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The effect of radioactive phosphorus on the growth and development of Culex pipiens molestus Forsk. (Diptera, Culicidae)

Published online by Cambridge University Press:  10 July 2009

Albert A. Abdel-Malek
Affiliation:
Dept. of Entomology, Faculty of Science, Cairo University, Giza, U.A.R.

Summary

In a study of the effect of different concentrations of radioactive phosphorus (32P) in the larval medium on the growth and development of Culex pipiens molestus Forsk., 32P was found to have little noticeable effect on the growth of the larvae up to a concentration of 3·0 microcuries (μc.) of 32P per ml., but, above this concentration, larval growth was greatly retarded.

The period of larval development was increased at concentrations greater than 1·0 μc. of 32P per ml., and pupation occurred two weeks later than in the controls. In concentrations higher than 5·0 μc./ml., pupation was completely inhibited, larvae became sluggish, stopped feeding and finally died.

The effect of 32P in the larval medium on the emergence and radioactivity of the resulting adults was also studied. On the basis of this study, it is recommended that, for efficient utilisation of radio-phosphorus in large-scale field experiments, a concentration of 32P of 1·0 μc./ml. be employed so that emerging adult mosquitos may be sufficiently radioactive to be readily detectable.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1961

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References

Abdel-Malek, A. A. & Abdel-Wahab, M. F. (1961). Autoradiography as a technique for P32 uptake in Culex molestus Forsk. (Diptera-Culicidae).— Bull. Soc. ent. Egypte (in press).Google Scholar
Arnason, T. J., Irwin, R. L. & Spinks, J. W. T. (1949). Some effects of P32 on the development of Drosophila.—Canad. J. Res. (D) 27 pp. 186194.CrossRefGoogle ScholarPubMed
Bugher, J. C. & Taylor, M. (1949). Radiophosphorus and radiostrontium in mosquitoes. Preliminary report.—Science, Lancaster, Pa 110 pp. 146147.Google ScholarPubMed
Hadorn, E. (1937). An accelerating effect of normal “ring-glands” on puparium formation in lethal larvae of Drosophila melanogaster.—Proc. nat. Acad. Sci. U.S. 23 pp. 478484.CrossRefGoogle ScholarPubMed
Halberstaedter, L., Goldhaber, G. & Hecht, O. (1943). The effect of X-rays on the development of insects. I. Irradiation in larval stage.—Growth 7 pp. 413426.Google Scholar
Hassett, C. C. & Jenkins, D. W. (1949). Production of radioactive mosquitoes. —Science, Lancaster, Pa 110 pp. 109110.Google ScholarPubMed
Hassett, C. C. & Jenkins, D. W. (1951). The uptake and effect of radiophosphorus in mosquitoes.—Physiol. Zool. 24 pp. 257266.CrossRefGoogle ScholarPubMed
Jenkins, D. W. & Hassett, C. C. (1951). Dispersal and flight range of subarctic mosquitoes marked with radiophosphorus.—Gan J. Zool. 29 pp. 178187.Google Scholar
Whiting, A. B. (1950). Failure of pupation of Ephestia larvae following exposure to X-rays. (Abstract.)Anat. Rec. 108 p. 609.Google Scholar