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The Maize and Sorghum Stalkborer, Busseola fusca (Fuller), in Peasant Agriculture in Tanganyika Territory

Published online by Cambridge University Press:  10 July 2009

G. Swaine
Affiliation:
Entomologist, Department of Agriculture, Tanganyika.

Extract

Busseola fusca (Fuller) is a serious pest of maize and sorghum in Tanganyika where it occurs mainly at altitudes of 4,000 ft. and over.

Laboratory work on the life-cycle and on the diapause of the larva is described. Diapause is terminated by contact with water.

Field work at Nzega, Western Province, indicates that the first sowings, made within two to three weeks of the beginning of the rains, are likely to be heavily attacked by larvae of the first generation. These are the progeny of a “raininduced” flight of adults of Busseola derived from diapause larvae in the maize and sorghum left in the fields from the previous season, the larvae being induced to pupate when the stems are wetted by rain.

The number of generations in the main crop season, November–June/July, is two. A third generation occurs in sorghum tillers produced after June/July.

No alternate hosts of importance comparable with maize and sorghum have been found.

Cultural control by burning the crop residues left in the field after harvest, in order to destroy the diapause larvae, is not practicable in peasant agriculture as these residues are required for such purposes as palisading, building of contour banks and for grazing cattle and goats during the dry season.

Chemical control of the first generation of Busseola in young maize can be achieved by the application of a dust containing 2·5 per cent. DDT into the funnel of the plant. In 13 experiments on peasant-owned plots at Mbeya, in which a dust containing 2·5 per cent. DDT was applied four times, at weekly intervals, beginning about 18 days after germination, and at the rate of 10 lb. per acre, the average weight of maize cobs from 100 plants was increased from 12·46 to 22·82 kg., an increase of 83·1±19·0 per cent. Factors other than Busseola which affect the yield are discussed and it is suggested that control measures would probably be worthwhile only where a combination of a suitably fertile soil, early planting and adequately distributed rainfall obtains.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 1957

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References

Anderson, T. J. (1926). Insect pests of the maize crop.—Bull. Dep. Agric. Kenya, no. 5, 8 pp.Google Scholar
Duerden, J. C. (1953). Stem borers of cereal crops at Kongwa, Tanganyika, 1950–52.—E. Afr. agric. J., 19, pp. 105119.Google Scholar
Evans, I. B. Pole (1939). Solving the Union's pasture, crop and insect problems. Annual report of the Division of Plant Industry.—Fmg in S. Afr., 1939 repr. no. 117, 22 pp.Google Scholar
Jack, R. W. (1917). The Maize Stalk Borer (Calamistis fusca, Hmpsn.).—Bull. Dep. Agric. S. Rhod., no. 276, 12 pp.Google Scholar
Jepson, W. F. (1954). A critical review of the world literature on the lepid-opterous stalk borers of tropical graminaceous crops.—127 pp. London, Commonw. Inst. Ent.Google Scholar
Mally, C. W. (1920). The Maize Stalk Borer, Busseola fusca, Fuller.—Bull. Dep. Agric. S. Afr., no. 3, 111 pp.Google Scholar
Rounce, N. V. (1949). The agriculture of the Cultivation Steppe of the Lake, Western and Central Provinces.—105 pp. Cape Town, Longmans, Green.Google Scholar
Taylor, F. (1952). The Maize-stalk Borer in the eastern Orange Free State.—Fmg in S. Afr., 27, pp. 450, 452.Google Scholar
Tuckett, J. R. (1955). Report of the Agricultural Officer (Experiments), Southern Highlands Province, for the year 1954.—Rep. Dep. Agric. Tanganyika, pt. 2, pp. 95104.Google Scholar