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Design and Efficiency of Mosquito Traps Based on Visual Response to Patterns

Published online by Cambridge University Press:  31 May 2012

W. O. Haufe  and
L. Burgess
W. O. Haufe
Affiliation:
Veterinary-Medical Entomology Section Canada Agriculture Research Station, Lethbridge, Alberta.
L. Burgess
Affiliation:
Entomology Laboratory, Research Branch, Canada Department of Agriculture, Guelph, Ontario.
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Extract

Extensive investigations on the biology and control of biting flies were conducted in northern Canada from 1947 to 1953 (Brown, et al., 1951; Haufe, 1952; Hocking et al., 1950; Twinn et al., 1948, 1950; Twinn 1950). The difficulty of assessing populations of mosquitoes both in chemical control and in ecological investigations limited the interpretation of some of the work that was undertaken. One of the primary objectives of ecological and behaviour studies was to determine the weather conditions that are favourable for attraction of mosquitoes to man. Reliable estimates of the unattracted population must, for this purpose, be obtained independently of the observer. Large catches are also important in estimating abundance when the time for individual catches is reduced to one hour or less. For these reasons a satisfactory mechanically-operated device for sampling mosquitoes in flight became essential.

Type
Articles
Information
The Canadian Entomologist , Volume 92 , Issue 2 , February 1960 , pp. 124 - 140
Copyright
Copyright © Entomological Society of Canada 1960

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References

Autrum, H. 1949. Neue Versuche zum optischen Auflösungsvermögen fliegender Insekten. Experientia 5: 271277.CrossRefGoogle Scholar
Autrum, H. 1950. Die Belichtungspotentiale und das Sehen der Insekten (Untersuchungen an Calliphora und Dixippus). Z. vergl. Physiol., 32: 176237.CrossRefGoogle ScholarPubMed
Brown, A. W. A. 1951. Studies of the responses of the female Aedes mosquito. Part IV. Field experiments on Canadian species. Bull. Ent. Res. 42: 575582.Google Scholar
Brown, A. W. A., Thompson, R. P., Twinn, C. R., and Cukomp, L. K.. 1951. Control of adult mosquitoes and blackflies by DDT sprays applied from aircraft. Mosquito News 11: 7584.Google Scholar
Brown, A. W. A. 1954. Studies of the responses of the female Aedes mosquito. Part VI. The attractiveness of coloured cloths to Canadian species. Bull. Ent. Res. 45: 6778.CrossRefGoogle Scholar
Gaffron, M. 1934. Untersuchungen über das Bewegungssehen bei Libellenlarven, Fliegen und Fischen. Z. vergl. Physiol. 20: 299337.Google Scholar
Gjullin, C. M. 1947. Effect of clothing colour on the rate of attack of Aedes mosquitoes. J. Econ. Ent. 40: 326327.Google Scholar
Harcourt, D. G., and Cass, L. M. 1958. A controlled-interval light trap for Microlepidoptera. Canad. Ent. 90: 617622.Google Scholar
Haufe, W. O. 1952. Observations on the biology of mosquitoes (Diptera: Culicidae) at Goose Bay, Labrador. Can. Ent. 84: 254262.CrossRefGoogle Scholar
Haufe, W. O. 1958. Quantitative study of the stimulation of flight activity in adult mosquitoes by interactions of physical factors in the environment. Ph. D. Thesis, University of London, England.Google Scholar
Haufe, W. O. In preparation. Biodynamics of mosquitoes. II. Adult populations in Sub-Arctlc Canada with particular reference to flight activity.Google Scholar
Headlee, T. J. 1932. The development of mechanical equipment for sampling the mosquito fauna and some results of its use. Proc. 19th Ann. Mtg. New Jersey Mosquito Exterm. Assoc., Atlantic City, pp. 106126.Google Scholar
Hecht, S., and Wolf, E.. 1929. The visual acuity of the bee and its relation to illumination. Proc. Nat. Acad. Sci., Washington, 15: 178185.CrossRefGoogle ScholarPubMed
Hundertmark, A. 1937. Das Helligkeitsunterscheidungsvermögen der Strabheuschecke (Dixippus morosus). Biol. zbl. 57: 228233.Google Scholar
Hocking, B., Richards, W. R., and Twinn, C. R.. 1950. Observations on the bionomics of some northern mosquito species (Diptera: Culicidae). Can. J. Res., D. 28: 5878.Google Scholar
Johnson, C. G. 1950. A suction trap for small airborne insects which automatically segregates the catch into successive hourly samples. Ann. Appl. Biol. 37(1): 8089.Google Scholar
Kennedy, J. S. 1939. The visual responses of flying mosquitoes. Proc. Zool. Soc. Lond. (A) 109: 221242.Google Scholar
Knoll, F. 1921. Insekten und Blumen. Experimentelle Arbeiten zur Vertiefung unserer Kenortnisse Über Pflanzen und Tieren. Abb. zool.-bot. Ges Wien 12: 1117.Google Scholar
Knoll, F. 1926. Insekten und Blumen. Abb. zool. bot. Oes. Wien 12: 1646.Google Scholar
Rao, T. R. 1947. Visual responses of mosquitoes artificially rendered flightless, J. Exp. Biol. 24: 6478.CrossRefGoogle Scholar
Robinson, H. S. 1952. On the behaviour of night-flying insects in the neighbourhood of a bright source of light. Proc. Roy. Ent. Soc. Lond. 27: 1321.Google Scholar
Schlegtendal, A. 1937. Demonstration of colour sense by optomotor response. Z. vergl. Physiol. 20: 545581.CrossRefGoogle Scholar
Sippell, W. L., and Brown, A. W. A.. 1953. Studies of the responses of the female Aedes mosquito. Part V. The role of visual factors. Bull. Ent. Res. 43: 567574.Google Scholar
Twinn, C. R., Hocking, B., McDuffie, Wm. C., and Cross, H. F.. 1948. A preliminary account of the biting flies at Churchill, Manitoba. Can. J. Res., D, 26: 334357.Google Scholar
Twinn, C. R. 1950. Studies on the biology and control of biting flies in northern Canada. Arctic (Jour. Arctic Inst. of N. A.) 3: 1426.Google Scholar
Twinn, C. R., Brown, A. W. A., and Hurtig, H.. 1950. Area control of mosquitoes by aircraft in Sub-Arctic Canada. Proc. 37th Ann. Mtg. New Jersey Mosq. Exterm. Assoc. pp. 113140.Google Scholar
Wigglesworth, V. B. 1950. The principles of insect physiology. Methuen & Company, London, pp. 145147.Google Scholar
Wolf, E. 1933a. The visual intensity discrimination of the honey bee. J. Gen. Physiol. 16: 407422.Google Scholar
Wolf, E. 1933b. On the relation between measurements of intensity discrimination and of visual acuity in the honey bee. J. Gen. Physiol. 16: 719.Google Scholar
Wolf, E. 1933c. Das Verhalten der Bienen gegenuber Flimmernden Feldern und bewegten Objekten. Z. vergl. Physiol. 20: 151161.Google Scholar
Wolf, E., and Zerrahn-Wolf, G.. 1935. The dark adaptation of the eye of the honey bee. J. Gen. Physiol. 19: 229237.Google Scholar
Zerrahn, G. 1933. Formdressur und Formunterscheidung bei der Honigbiene. Z. vergl. Physiol. 20: 117150.Google Scholar