Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-26T08:38:40.519Z Has data issue: false hasContentIssue false

Control of ground beetles (Col., Carabidae) attacking strawberry fruits

Published online by Cambridge University Press:  10 July 2009

J. B. Briggs
Affiliation:
East Malling Research Station, Kent.
R. P. Tew
Affiliation:
East Malling Research Station, Kent.

Extract

Experiments in south-east England are described in which insecticides were tested against the Carabid beetles Harpahis rufipcs (Deg.) and Feronia melanaria(111.), which cause damage to strawberry fruits.

In preliminary screening tests, the mortality of H. rufipex was low when adults were caged with fruits or straw treated with rotenone at 0·004 per cent, or with carbaryl, DDT, dimethoate, malathion, mevinphos, nicotine, TEPP, toxaphene and trichlorphon at one or more concentrations in the range 0–06–0–2 per cent. In small-scale field trials, γ BHC at 0·026 per cent, gave poor results but chlordane and dieldrin exhibited persistent toxicity.

In further tests with fruits, field-weathered deposits from sprays containing 0·1 or 0·2 per cent, dieldrin caused over 90 per cent, mortality for 7 and 21 days, respectively, but left residues at harvest of 0·5 p.p.m., which were considered too high for consumer safety.

Dieldrin applied to soil at 5 lb. per acre resulted in 100 per cent, mortality for 28 days in 1957, but gave very variable results in 1958. Conversely, aldrin at 5 lb. gave effective mortality for only 14 days in 1957 but for the maximum test period of 89 days in 1958; no satisfactory explanation was found for the seasonal differences. Aldrin at 10 lb. per acre gave 100 per cent, mortality for 77 and 89 days, respectively, in the two years. Tests of soils into which measured quantities of insecticide had been incorporated, resulted in 100 per cent, mortality, after 4 days' exposure, with aldrin and dieldrin at levels of 2–4 and 16–32 p.p.m., respectively; endrin at 64 p.p.m. was only slightly toxic.

In field trials in 1959–60, application of aldrin at 10 lb. per acre to the surface of the soil around the plants in sprays in late April immediately before flowering, or at 5 lb. per acre in late May before laying straw below the fruit, reduced fruit damage due to H. rufipes or F. melanaria by 66–94 per cent. Residues at harvest were of the order of 0·03 p.p.m., and no effect on flavour was detected in processed fruit from plots treated at either time of application.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1963

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Briggs, J.B. (1957). Some experiments on control of ground beetle damage to strawberry.—Rep. E. Mailing Res. Sta. 1956 pp. 142145.Google Scholar
Briggs, J.B. (1961). A comparison of pitfall trapping and soil sampling in assessing populations of two species of ground beetles (Col.: Carabidae).—Rep. E. Mailing Res. Sta. 1960 pp. 108112.Google Scholar
Lichtenstein, E.P. (1960). Insecticidal residues in various crops grown in soils treated with abnormal rates of aldrin and heptachlor..—. agric. Fd Chem. 8 pp. 448451.CrossRefGoogle Scholar
Tew, R.P. & Sillibourne, J.M. (1961 a). Pesticide residues on fruit. I. Microbioassay of pesticide residues using the vinegar fly, Drosophila mclanogaster.—J. Sci. Fd Agric. 12 pp. 618623.CrossRefGoogle Scholar
Tew, R.P. & Sillibourne, J.M. (1961 b). Pesticide residues on fruit. II.Determination of aldrin, dieldrin and endrin residues by the organic chlorine and phenyl azide methods and by microbioassay.—J. Sci. Fd Agric. 12 pp. 623628.CrossRefGoogle Scholar
Tew, R.P. & Sillibourne, J.M. (1961 c). Pesticide residues on fruit. III.Aldrin and dieldrin residues on strawberries with some reference to insecticide persistence in the soil.—J. Sci. Fd Agric. 12 pp. 628634.CrossRefGoogle Scholar
Wright, D.W. (1959). Build-up dangers with latest carrot fly control measures.—Comm. Gr. no. 3290 p. 161.Google Scholar