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Impact of the soil insects African black beetle, Heteronychus arator (Coleoptera: Scarabaeidae) and Whitefringed weevil, Graphognathus leucoloma (Coleoptera: Curculionidae), on potatoes and effects of soil insecticide treatments in south-western Australia

Published online by Cambridge University Press:  10 July 2009

J.N. Matthiessen*
Affiliation:
CSIRO Division of Entomology, Perth, Australia
S.E. Learmonth
Affiliation:
Horticultural Research Centre, Western Australian Department of Agriculture, Manjimup, Australia
*
J.N. Matthiessen, CSIRO Division of Entomology, Private Bag, PO, Wembley, W.A. 6014, Australia.

Abstract

Populations of the soil insects African black beetle, Heteronychus arator (Fabricius), and whitefringed weevil, Graphognathus leucoloma (Boheman), and the damage caused to potato crops in south-western Australia were measured with and without the insecticide chlorpyrifos incorporated into the soil prior to planting. Low populations of both insects were highly damaging. Destruction of stems by H. arator reduced tuber yield and both species damaged tubers from the time of their formation. Tuber damage increased with time because both insect species on average damaged multiple tubers and caused multiple attacks on tubers. Growth of G. leucoloma larvae caused increased abundance of the more damaging later instars in spring. The insecticide reduced resident H. arator abundance and hence damage to newly-emerging potato stems in summer, but had less effect on reducing attacks on tubers in summer crops because adult beetles flew into some crops during growth. Exceptionally high tuber damage per H. arator adult in winter crops was ascribed to enhanced activity during its spring breeding season. The insecticide was inconsistent in reducing the abundance of G. leucoloma larvae. Insecticidal effects were greatest near the soil surface, resulting in an increase in the relative proportion of both insects deeper in the soil. Since a greater proportion of the tubers occurred there, the resulting greater potential for the insects to cause tuber damage tended to outweigh reduction in their abundance.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1995

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References

Crisp, J., Sproul, A.N., Sivyer, M.W., Webb, M., Price, A.D. & Learmonth, S.E. (1992) Chemical control of the white-fringed weevil Graphognathus leucoloma (Boh.) in potato crops (1978/79–1987/88). Miscellaneous Publication, Western Australian Department of Agriculture, Perth 40/92, 73 pp.Google Scholar
De Jager, J., Lategan, K. & Van der Westhuizen, M.C. (1989) Some aspects of the biology of the white-fringed beetle Graphognathus leucoloma (Coleoptera: Curculionidae), in the lower Orange River irrigation area of South Africa. Phytophylactica 21, 259263.Google Scholar
Drinkwater, T.W. (1982) The control of the black maize beetle, Heteronychus arator (Col.: Scarabaeidae), in maize in South Africa. Phytophylactica 14, 165167.Google Scholar
East, R. (1977) Effects of pasture and forage crop species on longevity, fecundity, and oviposition rate of adult whitefringed weevils Graphognathus leucoloma (Boheman). New Zealand Journal of Experimental Agriculture 5, 177181.Google Scholar
Gough, N. & Brown, J.D. (1991) Development of larvae of the whitefringed weevil, Graphognathus leucoloma (Coleoptera: Curculionidae), in northern Queensland. Bulletin of Entomological Research 81, 385393.CrossRefGoogle Scholar
King, P.D., Mercer, C.F. & Meekings, J.S. (1981) Ecology of black beetle, Heteronychus arator (Coleoptera: Scarabaeidae)–population studies. New Zealand Journal of Agricultural Research 24, 8797.CrossRefGoogle Scholar
Learmonth, S.E. (1993) Control of whitefringed weevil in potatoes, pp. 6366in Fennell, J, Lawrence, R. & Luttrell, D. (Eds) Proceedings of the 7th National Potato Research Workshop. Devonport, Tasmania.Google Scholar
Learmonth, S.E. & Sproul, A.N. (1988) Pasture rotation-the main source of insect pest problems in Western Australian potato crops, pp. 163168in Stahle, P.P. (Ed.) Proceedings of the 5th Australasian Conference on Grassland Invertebrate Ecology, Melbourne.Google Scholar
Matthiessen, J.N. (1991) Population phenology of whitefringed weevil, Graphognathus leucoloma (Boheman) (Coleoptera: Curculionidae) in pasture in a Mediterranean-climate region of Australia. Bulletin of Entomological Research 81, 283289.CrossRefGoogle Scholar
Matthiessen, J.N. (1993) African black beetle population regulation in a Mediterranean-climate region of Australia-an enigma, pp. 6066 in Prestidge, R.A. (Ed.) Proceedings of the 6th Australasian Conference on Grassland Invertebrate Ecology. Hamilton.Google Scholar
Matthiessen, J.N. & Learmonth, S.E. (1992) Enhanced survival and reproduction of whitefringed weevil, Graphognathus leucoloma (Coleoptera: Curculionidae) with irrigation of pasture in a dry summer environment. Journal of Economic Entomology 85, 22282233.CrossRefGoogle Scholar
Matthiessen, J.N. & Learmonth, S.E. (1993) Spatial sampling of insects, plant parts and insect attacks in the soil of potato crops. Bulletin of Entomological Research 83, 607612.CrossRefGoogle Scholar
Matthiessen, J.N. & Learmonth, S.E. (1994a) Biology and management of soil insect pests of potato in Australia and New Zealand, pp. 1730in Zehnder, G.W., Powelson, M.L., Jansson, R.K. & Raman, K.V. (Eds) Advances in potato pest biology and management. St. Paul, Minnesota, APS Press.Google Scholar
Matthiessen, J.N. & Learmonth, S.E. (1994b) Management of soil insect pests in high-value crops–meeting conflicting demands. pp. 109110in Pankhurst, C.E., Doube, B.M., Gupta, V.V.S.R. & Grace, P.R. (Eds) Soil biota: management in sustainable farming systems. Adelaide, CSIRO, Australia.Google Scholar
Matthiessen, J.N. & Ridsdill-Smith, T.J. (1991) Populations of African black beetle, Heteronychus arator (F.) (Coleoptera: Scarabaeidae) in a Mediterranean-climate area of Australia. Bulletin of Entomological Research 81, 8591.Google Scholar
Venter, R.J.H. & Louw, M. (1978) Heteronychus arator (Fabricius), a potentially dangerous pest of potatoes (Coleoptera: Scarabaeidae). Phytophylactica 10, 99.Google Scholar
Watson, R.N. (1979) Use of a modified light trap to improve catches of black beetle, Heteronychus arator (Coleoptera: Scarabaeidae), and black field cricket, Teleogryllus commodus (Orthoptera: Gryllidae). New Zealand Entomologist 7, 9297.CrossRefGoogle Scholar
Young, H.C., App, B.A., Gill, J.B. & Hollingsworth, H.S. (1950). White-fringed beetles and how to combat them. US Department of Agriculture Circular No. 850, 15 pp.Google Scholar