Summary
A demonstration of adaptive mate choice by females in resource-defence mating systems requires clear predictions as to how females should rank “breeding situations” (defined by the quality of both the resident male and the territory he defends) so as to maximize their fitness. Since male quality is only weakly correlated with territory quality in red-winged blackbirds (Agelaius phoeniceus), ranking breeding situations in this species will require a consideration of both those parameters independently of each other as long as both vary among males, are predictable before mating, and affect female fitness. Data from a two year study of an eastern Ontario population of this species suggested that two components of male parental quality, nest defence effort and provisioning of nestlings with food, both varied among males and were somewhat predictable. Two measures of nest defence effort were correlated with an index of epaulet size (a reliable predictor of captive dominance rank in this species) (Table 5), and provisioning appeared to be predictable on the basis of both courtship behavior and breeding experience. Our data also suggest that these two components of male parental quality do not covary. Since male provisioning tends to be restricted to the nestlings of the primary and secondary mates in this species, breeding situations must be ranked not only with respect to their manifold quality but also with respect to the mating status of individual females.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arnold SJ (1983) Sexual selection: the interface of theory and empiricism. In: Bateson P (ed) Mate choice, Cambridge University Press, Cambridge
Aspey WP, Blankenship JE (1977) Spiders and snails and statistical tales: application of multivariate analysis to diverse ethological data. In: Hazlett BA (ed) Quantitative methods in the study of animal behaviour. Academic Press, New York, pp 75–120
Blancher PJ, Robertson RJ (1982) Kingbird aggression: does it deter predation? Anim Behav 30:929–930
Caccamise DF (1976) Nesting mortality in the red-winged blackbird. Auk 93:517–534
Crawford RD (1977) Breeding biology of year-old and older female red-winged and yellow-headed blackbirds. Wilson Bull 89:73–80
Eckert CG (1985) The law of battle and polygyny in the redwinged blackbird. M.Sc. Thesis, Carleton University, Ottawa
Eckert CG, Weatherhead PJ (1987) Ideal dominance distributions: a test using red-winged blackbirds (Agelaius phoeniceus). Behav Ecol Sociobiol 20:43–52
Fisher RA (1958) The genetical theory of natural selection, 2nd edn., Dover, New York
Frey DF, Pimental RA (1978) Principal component analysis and factor analysis. In: Colgan P (ed) Quantitative ethology. Wiley & Sons, New York, pp 219–245
Greig-Smith PW (1980) Parental investment in nest defence by stonechats (Saxicola torquata). Anim Behav 28:604–619
Halliday TR (1983) The study of mate choice. In: Bateson P (ed), Mate choice, Cambridge University Press, Cambridge, Mass, pp 3–32
Holm CH (1973) Breeding sex ratios, and reproductive success in the red-winged blackbird (Agelaius phoeniceus). Ecology 54:356–365
Hurly TA, Robertson RJ (1984) Aggressive and territorial behaviour in female red-winged blackbirds. Can J Zool 62:148–153
Hurly TA, Robertson RJ (1985) Do female red-winged blackbirds limit harem size? Auk 102:205–209
LaPrade RH, Graves HB (1982) Polygyny and female-female aggression in red-winged blackbirds, Agelaius phoeniceus. Am Nat 120:135–138
Lenington S (1980) Female choice and polygyny in red-winged blackbirds. Anim Behav 28:347–361
Lenington S (1983) Commentary. In: Brush AH, Clark GA Jr (eds) Cambridge University Press, Cambridge, Mass, pp 85–91
Muldal AM, Moffat JD, Robertson RJ (1986) Male parental care of nestlings by red-winged blackbirds, Agelaius phoeniceus. Behav Ecol Sociobiol 19:105–114
Orians GH (1980) Some adaptations of marsh-nesting blackbirds. Princeton University Press, Princeton, NJ
Orians GH (1969) On the evolution of mating systems in birds and mammals. Am Nat 103:285–312
Orians GH, Christman GM (1968) A comparative study of the behavior of the red-winged, tricolored, and yellow-headed blackbirds, Vol. 84. University of California Publications in Zoology
Patterson LB (1979) Relative parental investment in the redwinged blackbird. Ph D Thesis, Indiana University
Payne RB (1979) Sexual selection and intersexual differences in variance in breeding success. Am Nat 114:447–452
Picman J (1980) Impact of marsh wrens on reproductive strategy of red-winged blackbirds. Can J Zool 58:337–350
Pleszynska WK (1978) Microgeographic prediction of polygyny in the lark bunting. Science 201:935–937
Rohwer S (1978) Passerine subadult plumages and the deceptive acquisition of resources: test of a critical assumption. Condor 80:173–179
Searcy WA (1979a) Female choice of mates: A general model for birds and its application to red-winged blackbirds. Am Nat 114:77–100
Searcy WA (1979b) Morphological correlates of dominance in captive male red-winged blackbirds. Condor 81:417–420
Searcy WA, Yasukawa K (1981) Does the sexy son hypothesis apply to mate choice in red-winged blackbirds? Am Nat 117:343–348
Searcy WA, Yasukawa K (1983) Sexual selection and redwinged blackbirds. Am Sci 71:166–174
Smith DG (1976) An experimental analysis of the function of red-winged blackbird song. Behaviour 61:136–155
SPSS Inc. (1984) SPSS-X User's Guide. McGraw-Hill, New York
Verner J (1964) The evolution of polygamy in the long-billed marsh wren. Evolution 18:252–261
Weatherhead PJ (1984) Mate choice in avian polygyny: why do females prefer older males? Am Nat 123:873–875
Weatherhead PJ, Robertson RJ (1977a) Harem size, territory quality, and reproductive success in the red-winged blackbird (Agelaius phoeniceus). Can J Zool 55:1261–1267
Weatherhead PJ, Robertson RJ (1977b) Male behavior and female recruitment in the red-winged blackbird. Wilson Bull 89:583–592
Weatherhead PJ, Robertson RJ (1979) Offspring quality and the polygyny threshold: “the sexy son hypothesis”. Am Nat 113:201–208
Wiens JA, Martin SD, Holthaus WR, Iwen FA (1970) Metronome timing in behavioral ecology studies. Ecology 51:350–352
Wittenberger JF (1976) The ecological factors selecting for polygyny in altricial birds. Am Nat 110:779–799
Wittenberger JF (1981) Male quality and polygyny: The “sexy son” hypothesis revisited. Am Nat 117:329–342
Yasukawa K (1978) Aggressive tendencies and levels of a graded display: factor analysis of response to song playback in the red-winged blackbird (Agelaius phoeniceus). Behav Biol 23: 446–459
Yasukawa K (1979) Territory establishment in red-winged blackbirds: importance of aggressive behavior and experience. Condor 81: 358–364
Yasukawa K (1981) Male quality and female choice of mate in the red-winged blackbird (Agelaius phoeniceus). Ecology 62:922–929
Yasukawa K, Searcy WA (1982) Aggression in female redwinged blackbirds: a strategy to ensure male parental investment. Behav Ecol Sociobiol 11:13–17
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Eckert, C.G., Weatherhead, P.J. Male characteristics, parental quality and the study of mate choice in the red-winged blackbird (Agelaius phoeniceus). Behav Ecol Sociobiol 20, 35–42 (1987). https://doi.org/10.1007/BF00292164
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00292164