Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-25T04:35:16.225Z Has data issue: false hasContentIssue false
  • English
  • Français

The vertical distribution of flying mosquitoes (diptera, culicidae) in west african savanna

Published online by Cambridge University Press:  10 July 2009

W. F. Snow
W. F. Snow
Affiliation:
School of Biological Sciences, University of Sussex, Brighton BN1 9QG, England
Get access Rights & Permissions [Opens in a new window]

Abstract

The vertical distribution of mosquitoes was investigated at Keneba in The Gambia, using flight traps and suction traps set up over open ground. Flight traps were used to sample three levels, ground to 1·37 m, 1·45–2·82 m, and 2·90–4·27 m. Suction traps were mounted in two series of experiments at three levels, 0·68, 2·13 and 3·51 m, and in a third series at four levels, 0·91, 305, 6·10 and 9·15 m. Most species, including Anopheles melas Theo., A. squamosus Theo., Aedes punctothoracis (Theo.), the Culex decens group, C. tritaeniorhynchus Giles, Mansonia africana (Theo.) and M. uniformis (Theo.), were most common near the ground, with catches declining progressively with height. C. thalassius Theo. was frequent at all levels, although the largest catches were taken at 9·15 m. Only C. neavei Theo. and C. weschei Edw. were more common in the higher traps. Although larger catches of A. melas and C. tritaeniorhynchus were taken during moonless periods, the numbers of other species were unaffected by lunar phase. In general, the presence or absence of moonlight had little effect on vertical distribution. However, C. thalassius and the C. decens group were shown to be more attracted to flight traps in moonlight, and it is concluded that visual responses were involved. A limited series of four-level, human-bait catches, with the catchers stationed at the same heights as the suction traps of the third series, produced results similar to those of the suction trap collections.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 65 , Issue 2 , June 1975 , pp. 269 - 277
Copyright
Copyright © Cambridge University Press 1975

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bidlingmayer, W. L. (1964). The effect of moonlight on the flight activity of mosquitoes.—Ecology 45, 8794.CrossRefGoogle Scholar
Corbet, P. S. (1961). Entomological studies from a high tower in Mpanga Forest, Uganda. VI—Nocturnal flight activity of Culicidae and Tabanidae as indicated by light-traps.—Trans. R. ent. Soc. Land. 113, 301314.CrossRefGoogle Scholar
Geiger, R. (1965). The climate near the ground. 4th edn.—611 pp. Cambridge, Mass., Harvard University Press.Google Scholar
Giglioli, M. E. C. (1965). The age composition of Anopheles melas Theobald (1903) populations collected simultaneously by different methods in The Gambia, West Africa.—Cah. ORSTOM Ser. Entomol. Med. no. 3-4, 1126.Google Scholar
Gillies, M. T. (1969). The ramp-trap, an unbaked device for flight studies of mosquitoes.—Mosquito News 29, 189193.Google Scholar
Gillies, M. T. & Wilkes, T. J. (1972). The range of attraction of animal baits and carbon dioxide for mosquitoes. Studies in a freshwater area of West Africa.—Bull. ent. Res. 61, 389404.CrossRefGoogle Scholar
Haddow, A. J. (1960). Studies on the biting habits and medical importance of East African mosquitoes in the genus Aedes. I—Subgenera Aedimorphus, Banksinella and Dunnius.—Bull. ent. Res. 50, 759779.Google Scholar
Haddow, A. J., Gillett, J. D. & Highton, R. B. (1947). The mosquitoes of Bwamba county, Uganda. V—The vertical distribution and biting-cycle of mosquitoes in rain-forest, with further observations on microclimate.—Bull. ent. Res. 37, 301330.CrossRefGoogle Scholar
Horsfall, W. R. (1942). Biology and control of mosquitoes in the rice area.—Bull. Ark. agric. Exp. Stn no. 427, 46 pp.Google Scholar
Jupp, P. G. (1971). The taxonomic status of Culex (Culex) univittatus Theobald (Diptera: Culicidae) in South Africa.—J. ent. Soc. sth. Afr. 34, 339357.Google Scholar
Love, G. J. & Smith, W. W. (1958). The stratification of mosquitoes.—Mosquito News 18, 279283.Google Scholar
McIntosh, B. M., Jupp, P. G. & de Sousa, J. (1972). Mosquitoes feeding at two horizontal levels in gallery forest in Natal, South Africa, with reference to possible vectors of chikungunya virus.—J. ent. Soc. sth. Afr. 35, 8190.Google Scholar
Mattingly, P. F. (1949 a). Studies on West African forest mosquitoes.—Part I. The seasonal distribution, biting cycle and vertical distribution of four of the principal species.—Bull. ent. Res. 40, 149168.Google Scholar
Mattingly, P. F. (1949 b). Studies on West African forest mosquitoes. Part II. The less commonly occurring species.—Bull. ent. Res. 40, 387402.Google Scholar
Meyers, E. G. (1959). Mosquito collections by light-traps at various heights above ground.—Proc. Pap. ann. Conf. California Mosq. Control Ass. 27, 6163.Google Scholar
Snow, W. F. & Boreham, P. F. L. (1973). The feeding habits of some West African Culex (Dipt., Culicidae) mosquitoes.—Bull. ent. Res. 62, 517526.Google Scholar
Taylor, L. R. (1955). The standardization of air-flow in insect suction traps.—Ann. appl. Biol. 43, 390408.CrossRefGoogle Scholar