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Evolutionary significance of promiscuity in an aphidophagous ladybird, Propylea dissecta (Coleoptera: Coccinellidae)

Published online by Cambridge University Press:  09 March 2007

Omkar  and
G. Mishra
Omkar*
Affiliation:
Ladybird Research Laboratory, Department of Zoology, University of Lucknow, Lucknow 226 007, India
G. Mishra
Affiliation:
Ladybird Research Laboratory, Department of Zoology, University of Lucknow, Lucknow 226 007, India
*
*E-mail: omkaar55@hotmail.com
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Abstract

The short- and long-term consequences of monogamy and promiscuity in an aphidophagous ladybird, Propylea dissecta (Mulsant) in terms of reproductive performance and offspring fitness were investigated. Promiscuous females were more fecund and laid more viable eggs than monogamous ones. Amongst promiscuous females, those mated with multiple males (freedom for mate choice) had significantly higher reproductive output than those mated daily with a new unmated male. The increased reproductive output of females mated with an unmated male each day in comparison to monogamous ones might possibly be a result of their increased ejaculate size. The further increase in reproductive output, when a female was allowed to choose a mate, may be because of repeated preferential mating with the fitter males. Results on long-term consequences of promiscuity revealed faster development and increased survival in offspring of promiscuous females at 25, 27 and 30%C. The percent adult emergence was more strongly influenced than development by the mating regime. There were no statistically significant differences in survival of offspring of promiscuous females (mate choice) at the three temperatures, while the percent survival of offspring of monogamous females differed significantly. Offspring of promiscuous females (mate choice) were fittest in terms of development and survival, which indicates their probable better genetic constitution and subsequently that of chosen mates. Thus, promiscuity has both short- and long-term benefits and is advantageous to ladybirds. The presence of long-term benefits in terms of fitter offspring probably indicates the evolutionary rationale behind the prevalence of promiscuity in ladybirds.

Keywords

promiscuityevolutionPropylea dissectaladybirds
Type
Research Article
Information
Bulletin of Entomological Research , Volume 95 , Issue 6 , December 2005 , pp. 527 - 533
Copyright
Copyright © Cambridge University Press 2005

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References

Arnqvist, G. (1989) Multiple mating in a water strider: mutual benefits or intersexual conflict. Animal Behavior 38, 749756.CrossRefGoogle Scholar
Arnqvist, G., Edvardsson, M., Friberg, U. & Nilsson, T. (2000) Sexual conflict promotes speciation in insects. Proceedings of the National Academy of Sciences, USA 97, 1046010464.CrossRefGoogle ScholarPubMed
Arnqvist, G. & Nilsson, T. (2000) The evolution of polyandry: multiple mating and female fitness in insects. Animal Behavior 60, 145164.CrossRefGoogle ScholarPubMed
Bateman, P.W., Gilson, L.N. & Ferguson, J.W.H. (2001) Male size and sequential mate preference in the cricket Gryllus bimaculatus. Animal Behavior 61, 631637.CrossRefGoogle Scholar
Bind, R.B. (1998) Bioecology and behaviour of a ladybird beetle, Cheilomenes (=Menochilus) sexmaculata (Fabricius) (Coleoptera: Coccinellidae). 164 pp. PhD thesis, University of Lucknow.Google Scholar
Birkhead, T.R. & Møller, A.P. (Eds) (1998) Sperm competition and sexual selection. 826 pp. London, Academic Press.Google Scholar
Birkhead, T.R., Møller, A.P. & Sutherland, W.J. (1993) Why do females make it so difficult for males to fertilize their eggs. Journal of Theoretical Biology 161, 5160.CrossRefGoogle Scholar
Blanckenhorn, W.U., Hosken, D.J., Martin, O.Y., Reim, C., Teuschl, Y. & Ward, P.I. (2002) The costs of copulating in the dung fly Sepsis cynipsea. Behavioural Ecology 13, 353358CrossRefGoogle Scholar
Brown, W.D., Wiedmann, J., Andrade, M.C.B., Mason, A.C. & Gwynne, D.T.M. (1996) Female choice for an indicator of male size in the song of the black-horned tree cricket Oecanthus nigricornis (Orthoptera, Gryllidae, Oecanthinae). Evolution 50, 24002411CrossRefGoogle ScholarPubMed
Burpee, D.M. & Sakaluk, S.K. (1993) Repeated matings offset costs of reproduction in female crickets. Evolutionary Ecology 7, 240250CrossRefGoogle Scholar
Chapman, T., Liddle, L.F., Kalb, J.M., Wolfner, M.F. & Partridge, L. (1995) Costs of mating in Drosophila melanogaster females is mediated by male accessory gland products. Nature 373, 241244CrossRefGoogle Scholar
Eberhard, W.G. (1996) Female control: sexual selection by cryptic female choice. 472 pp. Princeton, New Jersey Princeton University Press.CrossRefGoogle Scholar
Fox, C.W. & Hickman, D.L. (1994) The influence of oviposition substrate on female receptivity to multiple mating in Callosobruchus maculatus (Coleoptera: Bruchidae). Annals of the Entomological Society of America 87, 395398CrossRefGoogle Scholar
Fox, C.W., Hickman, D.L., Raleigh, E.L. & Mousseau, T.A. (1995) Paternal investment in a seed beetle (Coleoptera: Bruchidae): influence of male size, age, and mating history. Annals of the Entomological Society of America 88, 101103CrossRefGoogle Scholar
Hack, M.A. (1997) Assessment strategies in the contests of male crickets, Acheta domesticus (L.). Animal Behavior 53, 733747CrossRefGoogle Scholar
Hosken, D.J., Garner, T.W.J., Tregenza, T., Wedell, N. & Ward, P.I. (2003) Superior sperm competitors sire higher-quality young. Proceedings of the Royal Society of London, Series B 270, 19331938CrossRefGoogle ScholarPubMed
Hosken, D.J. & Stockley, P. (2003) Benefits of polyandry: a life history perspective. Evolutionary Biology 33, 173194CrossRefGoogle Scholar
Hurst, G.D.D., Sharpe, R.G., Broomfield, A.H., Walker, L.E., Majerus, T.M.O., Zakjarov, I.A. & Majerus, M.E.N. (1995) Sexually transmitted disease in a promiscuous insect, Adalia bipunctata. Ecological Entomology 20, 230236CrossRefGoogle Scholar
Jennions, M.D. & Petrie, M. (2000) Why do females mate multiply? A review of the genetic benefits. Biological Reviews 75, 2164CrossRefGoogle ScholarPubMed
Leather, S.R. (1990) Sex-ratio and reproductive success in the pine beauty moth, Panolis flammea (Den. & Schiff.) (Lep., Noctuidae). Journal of Applied Entomology 109, 200204CrossRefGoogle Scholar
Madsen, T., Shine, R., Loman, J. & Hakansson, T. (1992) Why do female adders copulate so frequently. Nature 355, 440441CrossRefGoogle Scholar
Majerus, M.E.N. (1994) Ladybirds. 367 pp. London, Harper CollinsGoogle Scholar
Mishra, G. & Omkar, (2004a) Diel rhythmicity in certain life events of a ladybird, Propylea dissecta (Mulsant). Biological Rhythm Research 35, 269276CrossRefGoogle Scholar
Mishra, G. & Omkar, (2004b) Influence of parental age on reproductive performance of an aphidophagous ladybird, Propylea dissecta (Mulsant). Journal of Applied Entomology 128, 605609CrossRefGoogle Scholar
Mishra, G. & Omkar, (2005) Influence of light components on the life attributes of an aphidophagous ladybird, Propylea dissecta (Coleoptera: Coccinellidae). International Journal of Tropical Insect Science 25, 3238Google Scholar
Nilsson, T. (2004) Polyandry and the evolution of reproductive divergence in insects. 70 pp. Sweden PhD thesis, Umea University.Google Scholar
Olsson, M., Shine, R., Madsen, T., Gullberg, A. & Tegelstrom, H. (1996) Sperm selection by females. Nature 383, 585CrossRefGoogle Scholar
Omkar, (2004) Reproductive behaviour of two aphidophagous ladybird beetles, Cheilomenes sexmaculata and Coccinella transversalis. Entomologia Sinica 11, 4760Google Scholar
Omkar, & James, B.E. (2005) Reproductive behaviour of an aphidophagous ladybeetle, Coccinella transversalis (Coleoptera: Coccinellidae). International Journal of Tropical Insect Science 25, 96102CrossRefGoogle Scholar
Omkar, & Mishra, G. (2003) Ovipositional orientation of an aphidophagous ladybird beetle, Propylea dissecta (Mulsant). Insect Science and Its Application 23, 211219Google Scholar
Omkar, & Mishra, G. (2005) Preference-performance of a generalist predatory ladybird: a laboratory study. Biological Control 34, 187195CrossRefGoogle Scholar
Omkar, & Pervez, A. (2000) Sexual dimorphism in Propylea dissecta (Mulsant), (Coccinellidae: Coleoptera). Journal of Aphidology 14, 139140Google Scholar
Omkar, & Pervez, A. (2003) Influence of prey deprivation on biological attributes of pale morph of the ladybeetle, Propylea dissecta (Mulsant). Insect Science and Its Application 23, 143148Google Scholar
Omkar, & Pervez, A. (2005) Mating behavior of an aphidophagous ladybird beetle, Propylea dissecta (Mulsant). Insect Science 12, 3744CrossRefGoogle Scholar
Omkar, & Srivastava, S. (2002) The reproductive behaviour of an aphidophagous ladybeetle, Coccinella septempunctata Linnaeus. European Journal of Entomology 99, 465470CrossRefGoogle Scholar
Parker, G. (1979) Sexual selection and sexual conflict. pp. 123166in Blum, M. & Blum, N. (Eds) Sexual selection and reproductive competition in insects. New York, Academic Press.Google Scholar
Pervez, A. & Omkar, (2003) Predation potential and handling time estimates of a generalist aphidophagous ladybird, Propylea dissecta. Biological Memoirs 29, 9197Google Scholar
Pervez, A. & Omkar, (2004a) Functional and numerical responses of Propylea dissecta (Mulsant) (Col., Coccinellidae). Journal of Applied Entomology 128, 140146Google Scholar
Pervez, A. & Omkar, (2004b) Temperature dependent life attributes of an aphidophagous ladybird beetle, Propylea dissecta (Mulsant). Biocontrol Science and Technology 14, 587594CrossRefGoogle Scholar
Pervez, A. & Omkar, (2004c) Prey dependent life attributes of an aphidophagous ladybird beetle, Propylea dissecta (Mulsant). Biocontrol Science and Technology 14, 385396CrossRefGoogle Scholar
Pervez, A., Omkar, . & Richmond, A.S. (2004) The influence of age on reproductive performance of a predatory ladybird beetle, Propylea dissecta. Journal of Insect Science 4, 18CrossRefGoogle ScholarPubMed
Sakaluk, S.K. (1985) Spermatophore size and its role in the reproductive behaviour of the cricket, Gryllodes supplicans (Orthoptera: Gryllidae). Canadian Journal of Zoology 63, 16521656CrossRefGoogle Scholar
Sakaluk, S.K. & Smith, R.L. (1998) Inheritance of male parent investment in an insect. American Naturalist 132, 594601CrossRefGoogle Scholar
Sakaluk, S.K., Schaus, J.M., Eggert, A.K., Snedden, W.A & Brady, P.L. (2002) Polyandry and fitness of offspring reared under varying nutritional stress in decorated crickets. Evolution 56, 19992007Google ScholarPubMed
Savalli, U.M. & Fox, C.W. (1999) The effect of male mating history on paternal investment, fecundity and female remating in the seed beetle Callosobruchus maculatus. Functional Ecology 13, 169177CrossRefGoogle Scholar
Schaus, J.M. & Sakaluk, S.K. (2002) Repeatibility of sperm number across multiple matings in three cricket species, Gryllodes sigillatus, Gryllus veletis and Gryllus texensis (Orthoptera: Gryllidae). Canadian Journal of Zoology 80, 582585CrossRefGoogle Scholar
Simmons, L.W. (1987) Female choice contributes to offspring fitness in the field cricket, Gryllus bimaculatus (De Geer). Behavioural Ecology and Sociobiology 21, 313321CrossRefGoogle Scholar
Simmons, L.W. (2001) The evolution of polyandry: an examination of the genetic incompatibility and good-sperm hypothesis. Journal of Evolutionary Biology 14, 585594CrossRefGoogle Scholar
Souroukis, K. & Cade, W.H. (1993) Reproductive competition and selection on male traits at varying sex ratios in the field cricket, Gryllus pennsylvanicus. Behaviour 126, 4562CrossRefGoogle Scholar
Stewart, L.A., Dixon, A.F.G., Ruzicka, Z. & Iperti, G. (1991) Clutch and egg size in ladybird beetles. Entomophaga 36, 329333CrossRefGoogle Scholar
Thornhill, R. & Alcock, J. (1983) The evolution of insect mating systems. 576 pp. Cambridge, Massachusetts Harvard University Press.CrossRefGoogle Scholar
Tregenza, T. & Wedell, N. (1998) Benefits of multiple mates in the cricket, Gryllus bimaculatus. Evolution 52, 17261730CrossRefGoogle Scholar
Tregenza, T. & Wedell, N. (2002) Polyandrous females avoid costs of inbreeding. Nature 415, 7173CrossRefGoogle ScholarPubMed
Wedell, N., Gage, M.J.G. & Parker, G.A. (2002) Sperm competition, male prudence and sperm limited females. Trends in Ecology and Evolution 17, 313320CrossRefGoogle Scholar
Will, M.W. & Sakaluk, S.K. (1994) Courtship feeding in decorated crickets: is the spermatophylax a sham. Animal Behavior 48, 13091315CrossRefGoogle Scholar
Yasuda, H. & Dixon, A.F.G. (2002) Sexual size dimorphism in the two spot ladybird beetle Adalia bipunctata: developmental mechanism and its consequences for mating. Ecological Entomology 27, 493498CrossRefGoogle Scholar