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Studies on the ecology of Aphis craccivora Koch (Hem., Aphididae), the vector of rosette disease of groundnuts, in Uganda

Published online by Cambridge University Press:  10 July 2009

J. C. Davies
Affiliation:
Department of Agriculture, Serere Research Station, P. O. Soroti, Uganda

Extract

Observations on Aphis craccivora Koch at Serere, Uganda, in 1964–68 showed that dry season carry-over of aphids could occur on the common weeds Euphorbia hirta and E. prostrata; at other times aphids were seen on Gliricidia sepium, Cassia tora, Centrosema pubescens and Macroptilium atropurpureum, the last two being increasingly used as pasture legumes. In pot tests, attempts to transfer the virus through G. sepium, Cassia tora, Stylosanthes guianensis and Centrosema pubescens were unsuccessful. Volunteer groundnuts growing in open situations were an important source of virus and vector. Field studies on menazon-sprayed and unsprayed plants closely or widely spaced showed that aphid numbers increased rapidly on the groundnut crop 31–45 days from emergence but declined rapidly as the plants matured. Superficially the plants appeared to be free of aphids but large populations were often found on hypanthia, flowers and gynophores. Coccinellids, especially Cheilomenes sulphurea (Ol), were important predators. Aphid numbers were far higher on groundnuts with low plant densities, possibly because the number of favoured feeding sites is increased, but the number of plants infested was not significantly different at high and low densities. Yellow panels had little effect on aphid numbers. Spraying with menazon (294 g active ingredient/ha, 5 times) prevented breeding by incoming alates.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1972

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References

A'Brook, J. (1964). The effect of planting date and spacing on the incidence of groundnut rosette disease and of the vector Aphis craccivora Koch at Mokwa, Northern Nigeria.—Ann. appl. Biol. 54, 199208.Google Scholar
A'Brook, J. (1968). The effect of plant spacing on the numbers of aphids trapped over the groundnut crop.—Ann. appl. Biol. 61, 289294.Google Scholar
Adams, A. N. (1966). Groundnut rosette virus—another vector.—Rhod., Zambia, Malawi J. agric. Res. 4, 125.Google Scholar
Adams, A. N. (1967 a). The vectors and alternative hosts of groundnut rosette virus in Central Province, Malawi.—Rhod., Zambia, Malawi J. agric. Res. 5, 145151.Google Scholar
Adams, A. N. (1967 b).—A host plant of Malawi aphids (Aphididae, Homoptera).—Rhod.. Zambia, Malawi J. agric. Res. 5, 185187.Google Scholar
Booker, R. H. (1963). The effect of sowing date and spacing on rosette disease of groundnut in Northern Nigeria, with observations on the vector, Aphis craccivora.—Ann. appl. Biol. 52, 125131.Google Scholar
Brown, E. S., Betts, E. & Rainey, R. C. (1969). Seasonal changes in distribution of the African armyworm, Spodoptera exempta (Wlk.) (Lep., Noctuidae), with special reference to eastern Africa.—Bull. ent. Res. 58. 661725.Google Scholar
Clinton, P. K. S. (1962). Causes of loss of yield in groundnuts in the Sudan central rainlands.—Emp. J. exp. Agric. 30, 137144.Google Scholar
Davies, J. C. & Kasule, F. K. (1964). The control of groundnut rosette disease in Uganda.—Trop. Agric., Trin. 41, 303309.Google Scholar
Davies, J. C. (1969). A study of the chemical control and bionomics of Aphis craccivora Koch and their effects on rosette disease attack and yield of groundnuts Arachis hypogea L.—321 pp. Ph.D thesis, Univ. E. Afr.Google Scholar
Dumbleton, L. J. (1954). A list of plant diseases recorded in South Pacific territories.—Tech. Pap. S. Pacif. Commn no. 78, 73 pp.Google Scholar
Eastop, V. F. (1958). A study of the Aphididae (Homoptera) of East Africa.—Colon. Res. Publs no. 20, 126 pp.Google Scholar
Evans, A. C. (1954). Groundnut rosette disease in Tanganyika. I. Field studies.—Ann. appl. Biol. 41, 189206.Google Scholar
Hull, R. (1964). Spread of groundnut rosette virus by Aphis craccivora (Koch).—Nature, Lond. 202, 213214.Google Scholar
Kennedy, J. S., Booth, C. O. & Kershaw, W. J. S. (1961). Host finding by aphids in the field.III. Visual attraction.—Ann. appl. Biol. 49, 121.Google Scholar
Klesser, P. J. (1967). Arachis species and their reaction to virus infection.—S. Afr. J. agric. Sci. 10, 919927.Google Scholar
Le Pelley, R. H. (1959). Agricultural insects of East Africa.—307 pp. Nairobi, East Africa High Commission.Google Scholar
Nutman, F. J., Roberts, F. M. & Williamson, J. G. (1964). Studies on varietal resistance in the groundnut (Arachis hypogaea L.) to rosette disease.—Rhod. J. agric. Res. 2, 6367.Google Scholar
Okusanya, B. A. M. & Watson, M. A. (1966). Host range and some properties of groundnut rosette virus.—Ann. appl. Biol. 58, 377387.Google Scholar
Panse, E. (1937). Die Kräuselkrankheit (Rosette Mosaik) bei Erdnüssen.—Tropenpflanzer. 40, 218220.Google Scholar
Soyer, D. (1939). La ‘rosette’ de l'arachide. Recherches sur les vecteurs possibles de la maladie.—Publs inst. natn. Étude agron. Congo belge Série Scientifique no. 21, 23 pp.Google Scholar
Storey, H. H. (1932). Report of the Plant Pathologist.—Rep. E. Afr. agric. Res. inst. 19311932, 813.Google Scholar
Storey, H. H. & Bottomley, A. M. (1928). The rosette disease of peanuts (Arachis hypogaea L.).—Ann. appl. Biol. 15, 2645.Google Scholar