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The evaluation of insecticides as soil and mound poisons against termites in agriculture and forestry in West Africa

Published online by Cambridge University Press:  10 July 2009

W. A. Sands
Affiliation:
Termite Research Unit, Commonwealth Institute of Entomology.

Extract

The termites most injurious to crops and trees in West Africa are subterranean or mound-building species of the Termitidae, mainly Macrotermitinae with some Amitermitinae and Nasutitermitinae. Insecticides for their control may be applied generally to the soil, locally around the plant or directly to the colony.

In investigations in Northern Nigeria, dusts containing aldrin or dieldrin were mixed with the top six inches of soil of a type commonly cultivated (a slightly humic, brown, loamy sand), exposed to weathering in the field and tested for persistence of the insecticides by bioassay at intervals, using workers of Trinervitermes ebenerianus Sjöst., a locally common surface-foraging species. The concentration of the insecticide in the soil was measured in terms of the time in days taken for 50 per cent. of the insects to be killed (T50). After 33–34 months, between one-third and one-fifth of the insecticide remained in soil originally treated with 0·5, 2 and 5 lb. active ingredient (a.i.) per acre.

T. ebenerianus proved very sensitive to dieldrin; the T50 value was 1·48–4·10 days for single samples, from each of five colonies, exposed to filter paper containing 0·0018 parts per million, as compared with 10–24 days for the controls. It is suggested that general soil treatments should be used with caution until more is known of their effects on termite populations, which are important in facilitating aeration, and penetration of water, in tropical soils.

Application of dieldrin emulsion, at a dose equivalent to 1 lb. a.i. divided among the planting holes for one acre (1,225), during planting of one-year-old, root-pruned seedlings of Eucalyptus camalduensis, resulted in a mean survival after 2½ years of 60 per cent. of the young trees, as compared with 17 per cent. in untreated controls. Pot-grown seedlings of Eucalyptus spp. were similarly treated at 8 oz. a.i. dieldrin per 700 pots prior to setting out in the field, when they showed very low mortality due to termites over the next 1½ years, attack only occurring where too short a pot allowed access by Macrotermes natalensis (Hav.) to the tap root. Four hundred pot-grown cacao seedlings similarly treated with 4 oz. a.i. dieldrin showed only four deaths due to termites one year after planting out. Pre-treatment of potting soil for Eucalyptus seedlings at 5–10 oz. of 2 per cent, dieldrin dust per cubic yard (sufficient for 500 pots) has given promising preliminary results.

Colonies of M. natalensis, which constructs large mounds, were successfully poisoned with 2½ fl. oz. of aldrin 40 per cent, emulsifiable concentrate in six gallons of water applied through three auger holes made into the central ‘ hive ’, containing the queen cell and associated chambers. It is considered that this dose could safely be reduced.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1962

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References

Agarwala, S. B. D. (1955). Control of sugarcane termites (1946–1953).—J. econ. Ent. 48 pp. 533537.Google Scholar
Agarwala, S. B. D. & Sharma, C. (1954). Aldrin and dieldrin as outstanding agents in the control of Microtermes obesi Holmgr. on maize in Bihar.—Indian J. Ent. 16 pp. 7879.Google Scholar
Anon. (1954). Malaya. Résumé of entomological work, 1946–1953. Termites.—Rep. 6th Commonw. ent. Conf. 1954 pp. 275279.Google Scholar
Bollen, W. B., Roberts, J. E. & Morrison, H. E. (1958). Soil properties and factors influencing aldrin-dieldrin recovery and transformation.—J. econ. Ent. 51 pp. 214219.Google Scholar
Callaway, S., Dirnhuber, P. & Wilson, K. M. (1952). A new method for the bioassay of cholinesterase inhibitors.—Nature, Lond. 170 pp. 843844.Google Scholar
D[as], G. M. (1955). Control of termite attacking live wood of tea.—Encyclopedia of Tea no. 77/1, 5 pp. Tocklai, Indian Tea Ass.Google Scholar
Das, G. M. (1959). Observations on the termites affecting tea in north-east India and their control.—Indian J. agric. Sci. 28 pp. 553560.Google Scholar
Gannon, N. & Bigger, J. H. (1958). The conversion of aldrin and heptachlor to their epoxides in soil.—J. econ. Ent. 51 pp. 12.Google Scholar
Hartwig, E. K. (1955). Control of snouted harvester termites.—Fmg in S. Afr.—30 pp. 361366.Google Scholar
Lichtenstein, E. P. & Schulz, K. R. (1959). Persistence of some chlorinated hydrocarbon insecticides as influenced by soil types, rate of application and temperature.—J. econ. Ent. 52 pp. 124131.Google Scholar
Lowe, R. G. (1961). Control of termite attack on Eucalyptus citriodora Hook.—Emp. For. Rev. 40 pp. 7378.Google Scholar
Luke, W. J. (1952). Further studies on the control of Heterotermes cardini.—Shell agric. Bull. no. ADB: 236.Google Scholar
Parry, M. S. (1959). Control of termites in Eucalyptus plantations.—Emp. For. Rev. 38 pp. 288292.Google Scholar
Sands, W. A. (1960). Termite control in West African afforestation.—Rep. 7th Commonw. ent. Conf. 1960, pp. 106108.Google Scholar
Sardar, Singh & Sharma, P. L. (1957). Destruction of nests of mound-forming termites.—Indian J. Ent. 19 pp. 9195.Google Scholar
Thakur, C., Prasad, A. R. & Singh, R. P. (1958). Use of aldrin and dieldrin against termites and their effects on soil fertility.—Indian J. Ent. 19 pp. 155163.Google Scholar
Wheatley, G. A. & Hardman, J. A. (1960a). Automatic time/response records with Drosophila.—Nature, Lond. 185 pp. 708709.Google Scholar
Wheatley, G. A. & Hardman, J. A. (1960b). The bioassay of residues of insecticides in soil.—Ann. appl. Biol. 48 pp. 423427.Google Scholar
Wolcott, G. N. (1953). Residual effectiveness of insecticides against soil-inhabiting insects.—Shell agric. Bull. no. ADB: 237.Google Scholar