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References

  • Adamo, S.A. (2004) Estimating disease resistance in insects: phenoloxidase and lysozyme-like activity and disease resistance in the cricket Grillus texensis. Journal of Insect Physiology, 50, 209216.
  • Andersson, M. & Simmons, L.W. (2006) Sexual selection and mate choice. Trends in Ecology and Evolution, 21, 296302.
  • Barth, R.H., Lester, L.J., Sroka, P., Kesler, T. & Hearn, B. (1975) Juvenile hormone promotes dominance behavior and ovarian development in social wasps (Polistes annularis). Experientia, 31, 691692.
  • Bergman, D.A. & Moore, P.A. (2003) Field observations of intraspecific agonistic behavior of two crayfish species, Orconectes rusticus and Orconectes virilis, in different habitats. The Biological Bulletin, 205, 2635.
  • Brent, C., Peeters, C., Dietemann, V., Crewe, R & Vargo, E. (2006) Hormonal correlates of reproductive status in the queenless ponerine ant, Streblognathus peetersi. Journal of Comparative Physiology. A, Neuroethology, Sensory, Neural and Behavioral Physiology, 192, 315320.
  • Brent, C.S. & Vargo, E.L. (2003) Changes in juvenile hormone biosynthetic rate and whole body content in maturing virgin queens of Solenopsis invicta. Journal of Insect Physiology, 49, 967974.
  • Cerenius, L. & Söderhäll, K. (2004) The prophenoloxidase-activating system in invertebrates. Immunological Reviews, 198, 116126.
  • Chapman, R.F. (1998) The Insects. Structure and Function. Cambridge University Press, Cambridge, MA.
  • Cole, T.J., Eggleston, P. & Hurd, H. (2003) Juvenile hormone titre and egg production in Tenebrio molitor infected by Hymenolepis diminuta: effect of male and/or female infection, male age and mating. Journal of Insect Physiology, 49, 583590.
  • Contreras-Garduño, J., Canales-Lazcano, J. & Córdoba-Aguilar, A. (2006) Wing pigmentation, immune ability and fat reserves in males of the rubyspot damselfly Hetaerina americana. Journal of Ethology, 24, 165173.
  • Contreras-Garduño, J., Lanz-Mendoza, H. & Córdoba-Aguilar, A. (2007a) The expression of a sexually-selected trait correlates with different immune defense components and survival in males of the American rubyspot. Journal of Insect Physiology, 53, 612621.
  • Contreras-Garduño, J., Buzatto, B.A., Abundis, L., Nájera-Cordero, K. & Córdoba-Aguilar, A. (2007b) Wing color properties do not reflect male condition in the American rubyspot (Hetaerina americana). Ethology, 113, 944952.
  • Contreras-Garduño, J., Buzatto, B.A., Serrano-Meneses, M.A., Nájera-Cordero, K. & Córdoba-Aguilar, A. (2008) The red wing spot of the American rubyspot (Hetaerina americana) as a heightened condition-dependent ornament. Behavioral Ecology, 19, 724732.
  • Contreras-Garduño, J., Canales-Lazcano, J., Jiménez-Cortés, J.G., Juárez-Valdez, N., Lanz-Mendoza, H. & Córdoba-Aguilar, A. (2008) Spatial and temporal population differences in male density and condition in the American rubyspot, Hetaerina americana (Insecta: Calopterygidae). Ecological Research.
  • Córdoba-Aguilar, A. (2002) Wing pigmentation in territorial male damselflies, Calopteryx haemorrhoidalis: a possible relation to sexual selection. Animal Behaviour, 63, 759766.
  • Córdoba-Aguilar, A. (2000) Reproductive behaviour in the territorial damselfly Calopteryx haemorrhoidalis asturica Ocharan (Zygoptera: Calopterygidae). Odonatologica, 29, 297307.
  • Córdoba-Aguilar, A. & Cordero-Rivera, A. (2005) Evolution and ecology of Calopterygidae (Zygoptera: Odonata): status of knowledge and research perspectives. Neotropical Entomology, 34, 861879.
  • Córdoba-Aguilar, A., Lesher-Treviño, A.C. & Anderson, C.A. (2007) Sexual selection in Hetaerina titia males: a possible key species to understand the evolution of pigmentation in calopterygid damselflies. Behaviour, 144, 931952.
  • Crook, T.C., Flatt, T. & Smiseth, P.T. (2008) Hormonal modulation of larval begging and growth in the burying beetle Nicrophorus vespilloides. Animal Behaviour, 75, 7177.
  • Elekonich, M.M., Jez, K., Ross, A.J. & Robinson, G.E. (2003) Larval juvenile hormone treatment affects pre-adult development, but not adult age at onset of foraging in worker honey bees (Apis mellifera). Journal of Insect Physiology, 49, 359366.
  • Emlen, D.J. & Nijhout, H.F. (1999) Hormonal control of male horn length dimorphism in Onthophagus taurus (Coleoptera: Scarabaeidae): a second critical period of sensitivity to juvenile hormone. Journal of Insect Physiology, 47, 10451054.
  • Ferveur, J.F. (2005) Cuticular hydrocarbons: their evolution and roles in Drosophila pheromonal communication. Behavior Genetics, 35, 279295.
  • Flatt, T., Tu, M.P. & Tatar, M. (2005) Hormonal pleiotropy and the juvenile hormone regulation of Drosophila development and life history. Bioessays, 27, 9991010.
  • Folstad, I. & Karter, A.J. (1992) Parasites, bright males and the immunocompetence handicap. The American Naturalist, 139, 604622.
  • Fry, C.L. (2006) Juvenile hormone mediates a trade-off between primary and secondary sexual traits in the stalk-eyed flies. Evolution and Development, 8, 191201.
  • Hefetz, A. (2007) The evolution of hydrocarbon pheromone parsimony in ants (Hymenoptera: Formicidae) – interplay of colony odour uniformity and odor idiosyncrasy – a review. Myrmecological News, 10, 5968.
  • Hernández-Martínez, S., Mayoral, J.G., Li, Y. & Noriega, F.G. (2007) Role of juvenile hormone and allatotropin on nutrient allocation, ovarian development and survivorship in mosquitoes. Journal of Insect Physiology, 53, 230234.
  • Hooper, R.E., Tsubaki, Y. & Siva-Jothy, M.T. (1999) Expression of a costly secondary sexual trait is correlated with age and condition in a damselfly with two male morphs. Physiological Entomology, 24, 364369.
  • Irschick, D.J., Herrel, A., Vanhooydonck, B. & Van-Damme, R. (2007) A functional approach to sexual selection. Functional Ecology, 21, 621626.
  • Kemp, D.J. & Wiklund, C. (2001) Fighting without weaponry: a review of male-male contest competition in butterflies. Behavioral Ecology and Sociobiology, 4, 429442.
  • Koskimäki, J., Rantala, M.J., Taskinen, J., Tynkkynen, K. & Suhonen, J. (2004) Immunocompetence and resource holding potential in the damselfly, Calopteryx virgo L. Behavioral Ecology, 15, 169173.
  • Kurtz, J. (2007) Correlation between immunocompetence and an ornament trait changes over lifetime in Panorpa vulgaris scorpionflies. Zoology, 110, 336343.
  • Lailvaux, S.P. & Irschick, D.J. (2006) A functional perspective of sexual selection: insights and future prospects. Animal Behaviour, 72, 263273.
  • Lengyel, F., Westerlund, S.A. & Kaib, M. (2007) Juvenile hormone III influences task-specific cuticular hydrocarbon profile changes in the ant Myrmicaria eumenoides. Journal of Chemical Ecology, 33, 167181.
  • Liu, Y., Henderson, G., Mao, L. & Laine, L.A. (2005) Effect of temperature and nutrition on juvenile hormone titers of Coptotermes formosanus (Isoptera: Rhinotermitidae). Annals of the Entomological Society of America, 98, 732737.
  • Marden, J.H. & Cobb, J.R. (2004) Territorial and mating success of dragonflies that vary in muscle power output and presence of gregarine gut parasites. Animal Behaviour, 68, 857865.
  • Marden, J.H. & Rollins, R.A. (1994) Assessment of energy reserves by damselflies engaged in aerial contests for territories. Animal Behaviour, 48, 10231030.
  • Marden, J.H. & Waage, J.K. (1990) Escalated damselfly territorial contests are energetic wars of attrition. Animal Behaviour, 39, 954959.
  • Matsubara, K., Tojo, S. & Suzuki, N. (2005) Age-related changes in flight muscle mass, lipid reserves and flight capacity during adult maturation in males of the territorial damselfly Calopteryx atrata (Odonata: Calopterygidae). Zoological Science, 22, 587592.
  • Meek, S.B. & Herman, T.B. (1991) The influence of oviposition resources on the dispersion and behaviour of calopterygid damselflies. Canadian Journal of Zoology, 69, 835839.
  • Min, K.J., Jones, N., Borst, D.W. & Rankin, M.A. (2004) Increased juvenile hormone levels after long-duration flight in the grasshopper, Melanoplus sanguinipes. Journal of Insect Physiology, 50, 531537.
  • Nijhout, F.H. (1994) Insect Hormones. Princeton University Press, Princeton.
  • Noriega, F.G. (2004) Nutritional regulation of JH synthesis: a mechanism to control reproductive maturation in mosquitoes? Insect Biochemistry and Molecular Biology, 34, 687693.
  • Orth, A.P., Tauchman, S.J. Doll, S.C. & Goodman, W.G. (2003) Embryonic expression of juvenile hormone binding protein and its relationship to the toxic effects of juvenile hormone in Manduca sexta. Insect Biochemistry and Molecular Biology, 3, 12752184.
  • Panaitof, S.C., Scott, M.P. & Borst, D.W. (2004) Plasticity in juvenile hormone in male burying beetles during breeding: physiological consequences of the loss of a mate. Journal of Insect Physiology, 50, 715724.
  • Pearce, A.N., Huang, Z.Y. & Breed, M.D. (2001) Juvenile hormone and aggression in honey bees. Journal of Insect Physiology, 47, 12431247.
  • Plaistow, S.J. & Siva-Jothy, M.T. (1996) Energetic constraints and male mate-securing in the damselfly Calopteryx splendens xanthostoma (Charpentier). Proceedings of the Royal Society of London B, 263, 12331239.
  • Pomfret, J.C. & Knell, R.J. (2006) Immunity and the expression of a secondary sexual trait in a horned beetle. Behavioral Ecology, 17, 466472.
  • Rantala, M.J. & Kortet, R. (2004) Male dominance and immunocompence in the field cricket (Gryllus bimaculatus). Behavioral Ecology, 15, 187191.
  • Rantala, M.J., Jokinen, I., Kortet, R., Vainikka, A. & Suhonen, J. (2002) Do pheromones reveal male immunocompetence? Proceedings of the Royal Society of London B, 269, 16811685.
  • Rantala, M.J., Koskimäki, J., Taskinen, J., Tynkkynen, K. & Suhonen, J. (2000) Immunocompetence, developmental stability and wingspot size in the damselfly Calopteryx splendens L. Proceedings of the Royal Society of London B, 267, 24532457.
  • Rantala, M.J., Roff, D.A. & Rantala, L.M. (2007) Forceps size and immune function in the European earwig Forficula auricularia. Biological Journal of the Linnean Society, 90, 509516.
  • Rantala, M.J., Vainikka, A. & Kortet, R. (2003) The role of juvenile hormone in immune function and pheromone production trade-offs: a test of the immunocompetence handicap principle. Proceedings of the Royal Society of London B, 270, 22572261.
  • Riechert, S.E. & Johns, P.M. (2003) Do female spiders select heavier males for the genes for behavioral aggressiveness they offer their offspring? Evolution, 57, 13671373.
  • Riley, P.A. (1997) Molecules in focus. The International Journal of Biochemistry and Cell Biology, 29, 12351239.
  • Roberts, M.L., Buchanan, K.L. & Evans, M.R. (2004) Testing the immunocompetence handicap hypothesis: a review of the evidence. Animal Behaviour, 68, 227239.
  • Rolff, J. & Siva-Jothy, M.T. (2002) Copulation corrupts immunity: a mechanism for a cost of mating in insects. Proceedings of the National Academy of Sciences of the USA, 99, 99169918.
  • Rolff, J. & Siva-Jothy, M.T. (2003) Invertebrate ecological immunology. Science, 301, 472475.
  • Ryder, J.J. (2007) Temporal dynamics of the encapsulation response towards a synthetic immune challenge in Acheta domesticus. Physiological Entomology, 32, 240245.
  • Schmid-Hempel, P. (2003) Variation in immune defense as a question in evolutionary ecology. Proceedings of the Royal Society of London B, 270, 357366.
  • Scott, M.P. (2006a) Resource defense and juvenile hormone: the ‘challenge hypothesis’ extended to insects. Hormones and Behavior, 49, 276281.
  • Scott, M.P. (2006b) The role of juvenile hormone in competition and cooperation by burying beetles. Journal of Insect Physiology, 52, 10051011.
  • Serrano-Meneses, M.A., Córdoba Aguilar, A., Méndez, V., Layen, S.J. & Székely, T. (2007) Sexual size dimorphism in the American rubyspot: male body size predicts male competition and mating success. Animal Behaviour, 73, 987997.
  • Sheldon, B.C. & Verhulst, S. (1996) Ecological immunology: costly parasite defences and trade-offs in evolutionary ecology. Trends in Ecology and Evolution, 11, 317321.
  • Siva-Jothy, M.T. (1999) Male wing pigmentation may affect reproductive success via female choice in a calopterygid damselfly (Zygoptera). Behaviour, 136, 13651377.
  • Siva-Jothy, M.T. (2000) A mechanistic link between parasite resistance and expression of a sexually selected trait in a damselfly. Proceedings of the Royal Society of London B, 267, 25232527.
  • Siva-Jothy, M.T. & Plaistow, S.J. (1999) A fitness cost of eugregarine parasitism in a damselfly. Ecological Entomology, 24, 465470.
  • Söderhäll, K. & Hall, L. (1984) Lipopolysaccharide induced activation of prophenoloxidase activating system in crayfish hemocyte lysate. Biochimica et Biophysica Acta, 797, 99104.
  • Staszewski, V. & Boulinier, T. (2004) Vaccination: a way to address questions in behavioral and population ecology. Trends in Parasitology, 20, 1722
  • Teal, P.E.A., Gomze-Simuta, Y. & Proveaux, A.T. (2000) Mating experience and juvenile hormone enhance sexual signaling and mating in male Caribbean fruit flies. Proceedings of the National Academy of Sciences of the USA, 97, 37083712.
  • Trumbo, S.T. (2007) Can the ‘challenge hypothesis’ be applied to insects? Hormones and Behavior, 51, 281285.
  • Trumbo, S.T. & Robinson, G.E. (2004) Nutrition, hormones and life history in burying beetles. Journal of Insect Physiology, 50, 383391.
  • Trumbo, S.T. & Robinson, G.E. (2008) Social and nonsocial stimuli and juvenile hormone titer in a male burying beetle, Nicrophorus orbicolis. Journal of Insect Physiology, 54, 630635.
  • Vainikka, A., Rantala, M.J., Sépala, O. & Suhonen, J. (2007) Do male mealworm beetles, Tenebrio molitor, sustain the honesty of pheromone signals under immune challenge? Acta Ethologica, 10, 6372.
  • Waage, J.K. (1987) Choice and utilization of oviposition sites by female Calopteryx maculata (Odonata: Calopterygidae). I. Influence of site size and the presence of other females. Behavioral Ecology and Sociobiology, 20, 439446.
  • Wheatherhead, P.J. (1990) Secondary sexual traits, parasites, and polygyny in red-winged blackbirds, Agelaius phoeniceus. Behavioral Ecology, 1, 125130.