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Abstract

An adaptive decline in average clutch size with progressive date of laying is char acteristic of most bird species with a single clutch of variable size per year. The effect of photoperiod on timing of laying, clutch size, and subsequent molt was investigated in kestrel pairs breeding and raising their young in captivity. In natural daylight (nLD), clutch size, under ad libitum feeding, showed the same decline with date as in nature. Birds breeding later also started molt later and molted faster (more feathers simultaneously), so that all birds completed molt more or less at the same time.

Constant long days (LD 17.5:6.5 and LD 13:11) from December 1 onward advanced both reproduction and molt. The LD 17.5:6.5 group developed the reproductive system faster, had a shorter courtship period, and laid eggs earlier than the LD 13:11 group. In both photoperiods there was a decrease in clutch size with progressive laying date, similar to that in nLD. Molt started in both groups at about the end of the laying period and slowed down in the longer photoperiod, especially in males. Plasma luteinizing hormone (LH) changes in the two pho toperiods were different for males and females. Males showed the expected slower LH re sponse in the shorter photoperiod, but the initial LH response by females was the same in both photoperiods. Data on LH, reproductive behavior, and body mass suggest that females have a wider annual reproductive window than males. Data on time of laying and number of eggs suggest that clutch size in the kestrel is determined by laying date itself, following an endog enous rhythm that is phase-locked to the reproductive cycle.

References

Ashmole, N.D. (1962) The black noddy (Anous teuirostris) on Ascension Island. Ibis 103: 235-319.

Berndt, R. , and W. Winkel (1967) Die Gelegegrösse der Trauerschnapper (Ficedula hypoleuca) in Beziehubng zu Ort, Zeit, Biotop und Alter. Die Vogelwelt 88: 97-136.

Beukeboom, L. , C. Dijkstra , S. Daan , and T. Meijer (1988) Seasonality of clutch size determination in the kestrel Falco tinnunculus: An experimental study. Ornis Scand. 19: 41-48.

Boddy, M. (1983) Autumn molt of adult and juvenile lesser redpolls in Nottinghamshire, England. Ornis Scand. 14: 299-308.

Cavé, A.J. (1968) The breeding of the kestrel Falco tinnunculus L. in the reclaimed area Oostelijk Flevoland. Neth. J. Zool. 18: 313-407.

Chilgren, J.S. (1978) Effects of photoperiod and temperature on postnuptial molt in captive white-crowned sparrows. Condor 80: 222-229.

Daan, S. , C. Dijkstra , R.H. Drent , and T. Meijer (in press) Food supply and the annual timing of avian reproduction . Proc. XIX Int. Ornithol. Congress, Ottawa.

Davies, N.B. , and A. Lundberg (1985) The influence of food on the time budgets and timing of breeding of the Dunnock (Prunella modularis). Ibis 127: 100-110.

Dawson, A. , and A.R. Goldsmith (1983) Plasma prolactin and gonadotrophins during gonadal development and the onset of photorefractoriness in male and female starlings (Sturnus vulgaris) on artificial photoperiods. J. Endocrinol. 97: 253-260.

10.

Dawson, A. , and A.R. Goldsmith (1985) Modulation of gonadotrophin and prolactin secretion by daylength and breeding behaviour in free-living starlings, Sturnus vulgaris . J. Zool. 206: 241-252.

11.

Dijkstra, C. (1988) Reproductive Tactics in the Kestrel, Falco tinnunculus: A Study in Evolutionary Biology, PhD dissertation, University of Groningen.

12.

Dijkstra, C. , L. Vuursteen , S. Daan , and D. Masman (1982) Clutch size and laying date in the kestrel Falco tinnunculus L.: The effect of suplemental food. Ibis 124: 210-213.

13.

Dolnik, V.R. , and V.M. Gavrilov (1980) Photoperiodic control of the molt cycle in the chaffinch (Fringilla coelebs). Auk 97: 50-62.

14.

Farner, D.S. , R.S. Donham , and M.C. Moore (1981) Induction of testicular development in house sparrow, Passer domesticus, and white-crowned sparrow, Zonotrichia leucopohrys gambelii, with very long days and continuous light. Physiol. Zool. 54: 372-378.

15.

Groscolas, R. , M. Jallageas , A.R. Goldsmith , and I. Assenmacher (1986) The endocrine control of reproduction and molt in male and female emperor (Apteriodytes forsteri) and Adelie (Pygoscelis adelie) penguins. Gen. Comp. Endocrinol. 62: 43-53.

16.

Gwinner, E. (1986) Circannual rhythms: Endogenous circannual clocks in the organization of seasonal processes. In Zoophysiology , Vol. 18, Springer-Verlag , Berlin.

17.

Gwinner, E. , J. Dittami , G. Gänshirt , M. Hall , and J. Wozniak (1985) Exogenous and endogenous components in the control of the annual reproductive cycle of the European starling. Proc. XVIII Int. Ornithol. Congress, Moscow, 501-515.

18.

Hiatt, E.S. , A.R. Goldsmith , and D.S. Farner (1987) Plasma levels of prolactin and gonadotrophins during the reproductive cycle of white-crowned sparrows (Zonotrichia leucophrys) . Auk 104: 208-217.

19.

Järvinen, A. , and R.A. Väisänen (1984) Reproduction of pied flycatchers (Ficedula hypoleuca) in good and bad breeding seasons in a northern marginal area. Auk 101: 439-451.

20.

Klomp, H. (1970) The determination of clutch size in birds: A review . Ardea 58: 1-125.

21.

Kobayashi, H. (1954) Studies on molting in the pigeon: VIII. Effects of sex steroids on molting and thyroid gland. Annotres Zool. Jap. 27: 22-26.

22.

Masman, D. (1986) The Annual Cycle of the Kestrel (Falco tinnunculus): A Study in Behavioural Energetics, PhD dissertation, University of Groningen.

23.

Masman, D. , S. Daan , and C. Dijkstra (1988) Time allocation in the kestrel (Falco tinnunculus) and the principle of energy minimization. J. Anim. Ecol. 57: 411-432.

24.

Meijer, T. (1988) Reproductive decisions in the kestrel, Falco tinnunculus: A Study in physiological ecology, PhD dissertation, University of Groningen.

25.

Meijer, T. , S. Daan , and C. Dijkstra (1988) Female condition and reproductive decisions: The effect of food manipulations in free-living and captive kestrels. Ardea 76: 141-154.

26.

Meijer, T. , and H. Schwabl (1989) Hormonal patterns in breeding and non-breeding kestrels: Field and laboratory studies. Gen. Comp. Endocrinol. 74: 148-160.

27.

Moore, C.M. , R.S. Donham , and D.S. Farner (1982) Physiological preparation for autumn migration in white-crowned sparrows. Condor 84: 410-419.

28.

Moore, C.M. , H. Schwabl , and D.S. Farner (1983) Biochronometry of testicular regression in white-crowned sparrows (Zonotichia leucophrys gambelii). J. Comp. Physiol. 153: 489-494.

29.

Murton, R.K. , and N.J. Westwood (1977) Avian Breeding Cycles, Clarendon Press, Oxford.

30.

Newton, I. (1986) The Sparrowhawk, T. and A. D. Poyser , Calton.

31.

Payne, R. (1972) Mechanisms and control of molt. In Avian Biology, Vol. 2, D. S. Farner and J. R. King , eds., pp. 104-157, Academic Press, New York.

32.

Schleussner, G. , J.P. Dittami , and E. Gwinner (1985) Testosterone implants affect molt in male European starling, Sturnus vulgaris. Phys. Zool. 58: 597-604.

33.

Storey, C.R. , and T.J. Nicholls (1976) Some effects of manipulation of daily photoperiod on the rate of onset of a photorefractory state in canaries. Gen. Comp. Endocrinol. 30: 204-208.

34.

Takewaki, K. , and H. Mori (1944) Mechanism of molt in the canary J. Fac. Sci. Univ. Tokyo 6: 547-575.

35.

Vaugien, L. (1955) Sur les reactions testiculaires de jeune moineau domestique, illuminé a diverses époques de la mauvaise saison. Bull. Biol. Fr. Belg. 139: 218-244.

36.

Wingfield, J.C. , and D.S. Farner (1979) Some endocrine correlates of renesting after loss of clutch of brood in the white-crowned sparrows. (Zonotichia leucophrys gambelii) . Gen. Comp. Endocrinol. 38: 322-331.

37.

Wingfield, J.C. , and D.S. Farner (1980) Control of seasonal reproduction in temperate zone birds. Prog. Reprod. Biol. 5: 62-101.

Photoperiodic Control of Reproduction and Molt in the Kestrel,Falco tinnunculus

Abstract

References