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Stimulation of plant growth and aphid populations by a formulation ingredient of ‘Cymbush’ (cypermethrin)

Published online by Cambridge University Press:  10 July 2009

Helen J. Hutt
Affiliation:
Department of Pure and Applied Zoology, University of Reading, UK
H.F. van Emden*
Affiliation:
Department of Horticulture, University of Reading, UK
T. Baker
Affiliation:
Department of Horticulture, University of Reading, UK
*
H.F. van Emden, Department of Horticulture, The University, Whiteknights, Reading, Berks, RG6 2AS, UK.

Abstract

Similar increases in the height and aerial fresh weight of cowpeas compared with control plants were obtained when plants were sprayed with either 50 ppm a.i. (active ingredient) of the pyrethroid insecticide ‘Cymbush’® containing cypermethrin, or, the equivalent dilution of a blank formulation without the a.i. With broad beans, similar growth stimulation was obtained with the blank at the same or half dose, but not at a quarter dose. Testing the four formulation components separately showed that only the non-ionic emulsifier caused stimulation. A comparison of the stimulation of plant growth by the blank and the non-ionic emulsifier showed that plant height, shoot fresh weight, leaf fresh weight, leaf dry weight and leaf area were each equally increased by both treatments. The non-ionic emulsifier thus accounted for the entire stimulation caused by blank solution. Populations of Aphis fabae Scopoli (Homoptera: Aphididae) were twice as high on broad bean plants sprayed with the non-ionic emulsifier as on the controls. ‘Cymbush’ (the complete formulation) sprayed at 25 ppm a.i. was shown to increase the intrinsic rate of natural increase of the aphid through a 22% increase in fecundity; aphid development time was not affected. The results do, however, suggest that residual effects of cypermethrin may have partly counteracted the stimulatory effects of the non-ionic emulsifier. Nevertheless, it is possible that outbreaks of aphids and mites following pyrethroid application, and often assumed without evidence to have been due to natural enemy mortality, may at least in part reflect the plant stimulation caused by the non-ionic emulsifier in the formulation.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 1994

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References

Birch, L.C. (1948) The intrinsic rate of natural increase of an insect population. Journal of Animal Ecology 17, 1526.Google Scholar
Highwood, D.P. (1979) Some indirect benefits of the use of pyrethroid insecticides. Proceedings of the British Crop Protection Conference, Pests and Diseases,Brighton 1979, 361369.Google Scholar
Iftner, D.C. & Hall, F.R. (1983) Effects of fen valerate and permethrin residues on Tetranychus urticae (Koch) fecundity and rate of development. Journal of Agricultural Entomology 1, 191200.Google Scholar
Jones, V.P. & Parella, M.P. (1984) The sub-lethal effects of selected insecticides on life table parameters of Panonychus citri (Acari: Tetranychidae). Canadian Entomologist 116, 10331040.Google Scholar
Wilson, L.T., Smilanick, J.M., Hoffman, M.P., Flaherty, D.L. & Ruiz, S.M. (1988) Leaf nitrogen and position in relation to population parameters of pacific spider mite Tetranychus pacificus (Acari: Tetranychidae) on grapes. Environmental Entomology 17, 964968.Google Scholar
Wyatt, I.J. & White, P.F. (1977) Simple estimation of intrinsic increase rates for aphids and tetranychid mites. Journal of Applied Ecology 14, 757766.CrossRefGoogle Scholar