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Observations on Chironomidae at Khartoum

Published online by Cambridge University Press:  10 July 2009

D. J. Lewis
Affiliation:
Scientific Staff, Medical Research Council* .

Extract

This paper deals mainly with species of Tanytarsus (CHIRONOMIDAE) at Khartoum, particularly the very common T. lewisi Freeman. These midges are a serious pest there, usually between November and April, causing great annoyance by swarming in vast numbers around lights during the first few hours after sunset and thus interfering with work and pleasure in the riverain area. They are probably responsible for a considerable amount of asthma and other conditions due to allergy. Little information is available about the biology of CHIEONOMIDAE in Africa, so reference is made to the Palaearctic T. mancus Walker, to which T. lewisi is closely related. Studies of Chironomids from the health point of view elsewhere have little relation to the Khartoum problem, but work on Chaoborus (CULICIDAE) is of interest.

The conditions under which these midges occur at Khartoum and the methods of study are described.

At least 26 species of CHIRONOMIDAE, including four of Tanytarsus, occur at Khartoum. The respiratory organs of some pupae are figured, and a key, based on the characters of these organs, is given for some of the species.

Observations on the biology of all stages are recorded, particularly on the vertical movements and drifting of larvae and pupae and the time of emergence. Many larvae and pupae drift downstream at night, and T. lewisi emerges mainly in the early morning.

Some exploratory field trials of larvicides were carried out. The results were inconclusive, and the difficulty of assessing them is pointed out. Thorough control by anti-larval measures would be extremely difficult owing to the large size of the river and the drift of pupae from upstream. It is believed that it might be possible but prohibitively expensive, and would have to be repeated annually, perhaps throughout the midge season. Various protective measures are discussed. It is considered that riverside dwellers who can do so should move inland, and that a barrier of trees parallel to the river would protect houses away from the river front. People who must be near the river in the evening can achieve considerable protection by clearing some vegetation, fogging with insecticide, or using air-cleaning or air-conditioning equipment.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1957

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References

Allee, W. C. & Schmidt, K. P. (1951). Ecological animal geography.—2nd edn., 715 pp. New York, Wiley.Google Scholar
Bates, M. (1949). The natural history of mosquitoes.—379 pp. New York, Macmillan.Google Scholar
Bause, E. (1914). Die Metamorphose der Gattung Tanytarsus…Arch. Hydrobiol., suppl. 2, 128 pp.Google Scholar
Beam, W. (1906). Reports of the Chemical Section…2nd Rep. Wellcome trop. Res. Lab., pp. 205244.Google Scholar
Bertlin, D. P. & Olivier, H. (1954). Owen Falls: constructional problems.—Proc. Inst. civ. Engrs, 3, pp. 670719.Google Scholar
Brundin, L. (1947). Zur Kenntnis der Schwedischen Chironomiden.—Ark. Zool., (A) 39, no. 3, pp. 195.Google Scholar
Brundin, L. (1949). Chironomiden und andere Bodentiere der südschwedischen Urgebirgsseen…Rep. Inst. Freshw. Res. Drottning., no. 30, 914 pp.Google Scholar
Brundin, L. (1951). The relation of O2-microstratification at the mud surface to the ecology of the profundal bottom fauna.—Rep. Inst. Freshw. Res. Drottning., no. 32, pp. 3242.Google Scholar
Carpenter, G. D. H. (1920). A naturalist on Lake Victoria….—333 pp. London, Unwin.Google Scholar
Carpenter, K. E. (1928). Life in inland waters.—267 pp. London, Sidgwick & Jackson.Google Scholar
Coe, R. L. (1950). Family Chironomidae. In Coe, R. L., Freeman, P. & Mattingly, P. F. Diptera. 2. Nematocera: families Tipulidae to Chironomidae.—Handb. Ident. Brit. Ins., 9, pt. 2, pp. 121206. London, R. ent. Soc.Google Scholar
Corbet, P. S. & Tjønneland, A. (1955). Rhythmic flight activity of certain East African Trichoptera.—Nature, Lond., 175, pp. 11221123.CrossRefGoogle Scholar
EAST AFRICA HIGH COMMISSION (1951). East African Fisheries Research Organization. Annual report 1950.—Nairobi.Google Scholar
EAST AFRICA HIGH COMMISSION (1952). East African Fisheries Research Organization. Annual report 1951.—Nairobi.Google Scholar
Edwards, F. W. (1929). British non-biting midges (Diptera, Chironomidae).—Trans. R. ent. Soc. Lond., 77, pp. 279430.CrossRefGoogle Scholar
Edwards, F. W. (1930). Notes on exotic Chaoborinae, with descriptions of new species (Diptera, Culicidae).—Ann. Mag. nat. Hist., (10) 6, pp. 528540.CrossRefGoogle Scholar
Farrar, M. D. (1953). The granulated type of insecticide for soil treatment.—J. econ. Ent., 46, pp. 377379.CrossRefGoogle Scholar
Freeman, P. (1953). Chironomidae (Diptera) from western Cape Province. I.—Proc. R. ent. Soc. Lond., (B) 22, pp. 127135.Google Scholar
Freeman, P. (1954 a). Chironomidae (Diptera) from western Cape Province. III.—Proc. R. ent. Soc. Lond., (B) 23, pp. 1725.Google Scholar
Freeman, P. (1954 b). East African Chironomidae and Ceratopogonidae (Dipt.).—Arch. Hydrobiol., 48, pp. 441446.Google Scholar
Freeman, P. (1955 a). A study of the Chironomidae (Diptera) of Africa south of the Sahara. Part I.—Bull. Brit. Mus. (nat. Hist.), Ent., 4, pp. 167.Google Scholar
Freeman, P. (1955 b). Chironomidae (Diptera, Nematocera).—Explor. Pare nat. Albert Miss, de Witte 1933–35, fasc. 83.Google Scholar
Freeman, P. (1956). A study of the Chironomidae (Diptera) of Africa south of the Sahara. Part II.—Bull. Brit. Mus. (nat. Hist.), Ent., 4, pp. 287368.Google Scholar
Gibson, N. H. E. (1945). On the mating swarms of certain Chironomidae (Diptera).—Trans. R, ent. Soc. Lond., 95, pp. 263294.CrossRefGoogle Scholar
Goetghebuer, M. (1927). Diptères (Nématocères). Chironomidae. [II.] Tanypodinae.—Faune Fr., 15, 84 pp. Paris, Lechevalier.Google Scholar
Goetghebuer, M. (1928). Diptères (Nématocères). Chironomidae. III. Chironomariae.—Faune Fr., 18, 174 pp. Paris, Lechevalier.Google Scholar
Goetghebuer, M. (1936 a). Les Cératopogonides et les Chironomides de Belgique au point de vue hydrobiologique.—Bull. Ann. Soc. ent. Belg., 76, pp. 6976.Google Scholar
Goetghebuer, M. (1936 b). Tendipedidae (Chironomidae). In Lindner, E.Flieg. pal. Reg., 13b, 81 pp.Google Scholar
Hennig, W. (1950). Die Larvenformen der Dipteren. 2. Teil.—458 pp. Berlin, Akad.-Verlag.Google Scholar
Hinton, H. E. (1946 a). Concealed phases in the metamorphosis of insects.—Nature, Lond., 157, pp. 552553.CrossRefGoogle ScholarPubMed
Hinton, H. E. (1946 b). A new classification of insect pupae.—Proc. zool. Soc. Lond., 116, pp. 282328.CrossRefGoogle Scholar
Howard, L. O., Dyar, H. G. & Knab, F. (1912). The mosquitoes of North and Central America and the West Indies. Vol. 1.—520 pp. Washington, D.C., Carnegie Inst.Google Scholar
Humphries, C. F. (1938). The Chironomid fauna of the Grosser Plöner See, the relative density of its members and their emergence period.—Arch. Hydrobiol., 33, pp. 535584.Google Scholar
Johannsen, O. A. (1937). Aquatic Diptera. Part IV. Chironomidae: subfamily Chironominae.—Mem. Cornell agric. Exp. Sta., no. 210, pp. 352.Google Scholar
Keilin, D. (1944). Respiratory systems and respiratory adaptations in larvae and pupae of Diptera.—Parasitology, 36, pp. 166.CrossRefGoogle Scholar
Krüger, F. (1938). Tanytarsus-Studien I…Arch. Hydrobiol., 33, pp. 208256.Google Scholar
Lewis, D. J. (1956 a). Chironomidae as a pest in the northern Sudan.—Acta trop., 13, pp. 142158.Google ScholarPubMed
Lewis, D. J. (1956 b). Some mosquitos of the Sudan.—Bull. ent. Res. 47, pp. 723735.CrossRefGoogle Scholar
Lewis, D. J., Henry, A. J. & Grindley, D. N. (1954). Daily changes in the numbers of Chironomid midges at Khartoum.—Proc. R. ent. Soc. Lond., (A) 29, pp. 124128.Google Scholar
Lindquist, A. W., Roth, A. R. & Walker, J. R. (1951). Control of the Clear Lake Gnat in California.—J. econ. Ent., 44, pp. 572577.CrossRefGoogle Scholar
Macan, T. T. (1947). Taxonomy of aquatic insect nymphs and larvae.—Nature, Lond., 159, pp. 595596.CrossRefGoogle ScholarPubMed
Macdonald, W. W. (1956). Observations on the biology of Chaoborids and Chironomids in Lake Victoria and on the feeding habits of the “ elephantsnout fish ” (Mormyrus kannume Forsk.).—J. Anim. Ecol., 25, pp. 3653.CrossRefGoogle Scholar
Malloch, J. R. (1915). The Chironomidae, or midges, of Illinois, with particular reference to the species occurring in the Illinois River.—Bull. III. Lab. nat. Hist., 10, pp. 275543.Google Scholar
Miall, L. C. & Hammond, A. R. (1900). The structure and life-history of the Harlequin Fly (Chironomus).—196 pp. Oxford, Clarendon Pr.CrossRefGoogle Scholar
Miller, R. B. (1941). A contribution to the ecology of the Chironomidae of Costello Lake, Algonquin Park, Ontario.—Univ. Toronto Stud. Biol., no. 49, 63 pp.Google Scholar
Mundie, J. H. (1956). Emergence traps for aquatic insects.—Mitt. int. Ver. Limnol., no. 7, 13 pp.Google Scholar
Nielsen, E. T. & Greve, H. (1950). Studies on the swarming habits of mosquitos and other Nematocera.—Bull. ent. Res., 41, pp. 227258.CrossRefGoogle Scholar
Nielsen, E. T. & Haeger, J. S. (1954). Pupation and emergence in Aëdes taeniorhynchus (Wied.).—Bull. ent. Res., 45, pp. 757768.CrossRefGoogle Scholar
Pagast, F. (1931). Chironomiden aus der Bodenfauna des Usma-Sees in Kurland.—Folia zool. hydrobiol., 3, pp. 199248.Google Scholar
Pekkola, W. (1919). Notes on the habits, breeding and food of some White Nile fish.—Sudan Notes, 2, pp. 112121.Google Scholar
Phillipp, P. (1938). Experimentelle Studien zur Oekologie von Chironomus thummi Kieffer.—Zool. Anz., 122, pp. 237245.Google Scholar
Robinson, H. S. (1951). [Behaviour of night-flying insects (summary).]—Proc. R. ent. Soc. Lond., (C) 16, p. 8.Google Scholar
Rzóska, J., Brook, A. J. & Phowse, G. A. (1955). Seasonal plankton development in the White and Blue Nile near Khartoum.—Proc. int. Ass. Limnol., 12, pp. 327334.Google Scholar
Sandon, H. (1950). An illustrated guide to the freshwater fishes of the Sudan.—Sudan Notes, suppl.Google Scholar
Sandon, H. & Al Tayib, A. (1953). The food of some common Nile fish.—Sudan Notes, 34, pp. 205229.Google Scholar
Scott, W. & Opdyke, D. F. (1941). The emergence of insects from Winona Lake.—Invest. Ind. Lakes, 2, pp. 515.Google Scholar
Scott, W. N. (1936). An experimental analysis of the factors governing the hour of emergence of adult insects from their pupae.—Trans. R. ent. Soc. Lond., 85, pp. 303329.CrossRefGoogle Scholar
Sprules, W. M. (1947). An ecological investigation of stream insects in Algonquin Park, Ontario.—Univ. Toronto Stud. Biol., no. 69, 81 pp.Google Scholar
Thienemann, A. (1950). Lunzer Chironomiden.—Arch. Hydrobiol., 18, suppl., 202 pp.Google Scholar
Thienemann, A. (1954). Chironomus…—Binnengewässer, 20, 834 pp. Stuttigart, Nägele.Google Scholar
Walshe, B. M. (1951). The feeding habits of certain Chironomid larvae (subfamily Tendipedinae).—Proe. zool. Soc. Lond., 121, pp. 6379.CrossRefGoogle Scholar
Weber, N. A. (1952). The 1952 Animal Behaviour Eclipse Expedition of the College of Arts and Science.—Publ. Coll. Arts Sci. Baghdad, no. 2.Google Scholar
Wesenberg-Lund, C. (1943). Biologie der Süsswasserinsekten.—682 pp. Copenhagen, Gyldendalske Boghandel.CrossRefGoogle Scholar
Wheeler, W. M., MaoCoy, C. I., Griscom, L., Allen, G. M. & Coolidge, H. J. (1932). Observations on the behavior of animals during the total solar eclipse of August 31, 1932.—Proc. Amer. Acad. Sci., 70, pp. 3370.CrossRefGoogle Scholar
Wigglesworth, V. B. (1953). The principles of insect physiology.—5th edn., 546 pp. London, Methuen; New York, Dutton.Google Scholar
Wirth, W. W. & Stone, A. (1956). Aquatic. Diptera. In Usinger, R. L.Ed. Aquatic insects of California, pp. 372482. Berkeley, Calif., Univ. Calif. Pr.CrossRefGoogle Scholar
Zavrel, J. (1934).—Tanytarsus-larven und puppen aus Niederländisch-Indien.—Arch. Hydrobiol., suppl. 13, pp. 139165.Google Scholar