Abstract
Arrival times for migratory animals can be viewed as the result of an optimization process of costs and benefits of early arrival, and when the cost and benefit functions of early arrival depend on phenotypic quality, this will result in phenotype-dependent optimal arrival times. This hypothesis was tested for males of the migratory and sexually size-dimorphic barn swallow Hirundo rustica. The major cost of early arrival is poor environmental conditions which resulted in mortality of short-tailed early-arriving males in one year. The major benefits of early arrival are higher mating success, enhanced reproductive success, improved recruitment rates for offspring, and enhanced quality of the mate acquired. Annual variation in male arrival date is related to weather conditions at the breeding grounds, but also to some extent to weather conditions in the African winter quarters. Individual variation in arrival time can be explained by phenotype-dependent cost and benefit functions of early arrival. Male barn swallows with long tail ornaments arrived earlier than short-tailed males. The costs of early arrival should be particularly high under poor environmental conditions and lead to a stronger negative relationship between arrival date and phenotypic quality in years with poor environmental conditions. This prediction was confirmed by a stronger negative relationship between male tail length and date of arrival in years when arrival was relatively late because of poor weather. A female preference for early-arriving males may result in acquisition of good genes for optimal migratory behaviour, if migratory direction and extent have a genetic basis as shown in a number of different bird species.
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References
Alatalo RV, Lundberg A, Ståhlbrandt K (1984) Female mate choice in the pied flycatcher Ficedula hypoleuca. Behav Ecol Sociobiol 14:253–261
Alerstam T (1982) Fågelflyttning. Signum, Lund
Andersson M (1986) Evolution of condition-dependent sex ornaments and mating preferences: sexual selection based on viability differences. Evolution 40:804–820
Arvidsson B, Neergaard R (1991) Mate choice in the willow warbler — a field experiment. Behav Ecol Sociobiol 29:225–229
Balmford A, Thomas A (1992) Swallowing ornamental asymmetry. Nature 359:487
Baillie SR, Peach WJ (1992) Population limitation in Palaearctic-African migrant passerines. Ibis 134 Suppl 1:120–132
Berthold P (1990) Vogelzug. Wissenschaftliche Buchgesellschaft, Darmstadt
Berthold P, Querner U (1981) Genetic basis of migratory behavior in European warblers. Science 212:77–79
Berthold P, Helbig AJ, Mohr G, Querner U (1992) Rapid microevolution of migratory behaviour in a wild bird species. Nature 360:668–670
Bulmer MG (1983a) Models for the evolution of protandry in insects. Theor Popul Biol 23:314–322
Bulmer MG (1983b) The significance of protandry in social hymenoptera. Am Nat 121:540–551
Burley N (1986) Sexual selection for aesthetic traits in species with biparental care. Am Nat 127:415–445
Fagerstrom T, Wiklund C (1982) Why do males emerge before females? Protandry as a mating strategy in male and female butterflies. Oecologia 52:164–166
Fischer JCH (1869) Snestormen den 13de maj 1867 og småfuglene. Naturhist Tidsskr 3:143–160
Glutz von Blotzheim UN, Bauer KM (eds) (1985) Handbuch der Vögel Mitteleuropas, vol. 10/1. AULA, Wiesbaden
Helbig AJ (1991) Inheritance of migratory direction in a bird species: a cross-breeding experiment between SE- and SW-migrating blackcaps (Sylvia atricapilla). Behav Ecol Sociobiol 28:9–12
Heywood JS (1989) Sexual selection by the handicap mechanism. Evolution 43:1387–1397
Iwasa Y, Odendaal FJ, Murphy DD, Ehrlich PR, Launer AE (1983) Emergence patterns in male butterflies: a hypothesis and a test. Theor Popul Biol 23:363–379
Iwasa Y, Pomiankowski A, Nee S (1991) The evolution of costly mate preferences. II. The “handicap” principle. Evolution 45:1431–1442
Lack D (1954) The natural regulation of animal numbers. Oxford University Press, London
Lope F de, Møller AP (1993) Female reproductive effort depends on the degree of ornamentation of their mates. Evolution 47:1152–1160
Magrath RD (1991) Nestling weight and juvenile survival in the blackbird, Turdus merula. J Anim Ecol 60:335–351
Møller AP (1988) Female choice selects for male sexual tail ornaments in the monogamous swallow. Nature 322:640–642
Møller AP (1989a) Population dynamics of a declining swallow Hirundo rustica L. population. J Anim Ecol 58:1051–1063
Møller AP (1989b) Viability costs of male tail ornaments in a swallow. Nature 339:132–135
Møller AP (1990) Male tail length and female mate choice in the monogamous swallow Hirundo rustica. Anim Behav 39:458–465
Møller AP (1991a) Sexual selection in the monogamous barn swallow (Hirundo rustica). I. Determinants of tail ornament size. Evolution 45:1823–1836
Møller AP (1991b) Preferred males acquire mates of higher phenotypic quality. Proc R Soc Lond B 245:179–182
Møller AP (1991c) Viability is positively related to degree of ornamentation in male swallows. Proc R Soc Lond B 243:145–148
Møller AP (1994) The barn swallow and sexual selection. Oxford University Press, Oxford
Møller AP, Lope F de (1994) Differential costs of a secondary sexual character: An experimental test of the handicap principle. Evolution (in press)
Myers JP (1981) A test of three hypotheses for latitudinal segregation of the sexes in wintering birds. Can J Zool 59:1527–1534
Parker GA, Courtney SP (1983) Seasonal incidence: adaptive variation in the timing of life history stages. J Theor Biol 105:147–155
Piersma T, Jukema J (1993) Red breasts as honest signals of migratory quality in a long-distance migrant, the bar-tailed godwit. Condor 95:163–177
Rudebeck G (1957) Studies of some Palaearctic and Arctic birds in their winter quarters in South Africa. I. The European swallow (Hirundo rustica L.). S Afr Anim Life 4:460–472
Siegel S, Castellan NJ Jr (1988) Nonparametric statistics for the behavioral sciences, 2nd edn. McGraw-Hill, New York
Sokal RR, Rohlf FJ (1981) Biometry. 2nd edn. WH Freeman, San Francisco
Stoner D (1935) Temperature and growth studies on the barn swallow. Auk 52:400–407
Svensson L (1984) Identification guide to European passerines, 2nd edn. Lars Svensson, Stockholm
Thomas ALR (1993) On the aerodynamics of bird tails. Phil Trans R Soc Lond B 340:361–380
Turner A, Rose C (1989) A handbook of the swallows and martins of the world. Christopher Helm, London
Wiklund C, Fagerström T (1977) Why do males emerge before females? A hypothesis to explain the incidence of protandry in butterflies. Oecologia 31:153–158
Zahavi A (1975) Mate selection — a selection for a handicap. J Theor Biol 53:205–214
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Communicated by M.A. Elgar
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Møller, A.P. Phenotype-dependent arrival time and its consequences in a migratory bird. Behav Ecol Sociobiol 35, 115–122 (1994). https://doi.org/10.1007/BF00171501
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DOI: https://doi.org/10.1007/BF00171501