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References

  • Allander, K. 1998. The effects of an ectoparasite on reproductive success in the great tit: a 3-year experimental study. Can. J. Zool. 76: 1925.
  • Allen, P.C. 1997. Production of free radical species during Eimeria maxima infections in chickens. Poultry Sci. 76: 814821.
  • Allen, J.R. & Nelson, W.A. 1982. Immunological responses to ectoparasites. In: Fortschritte der Zoologie: Immune Reactions to Parasites (W.Frank, ed.), pp. 169180. Gustav Fischer, Stuttgart.
  • Baker, R.R. & Parker, G.A. 1979. The evolution of bird coloration. Philos. Trans. R. Soc. Lond. B 287: 63130.
  • Beath, K.J. 2000. GLM Stat, Version 5.2.1. Sydney.
  • Bendich, A. 1989a. Carotenoids and the immune system. In: Carotenoids: Chemistry and Biology (N. I.Krinsky, M. M.Mathews-Roth & R. F. Taylor, eds), pp. 323335. Plenum Press, New York.
  • Bendich, A. 1989b. Carotenoids and the immune response. J. Nutr. 119: 112115.
  • Bendich, A. & Olson, J.A. 1989. Biological actions of carotenoids. FASEB J. 3: 19271932.
  • Bennett, T.D. & Cuthill, I.C. 1994. Ultraviolet vision in birds: what is its function? Vision Res. 34: 14711478.
  • Bennett, A.T.D., Cuthill, I.C. & Norris, K.J. 1994. Sexual selection and the mismeasure of color. Am. Nat. 144: 848860.
  • Blount, J.D., Houston, D.C. & Møller, A.P. 2000. Why egg yolk is yellow. Trends Ecol. Evol. 15: 4749.
  • Bortolotti, G.R., Negro, J.J., Tella, J.L., Marchant, T.A. & Bird, D.M. 1996. Sexual dichromatism in birds independent of diet, parasites and androgens. Proc. R. Soc. Lond. B 263: 11711176.
  • Bortolotti, G.R., Tella, J.L., Forero, M.G., Dawson, R.D. & Negro, J.J. 2000. Genetics, local environment and health as factors influencing plasma carotenoids in wild American kestrels (Falco sparverius). Proc. R. Soc. Lond. B 267: 14331438.
  • Brockmann, H. & Völker, O. 1934. Der gelbe Federfarbstoff des Kanarienvogels (Serinus canaria canaria) und das Vorkommen von Carotinoiden bei Vögeln. Hoppe-Seyler's Z. Physiol. Chem. 13: 193215.
  • Brush, A.H. 1978. Avian pigmentation. In: Chemical Zoology (A. H.Brush, ed.), pp. 141164. Academic Press, New York.
  • Brush, A.H. 1990. Metabolism of carotenoid pigments in birds. FASEB J. 4: 29692977.
  • Craig, J.K. & Foote, C.J. 2001. Countergradient variation and secondary sexual color: phenotypic convergence promotes genetic divergence in carotenoid use between sympatric anadromous and nonanadromous morphs of sockeye salmon (Oncorhynchus nerka). Evolution 55: 380391.
  • De Kogel, C.H. & Prijs, H.J. 1996. Effects of brood size manipulations on sexual attractiveness of offspring in the zebra finch. Anim. Behav. 51: 699708.
  • Eeva, T., Lehikoinen, E. & Nurmi, J. 1994. Effects of ectoparasites on breeding success of Great tits (Parus major) and Pied flycatchers (Ficedula hypoleuca) in an air pollution gradient. Can. J. Zool. 72: 624635.
  • Fitze, P.S. & Richner, H. 2002. Differential effects of a parasite on ornamental structures based on melanins and carotenoids. Behav. Ecol., 13: 401407.
  • Frischknecht, M. 1993. The breeding coloration of male three-spined sticklebacks (Gasterosteus aculeatus) as an indicator of energy investment in vigour. Evol. Ecol. 7: 439450.
  • Goodwin, T.W. 1984. The Biochemistry of the Carotenoids. Chapmann & Hall, London.
  • Grafen, A. 1990. Sexual selection unhandicapped by the Fisher Process. J. Theor. Biol. 144: 473516.
  • Grether, G.F., Hudon, J. & Millie, D.F. 1999. Carotenoid limitation of sexual coloration along environmental gradient in guppies. Proc. R. Soc. Lond. B 266: 13171322.
  • Hamilton, W.D. & Zuk, M. 1982. Heritable true fitness and bright birds: a role for parasites? Science 218: 384387.
  • Heeb, P., Werner, I., Mateman, A.C., Kölliker, M., Brinkhof, M.W.G., Lessells, C.M. & Richner, H. 1999. Ectoparasite infestation and sex-biased local recruitment of hosts. Nature 400: 6365.
  • Hill, G.E. 1990. Female house finches prefer colourful males: sexual selection for a condition-dependent trait. Anim. Behav. 40: 563572.
  • Hill, G.E. 1991. Plumage coloration is a sexually selected indicator of male quality. Nature 350: 337339.
  • Hill, G.E. 1992. Proximate basis of variation in carotenoid pigmentation in male house finches. Auk 109: 112.
  • Hill, G.E. 1994. House finches are what they eat – a reply to Hudon. Auk 111: 221225.
  • Hill, G.E. 1996. Redness as a measure of the production cost of ornamental coloration. Ethol. Ecol. Evol. 8: 157175.
  • Hill, G.E. 1999. Is there an immunological cost to carotenoid-based ornamental coloration? Am. Nat. 154: 589595.
  • Hill, G.E. & Brawner, W.R. III. 1998. Melanin-based plumage coloration in the house finch is unaffected by coccidial infection. Proc. R. Soc. Lond. B 265: 11051109.
  • Hill, G.E. & Montgomerie, R. 1994. Plumage colour signals nutritional condition in the house finch. Proc. R. Soc. Lond. B 258: 4752.
  • Hõrak, P., Vellau, H., Ots, I. & Møller, A.P. 2000. Growth conditions affect carotenoid-based plumage coloration of great tit nestlings. Naturwissenschaften 87: 460464.
  • Houde, A.E. & Torio, A.J. 1992. Effect of parasitic infection on male color pattern and female choice in guppies. Behav. Ecol. 3: 346351.
  • Hudon, J. 1994. Showiness, carotenoids, and captivity: a comment on Hill (1992). Auk 111: 218221.
  • Hurlbert, S.H. 1984. Pseudoreplication and the design of ecological field experiments. Ecol. Monographs 54: 187211.
  • Kodric-Brown, A. 1989. Dietary carotenoids and male mating success in the guppy: an environmental component to female choice. Behav. Ecol. Sociobiol. 25: 393401.
  • Lozano, G.A. 1994. Carotenoids, parasites, and sexual selection. Oikos 70: 309311.
  • Merilä, J. 1997. Expression of genetic variation in body size of the collared flycatcher under different environmental conditions. Evolution 51: 526536.
  • Merino, S. & Potti, J. 1996. Weather dependent effects of nest ectoparasites on their bird hosts. Ecography 19: 107113.
  • Milinski, M. & Bakker, T.C.M. 1990. Female sticklebacks use male coloration in mate choice and hence avoid parasized males. Nature 344: 330333.
  • Møller, A.P., Biard, C., Blount, J.D., Houston, D.C., Ninni, P., Saino, N. & Surai, P.F. 2001. Carotenoid-dependent signals: Indicators of foraging efficiency, immunocompetence or detoxification ability? Avian Poult. Biol. Rev. 11: 137159.
  • Nowak, R. 1994. Beta-Carotene: helpful or harmful? Science 264: 500501.
  • Olson, V.A. & Owens, I.P.F. 1998. Costly sexual signals: are carotenoids rare, risky or required? Trends Ecol. Evol. 13: 510514.
  • Partali, V., Liaaen-Jensen, S., Slagsvold, T. & Lifjeld, J.T. 1987. Carotenoids in food chain studies – II. The food chain of Parus spp. monitored by carotenoid analysis. Comp. Biochem. Physiol. B 87: 885888.
  • Richner, H., Oppliger, A. & Christie, P. 1993. Effect of an ectoparasite on reproduction in great tits. J. Anim. Ecol. 62: 703710.
  • Ruff, M.D., Reid, W.M. & Johnson, J.K. 1974. Lowered blood carotenoid levels in chickens infected with coccidia. Poultry Sci. 53: 18011809.
  • Saino, N., Ninni, P., Calza, S., Martinelli, R., De Bernardi, F. & Møller, A.P. 2000. Better red than dead: carotenoid-based mouth coloration reveals infection in barn swallow nestlings. Proc. R. Soc. Lond. B 267: 5761.
  • Saino, N., Stradi, R., Ninni, P., Pini, E. & Møller, A.P. 1999. Carotenoid plasma concentration, immune profile and plumage ornamentation of male barn swallows (Hirundo rustica). Am. Nat. 154: 441448.
  • Sall, J. & Lehmann, A. 1996. JMP Start Statistics, Version 3.2.1. Duxbury Press, New York.
  • Savalli, U.M. 1995. The evolution of bird coloration and plumage elaboration: a review of hypotheses. In: Current Ornithology (D. M.Power, ed.), pp. 141190. Plenum Press, New York.
  • Von Schantz, T., Bensch, S., Grahn, M., Hasselquist, D. & Wittzell, H. 1999. Good genes, oxidative stress and condition-dependent sexual signals. Proc. R. Soc. Lond. B. 266: 112.
  • Shykoff, J.A. & Widmer, A. 1996. Parasites and carotenoid-based signal intensity: how general should the relationship be? Naturwissenschaften 83: 113121.
  • Skarstein, F. & Folstad, I. 1996. Sexual dichromatism and the immunocompetence handicap: an observational approach using Arctic charr. Oikos 76: 359367.
  • Slagsvold, T. & Lifjeld, J.T. 1985. Variation in plumage colour of the Great tit Parus major in relation to habitat, season and food. J. Zool. 206: 321328.
  • Sundberg, J. 1995. Female yellowhammers (Emberiza citrinella) prefer yellower males: a laboratory experiment. Behav. Ecol. Sociobiol. 37: 275282.
  • Thompson, C.W., Hillgarth, N., Leu, M. & McClure, H.E. 1997. High parasite load in house finches (Carpodacus mexicanus) is correlated with reduced expression of a sexually selected trait. Am. Nat. 149: 270294.
  • Tripet, F. & Richner, H. 1999. Density-depended processes in the population dynamics of a bird ectoparasite Ceratophyllus gallinae. Ecology 80: 12671277.
  • Wilkinson, D.P. 1989. systat: the system for statistics. Evanston.
  • Zahavi, A. 1975. Mate selection – a selection for a handicap. J. Theor. Biol. 53: 205214.
  • Zuk, M.R., Thornhill, R., Ligon, J.D. & Johnson, K. 1990. Parasites and mate choice in red jungle fowl. Am. Zool. 30: 235244.