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THE EFFECT OF TEMPERATURE ON PRE-ADULT DEVELOPMENT OF AEDES FLAVESCENS (DIPTERA: CULICIDAE)1

Published online by Cambridge University Press:  31 May 2012

Milan Trpiš
Affiliation:
Research Station, Canada Department of Agriculture, Lethbridge, Alberta
J. A. Shemanchuk
Affiliation:
Research Station, Canada Department of Agriculture, Lethbridge, Alberta

Abstract

The most suitable temperature for larval development of Aedes flavescens was found to be 20 °C. At this temperature 74% of the larvae pupated in 20 days. At 15 °C the developmental period was 42 days with a survival rate of 54%. At 25 °C the developmental period was 22 days but the survival rate dropped to 7%. At 10 °C the developmental period was 80 days with a survival rate of 6%. At 5 °C and 30 °C mortality was 100% in the first instar stage. Adult males emerged from the pupae in three days at 25 °C, two days earlier than the females.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1969

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References

Bar-Zeev, M. 1957 The effect of extreme temperature on different stages of Aedes aegypti (L.). Bull. ent. Res. 48: 593599.CrossRefGoogle Scholar
Brust, R. A., and Kalpage, K. S.. 1967 A rearing method for Aedes abserratus (F. and Y.). Mosquito News 27: 117118.Google Scholar
Carpenter, S. J., and LaCasse, W. J.. 1955. Mosquitoes of North America. University of California Press, Berkeley and Los Angeles.CrossRefGoogle Scholar
Haufe, W. O. 1957 Physical environment and behavior of immature stages of Aedes communis (Deg.) (Diptera: Culicidae) in Subarctic Canada. Can. Ent. 89: 120138.CrossRefGoogle Scholar
Hearle, E. 1929 The life history of Aedes flavescens Müller. Trans. R. Soc. Con. 23: 85101.Google Scholar
James, H. G. 1962 Winter mortality in larvae of Aedes trichurus (Dyar). Mosquito News 22: 123125.Google Scholar
Shemanchuk, J. A. 1959 Mosquitoes (Diptera: Culicidae) in irrigated areas of Southern Alberta and their seasonal changes in abundance and distribution. Can. J. Zool. 37: 899912.CrossRefGoogle Scholar
Trpiš, M. 1962 Ökologische Analyse der Stechmuckenpopulationen in der Donautiefebene in der Tschechoslomakei. Biol. Práce 8: 1132.Google Scholar
Trpiš, M. 1965 Typologie der Biotope in der Ostslowakei gemäss der Gisellschaften von Larven und Imagines der Stechmücken. Ent. Problmy 5: 1969.Google Scholar
Trpiš, M., and Horsfall, W. R.. 1967 Eggs of floodwater mosquitoes (Diptera: Culicidae). XI. Effect of medium on hatching of Aedes sticticus. Ann. ent. Soc. Am. 60: 11501152.CrossRefGoogle ScholarPubMed