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Male sexual maturation of the tsetse fliesglossina morsitanswestwood andg. austeniNewstead (Dipt., Glossinidae) in relation to blood feeding

Published online by Cambridge University Press:  10 July 2009

Woodbridge A. Foster
Affiliation:
Tsetse Research Laboratory, University of Bristol, Langford, Bristol BS18 7DU, U.K.

Abstract

The effect of blood feeding on male sexual maturation in the tsetse flies Glossina morsitans Westwood and G. austeni Newstead was studied by comparing copulation and insemination performance of unfed and fed males during the first five days of adult life. These species differed conspicuously, both in the course of maturation and in the influence of blood feeding on it. G. morsitans males copulated before they could inseminate, and even fed flies did not all inseminate until day 3; unfed flies showed retarded insemination performance by day 2, before copulation performance declined. G. austeni males were less sexually responsive at first, but they nearly always inseminated when they did copulate, even on day 1. Unfed flies showed less increase in copulation performance by day 4, but no decline. Accessory glands were larger in G. austeni than G. morsitans at emergence, and in unfed flies of both species they ceased to grow after day 3. Both accessory gland size and copulation duration (beyond a minimum duration) were related to insemination success in a general way, though copulation duration was quite variable. Vertebrate blood apparently provides male tsetse with specific nutrients or stimuli which promote sexual performance, in addition to basic energy and water requirements. Feeding probably affects insemination in G. morsitans through accessory gland development, allowing more complete spermatophore formation and sperm transfer, but its mode of action on G. austeni sexual responsiveness is not evident.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 1976

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References

Anderson, J. R. (1966). Effect of nutrition on mating of Stomoxys calcitrans (L.).—Bull. ent. Soc. Am. 12, 285 and 302 (Synopsis).Google Scholar
Azevedo, J. F. dePinhão, R. da C., Santos, A. M. T. Dos, & Ferreira, A. E. (1968). Studies carried out with the Glossina morsitans colony of Lisbon. I.—Some aspects of the evolution of the Glossina morsitans colony of Lisbon.—Anais Esc. nac. Saúde publ. Med. trop. 2, 1942.Google ScholarPubMed
Bartell, R. J., Shorey, H. H. & Barton Browne, L. (1969). Pheromonal stimulation of the sexual activity of males of the sheep blowfly Lucilia cuprina (Calliphoridae) by the female.—Anim. Behav. 17, 576585.CrossRefGoogle ScholarPubMed
Bursell, E. (1960). The effect of temperature on the consumption of fat during pupal development in Glossina.—Bull. ent. Res. 51, 583598.CrossRefGoogle Scholar
Bursell, E. (1961). The behaviour of tsetse flies (Glossina swynnertoni Austen) in relation to problems of sampling.—Proc. Roy. ent. Soc. Lond. (A) 36, 920.Google Scholar
Bursell, E. (1970). Feeding, digestion and excretion. In Mulligan, H. W. (Ed.)—The African trypanosomiases. 305316. London, George Allen & Unwin Ltd.Google Scholar
Buxton, P. A. & Lewis, D. J. (1934). Climate and tsetse flies: laboratory studies upon Glossina submorsitans and tachinoides.—Philos. Trans. R. Soc. (B) 224, 175240.Google Scholar
Curtis, C. F. & Langley, P. A. (1972). Use of nitrogen and chilling in the production of radiation-induced sterility in the tsetse fly Glossina morsitans.—Entomologia exp. appl. 15, 360376.CrossRefGoogle Scholar
Dean, G. J. W., Clements, S. A. & Paget, J. (1969). Observations on sex attraction and mating behaviour of the tsetse fly Glossina morsitans orientalis Vanderplank.—Bull. ent. Res. 59, 355365.CrossRefGoogle Scholar
Foster, R. (1957). Observations on laboratory colonies of the tsetse flies Glossina morsitans West, and Glossina austeni Newstead.—Parasitology 47, 361374.CrossRefGoogle ScholarPubMed
Foster, W. (1967). Hormone-mediated nutritional control of sexual behaviour in male dung flies.—Science, N.Y. 158, 15961597.CrossRefGoogle ScholarPubMed
Hagen, K. S. (1952). Influence of adult nutrition upon fecundity, fertility and longevity of three fruit flies (Diptera: Tephritidae).—Ph.D. Thesis, University of California, Berkeley.Google Scholar
Hoffmann, R. (1954). Zur Fortpflanzungsbiologie und zur intrauterinen Entwicklung von Glossina palpalis.—Acta trop. 11, 157.Google ScholarPubMed
Itard, J. (1970). L'appareil reproducteur mâle des glossines (Diptera—Muscidae). Les étapes de sa formation chez la pupe. La spermatogénèse.—Rev. Élev. Méd. vét. Pays trop. 23, 5781.CrossRefGoogle Scholar
Langley, P. A. (1971). The respiratory metabolism of tsetse fly puparia in relation to fat consumption.—Bull. ent. Res. 60, 351358.CrossRefGoogle Scholar
Machado, A. de B. (1970). Les races geographiques de Glossina morsitans. In de Azevedo, J. F. (Ed.) Tsetse fly breeding under laboratory conditions and its practical application. 1st international symposium 22nd and 23rd April 1969. 471486. Lisbon, Junta de Investigações do Ultramar.Google Scholar
Mellanby, K. (1936). Experimental work with the tsetse-fly, Glossina palpalis, in Uganda.—Bull. ent. Res. 27, 611632.CrossRefGoogle Scholar
Nash, T. A. M. (1955). The fertilisation of Glossina palpalis in captivity.—Bull. ent. Res. 46, 357368.CrossRefGoogle Scholar
Nash, T. A. M. (1969). Africa's bane: the tsetse fly.224 pp. London, Collins.Google Scholar
Nash, T. A. M., Jordan, A. M. & Boyle, J. A. (1968). The large-scale rearing of Glossina austeni Newst. in the laboratory. IV.—The final technique.—Ann. trop. Med. Parasit. 62, 336341.CrossRefGoogle ScholarPubMed
Nash, T. A. M., Jordan, A. M. & Trewern, M. A. (1971). Mass rearing of tsetse flies (Glossina spp.): recent advances.—In Sterility principle for insect control or eradication. Proceedings of a symposium on the sterility principle for insect control or eradication jointly organized by the IAEA and FAO and held in Athens, 14–18 September 1970. 99–108. Vienna, International Atomic Energy Agency (Proceedings Series STI/PUB/265).Google Scholar
Odhiambo, T. R. (1968). Influence of age and feeding on the success of mating in a tsetse fly species.—Nature, U.K. 219, 962963.CrossRefGoogle Scholar
Parker, G. A. (1968). The sexual behaviour of the blowfly, Protophormia terrae-novae R.-D.Behaviour 32, 291308.CrossRefGoogle ScholarPubMed
PinhãO, R. da C. (1970). Influence of the mating technique in the reproduction of tsetse flies. I—Sterility rates.—In de Azevedo, J. F. (Ed.) Tsetse fly breeding under laboratory conditions and its practical application. 1st international symposium 22nd and 23rd April 1969. 157164. Lisbon, Junta de Investigações do Ultramar.Google Scholar
Pollock, J. N. (1970). Sperm transfer by spermatophores in Glossina austeni Newstead.—Nature, U.K. 225, 10631064.CrossRefGoogle ScholarPubMed
Pollock, J. N. (1974). Male accessory secretions, their use and replenishment in Glossina (Diptera, Glossinidae).—Bull. ent. Res. 64, 533539.CrossRefGoogle Scholar
Rogers, A. (1972). The age of mating of Glossina pallidipes Austen.—Trans. R. Soc. trop. Med. Hyg. 66, 307. (Abstract).CrossRefGoogle ScholarPubMed
Saunders, D. S. & Dodd, C. W. H. (1972). Mating, insemination, and ovulation in the tsetse fly, Glossina morsitans.—J. Insect Physiol. 18, 187198.CrossRefGoogle Scholar
Southon, H. A. W. & Cockings, K. L. (1963). Fertilization of G. morsitans in the laboratory.—Rep. E. Afr. Trypan. Res. Org. 19621963, 33–37.Google Scholar
Stoffolano, J. G. Jr. (1974). Influence of diapause and diet on the development of the gonads and accessory reproductive glands of the black blowfly, Phormia regina (Meigen).—Can. J. Zool. 52, 981988.CrossRefGoogle ScholarPubMed
Tibayrenc, R. & Itard, J. (1970). Note sur quelques modalités de l'insemination chez les glossines (Diptera-Muscidae).—Rev. Élev. Méd. vét. Pays trop. 23, 333335.CrossRefGoogle ScholarPubMed