS (1985) Hypothalamic pulse generators. Recent Prog Hormone Res 41: 369 – 419
Lincoln GA, Fraser HM, Fletcher TJ (1984) Induction of early rutting in male red deer (Cervus elaphus) by melatonin and its dependence on LHRH. J Reprod Fert 72: 339 – 343
Loudon ASI, Curlewis JD (1988) Cycles of antler and testicular growth in an aseasonal tropical deer (Axis axis). J Reprod Fert 83: 729 – 738
Mishra HR (1982) The ecology and behaviour of chital (Axis axis) in the Royal Chitawan National Park, Nepal. PhD thesis, University of Edinburgh, Scotland
Mitchell B, Lincoln GA (1973) Conception dates in relation to age and condition in two populations of red deer in Scotland. J Zool London 171: 141 – 152
Plotka ED, Seal US, Letellier MA, Verme LJ, Ozoga J J (1979) Endocrine and morphological effects of pinealectomy in white-tailed deer. In Alexander J (ed) Animal Models for Research on Contraception and Fertility Research. Harper and Row, Hagers- town, pp 452 – 466
Schnare H, Fischer K (1987) Secondary sex characteristics and connected physiological values in male fallow deer (Dama damaL) and their relationship to changes of the annual photoperiod: doubling the frequency. J Zool 244: 463 – 471
Suttie JM, Fennessy PF, Corson ID, Laas FJ, Elgar JH, Lapwood KR (1989) LH and testosterone response to GnRH in red deer (Cervus elaphus) stags kept in a manipulated photoperiod. J Reprod Fert 85: 213 – 219
Tamarkin L, Baird CJ, Almeida OFX (1985) Melatonin: a co-ordinating signal for mammalian reproduction. Science 227: 714 – 720
Sadleir RMFS (1987) Reproduction of female cervids. In Wemmer CM (ed) Biology and Management of the Cervidae. Smithsonian Institution Press, Washington, D.C., pp 123 – 144
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© 1992 Springer-Verlag New York, Inc.
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Lincoln, G.A. (1992). Biology of Seasonal Breeding in Deer. In: Brown, R.D. (eds) The Biology of Deer. Springer, New York, NY. https://doi.org/10.1007/978-1-4612-2782-3_131
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DOI: https://doi.org/10.1007/978-1-4612-2782-3_131
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