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The Limit of Tolerance to Heat Pulses During Embryogenesis in Ceratitis capitata Wiedemann (Diptera; Tephritidae)

Published online by Cambridge University Press:  19 September 2011

Jorge L. Cladera
Affiliation:
Departamento de Genètica, INTA, C.C. 25, 1712 Castelar, Argentina
Fanny C. Manso
Affiliation:
Departamento de Genètica, INTA, C.C. 25, 1712 Castelar, Argentina
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Abstract

The limit of tolerance to temperature treatments that a developing embryo of Ceratitis capitata is able to withstand without suffering a reduction in hatchability or an increase in late abortions was investigated. Major events during embryogenesis were timed and the observation of the chitinous mouth hook inside unhatched eggs was chosen as a marker of late embryo death. This late abortion production was investigated in three different embryo stages and using two pulse lengths. It was found that an exposure of embryos aged 16 hr after egg laying (right before the beginning of the head involution) to 35°C for a period of 15 hr is close enough but below the limit of tolerance for the strain T (Y-nig+)5038 used in this investigation. Consequently, this exposure is proposed as the discriminating treatment in a screening protocol designed for the isolation of a temperature-sensitive embryonic-lethal mutation.

Résumé

Nous présentons ici, les résultats de notre travail pour connaitre la limite de tolerance des traitements thermiques chez l'embryon de Ceratitis capitata, sans produire ni la réduction des naissances ni l'augmentation d'avortements tardifs. Pendant l'embryogenèse quelques événements importants ont été chronométrés, en choisissant d'entre eux l'observation du crochet bucai, dedans l'oeuf, comme sympthome de mort embryonnaire tardive. Les avortements chez l'embryon ont été observés à trois stades et deux expositions de different durée. On a trouvé que les embryons, âgés 16 hs, exposés pendant 15hs à 35°C, s'approchaient au limite de tolerance pour la ligne T (Y-nig+)5038, utilisée a cette recherche. Par conséquent, on propose ce traitement discriminant qui a été dessiné afin d'isoler une mutation létal embryonnaire susceptible à la temperature élevée.

Type
Research Articles
Copyright
Copyright © ICIPE 1988

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References

REFERENCES

Demerec, M. ed. (1950) Biology of Drosophila. John Wiley & Sons, New York.Google Scholar
El-Gazzar, L. H. 1979. Induced sterility in the Mediterranean fruit fly using heat treatments. Z. Ang. Ent. 88, 436439.CrossRefGoogle Scholar
Langley, P. A. (1970) Physiology of the Mediterranean fruit fly in relation to the sterile-male technique. In Sterile – male technique for control of fruit flies. Proceedings of a Panel, Vienna, 1–5 September 1969. IAEA.Google Scholar
Manso, F. C. and Lifschitz, E. (1979) Two morphological mutations found in the Mediterranean fruit fly Ceratitis capitata (Wied.). Bol. Genet. Inst. Fitotec. 10, 3132.Google Scholar
Messenger, P. S. and Flitters, N. E. (1958) Effects of constant temperature environments on the egg stage of three species of Hawaiian fruit flies. Ann. ent. Soc. Am. 51, 109119.CrossRefGoogle Scholar
Powsner, L. (1935) The effects of temperature on the duration of the development stages of Drosophila melanogaster. Physiol. Zool. 8, 474494.CrossRefGoogle Scholar
Shoukry, A. and Hafez, M. (1979) Studies on the biology of the Mediterranean fruit fly. Ent. Exp. Appl. 26, 3339.CrossRefGoogle Scholar
Stephanou, G., Alahiotis, S. N., Marmaras, V. J. and Cri stodoulou, C. (1983) Heat shock response in Ceratitis capitata. Comp. Biochem. Physiol. 74B, 425432.Google Scholar
Teran, H. R. (1977) Compartamiento alimentario y su correlation a la reproductión en hembras de Ceratitis capitata (Wied.). Rev. Agron. N.O. Arg. 14, 14.Google Scholar
Van der Meer, J. M. (1977) Optical clean and permanent whole mount preparation for phase-contrast microscopy of cuticular structures of insect larvae. Dros. Inf. Ser. 52, 160Google Scholar
Zalokar, M. and Erk, I. (1977) Phase-partition fixation and staining of Drosophila eggs. Stain Technol. 52, 8995.CrossRefGoogle ScholarPubMed