Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-28T08:10:59.646Z Has data issue: false hasContentIssue false

THE MOSQUITOES OF THE GREATER WINNIPEG AREA

Published online by Cambridge University Press:  31 May 2012

J. McLintock
Affiliation:
Winnipeg, Manitoba

Extract

This study was an attempt to discover, for the Greater Winnipeg district, what species of mosquitoes occurred, under what conditions, their seasonal distribution, and the relative abundance of each species. The field work and preservation of the material were done by the writer in conjunction with his duties, first as Senior Foreman in 1938 and later, in 1939, as Field Manager of the Winnipeg Anti-Mosquito Campaign.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1944

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

REFERENCES

1.Bodine, J. H. 1923. A Note on the Toxicity of Acids for Mosquito Larva. Biol. Bull. Vol. XLV, No. 3.Google Scholar
2.Dyar, H. G. 1921. Mosquitoes of Canada. Trans. Roy. Can. Inst., Vol. XIII. Pt. 1.Google Scholar
3.Dyar, H. G. 1923. On Aedes riparius D. and K. Ins. Mens. 11: 8892. Original not seen, reference in Owen (15).Google Scholar
4.Dyar, H. G. 1928. The Mosquitoes of the Americas. Carnegie Inst. Wash. Publication No. 387.Google Scholar
5.Ginsburg, I. 1937. The Species and its Subdivisions. Copeia, No. 3, Nov.CrossRefGoogle Scholar
6.Ginsburg, I. 1938. Arithmetical Definition of the Species, Subspecies and Race Concept, with a Proposal for a Modified Nomenclature. Zoologica, N. Y. Zoo. Soc. Vol. XXIII (Pt. 3).Google Scholar
7.Ginsburg, I. 1939. The Measure of Population Divergence and Multiplicity of Characters. Jour. Wash. Acad. Sci., Vol. 29, No. 8.Google Scholar
8.Hearle, E. 1927. Mosquito Control Activities in Western Canada. 58th Ann. Rept. Ent. Soc. Ont. Ont. Dept. Agric.Google Scholar
9.Hearle, E. 1929. The Life History of Aedes flavescens Muller. Trans. Roy. Soc. Can. Third Series, Vol. XXIII, Sec. V.Google Scholar
10.Iyengar, M. O. T. 1930. Dissolved Oxygen in Relation to Anopheles Breeding. Ind. Jour. Med. Res., XVIII, No. 4. Reviewed in R. A. E. Vol. 18, Ser. B, Pt. 9, p. 196. Original not seen.Google Scholar
11.Johnston, W. A. 1934. Surface Deposits and Ground-Water Supply of Winnipeg Map-Area, Manitoba. Mem. 174, Geol. Survey, Can. Dept. Mines, No. 2363.Google Scholar
12.Mail, G. A. 1934. The Mosquitoes of Montana. Bull. No. 288, Montana State College Agric. Exp. Sta.Google Scholar
13.Matheson, R. 1929. A Handbook of the Mosquitoes of North America. Chas. C. Thomas, Springfield, Ill.Google Scholar
14.MacGregor, M. E. 1929. The Significance of the pH in the Development of Mosquito Larvae. Parasitology XXI, No. 1–2, Cambridge.Google Scholar
15.Owen, W. B. 1937. The Mosquitoes of Minnesota, With Special Reference to Their Biologies. Tech. Bull. 126, Univ. of Minn. Agric. Exp. Sta.Google Scholar
16.Senior-White, R. 1928. Physical Factors in Mosquito Ecology. Ind. Jour. Med. Res. XV, No. 4 and XVI, No. 1, Calcutta.Google Scholar
17.Tully, J. 1928. Report of the Winnipeg Anti-Mosquito Campaign.Google Scholar
18.Wang, Lo-Shan. 1938. A Comparative Study of the Oxygen Requirement of Mosquito Larvae. Chin. med. J. Suppl. 2. Peking. Reviewed in R.A.E. Vol. 26, Ser. B. Pt. 8, p. 146. Original not seen.Google Scholar