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SUSCEPTIBILITIES OF SPECIES AND CULTIVARS OF CANOLA AND MUSTARD TO INFESTATION BY ROOT MAGGOTS (DELIA SPP.) (DIPTERA: ANTHOMYIIDAE)

Published online by Cambridge University Press:  31 May 2012

L.M. Dosdall
Affiliation:
Alberta Environmental Centre, PO Box 4000, Vegreville, Alberta, Canada T9C 1T4
M.J. Herbut
Affiliation:
Alberta Environmental Centre, PO Box 4000, Vegreville, Alberta, Canada T9C 1T4
N.T. Cowle
Affiliation:
Alberta Environmental Centre, PO Box 4000, Vegreville, Alberta, Canada T9C 1T4

Abstract

Four species of Cruciferae [canola species Brassica rapa L. and Brassica napus L., and mustard species Brassica juncea (L.) and Sinapis alba L.], and various cultivars of each species, were evaluated for susceptibilities to infestation by Delia spp. (Diptera: Anthomyiidae) under field conditions in central Alberta, Canada. Susceptibility was measured throughout the season by recording numbers of eggs of Delia spp. laid on or near individual plants, and at the end of the season by a semi-quantitative determination of injury inflicted by larvae on taproots. Differences in susceptibility occurred among and within canola and mustard species. Plants of B. rapa were most susceptible to Delia spp.; both mean eggs per plant and mean damage ratings per plant on B. rapa significantly exceeded those of all other species studied. Intermediate susceptibility was observed for plants of B. napus and B. juncea; plants of S. alba were least susceptible. In general, differences in susceptibility were greater among species than among cultivars within species. Root damage generally correlated with oviposition among and within species, suggesting that the mechanism of resistance by cruciferous species to infestation by Delia spp. is antixenosis or nonpreference. Results of this study indicate that canola growers in regions infested annually by high population densities of Delia spp. should seed B. napus or B. juncea rather than B. rapa. However, if a short growing season necessitates seeding B. rapa, then growers should select the more resistant cultivars of this species.

Résumé

La sensibilité aux infestations de Delia spp. (Diptera : Anthomyiidae) dans des conditions naturelles a été évaluée chez quatre espèces de crucifères [deux canolas, Brassica rapa L. et Brassica napus L., et deux moutardes, Brassica juncea (L.) et Sinapis alba L.] et chez divers cultivars de chaque espèces dans le centre de l’Alberta, Canada. La sensibilité a été mesurée durant toute la saison par dénombrement des oeufs pondus par Delia spp. sur des plants particuliers ou près de ces plants, et à la fin de la saison par détermination semi-quantitative des blessures infligées par les larves aux racines. La sensibilité variait d’une espèce à l’autre de canola ou de moutarde. Les plants de B. rapa étaient les plus sensibles aux infestations de Delia spp.; le nombre moyen d’oeufs par plant et la valeur moyenne des dommages infligés aux plants de B. rapa excédaient signif icativement ceux de toutes les autres espèces étudiées. La sensibilité dans plants de B. napus et de B. juncea était intermédiaire et ce sont les plants de S. alba qui se sont avérés le moins sensibles. En général, les différences dans la sensibilité aux infestations étaient plus grandes entre les espèces qu’entre les cultivars d’une même espèce. Les dommages aux racines étaient généralement en corrélation avec la ponte chez les différentes espèces, ce qui semble indiquer que le mécanisme de résistance des crucifères aux infestations de Delia spp. en est un d’antixénose ou de non préférence. Les résultats de l’étude indiquent que les cultivateurs de canola dans les régions infestées chaque année par de fortes populations de Delia spp. devraient semer B. napus ou B. juncea plutôt que B. rapa. Cependant, si la courte durée de la saison de croissance nécessite l’utilisation deB. rapa, les cultivateurs devraient alors choisir les cultivars les plus résistants de l’espèce.

[Traduit par la Rédaction]

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1994

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References

Brooks, A.R. 1951. Identification of the root maggots (Diptera: Anthomyiidae) attacking cruciferous garden crops in Canada, with notes on biology and control. The Canadian Entomologist 5: 109120.CrossRefGoogle Scholar
Coaker, T.H. 1969. New approaches to cabbage root fly control. Proceedings of the Fifth British Insecticide and Fungicide Conference 3: 704710.Google Scholar
Doane, J.F., and Chapman, R.K.. 1962. Oviposition preference of the cabbage maggot, Hylemya brassicae (Bouché). Journal of Economic Entomology 55: 137138.Google Scholar
Ellis, P.R., and Hardman, J.A.. 1975. Laboratory methods for studying non-preference resistance to cabbage root fly in cruciferous crops. Annals of Applied Biology 79: 253264.CrossRefGoogle Scholar
Ellis, P.R., Hardman, J.A., Crisp, P., and Johnson, A.G.. 1976. Laboratory studies of non-preference resistance to cabbage root fly in radish. Annals of Applied Biology 84: 8189.Google Scholar
Finch, S. 1971. The fecundity of the cabbage root fly Erioischia brassicae under field conditions. Entomologia Experimentalis et Applicata 14: 147160.Google Scholar
Griffiths, G.C.D. 1986 a. Phenology and dispersion of Delia radicum (L.) (Diptera: Anthomyiidae) in canola fields at Morinville, Alberta. Quaestiones Entomologicae 22: 2950.Google Scholar
Griffiths, G.C.D. 1986 b. Relative abundance of the root maggots Delia radicum (L.) and D. floralis (Fallén) (Diptera: Anthomyiidae) as pests of canola in Alberta. Quaestiones Entomologicae 22: 253260.Google Scholar
Griffiths, G.C.D. 1991 a. Economic assessment of cabbage maggot damage in canola in Alberta. Proceedings of the GCIRC Eighth International Rapeseed Congress (Saskatoon, July 9–11, 1991) 2: 528535.Google Scholar
Griffiths, G.C.D. 1991 b. Anthomyiidae. Flies of the Nearctic Region 8(2), no. 7: 9531048.Google Scholar
Griffiths, G.C.D. 1992. Intervarietal Comparison of Chemical Seed Treatments for Root Maggot Control. Alberta Canola Producers Commission Technical Report 9241: 8 pp.Google Scholar
Harper, F.R., and Berkenkamp, B.. 1975. Revised growth-stage key for Brassica campestris and B. napus. Canadian Journal of Plant Science 55: 657658.Google Scholar
Harris, C.R., and Svec, H.J.. 1966. Mass rearing of the cabbage maggot under controlled environmental conditions, with observations on the biology of cyclodiene-susceptible and resistant strains. Journal of Economic Entomology 59: 569573.CrossRefGoogle Scholar
Hughes, R.D., and Salter, D.D.. 1959. Natural mortality of Erioischia brassicae (Bouché) (Diptera, Anthomyiidae) during the immature stages of the first generation. Journal of Animal Ecology 28: 231241.CrossRefGoogle Scholar
Kogan, M., and Ortman, E.F.. 1978. Antixenosis — a new term proposed to define Painter's ‘non-preference’ modality of resistance. Bulletin of the Entomological Society of America 24: 175176.CrossRefGoogle Scholar
Lin, L.I.-K. 1989. A concordance correlation coefficient to evaluate reproducibility. Biometrics 45: 255268.Google Scholar
Lin, L.I.-K. 1992. Assay validation using the concordance correlation coefficient. Biometrics 48: 599604.CrossRefGoogle Scholar
Liu, H.J., and Butts, R.A.. 1982. Delia spp. (Diptera: Anthomyiidae) infesting canola in Alberta. The Canadian Entomologist 114: 651653.CrossRefGoogle Scholar
Matthewman, W.G., and Lyall, L.H.. 1966. Resistance in cabbage to the cabbage maggot, Hylemya brassicae (Bouché). The Canadian Entomologist 98: 5969.Google Scholar
McDonald, R.S. 1985. Impact of the Cabbage Maggot, Delia radicum (L.) (Diptera: Anthomyiidae), on Canola, Brassica campestris L., in North Central Alberta. M.Sc. thesis, University of Guelph, Guelph, Ont.98 pp.Google Scholar
Nair, K.S.S., and McEwen, F.L.. 1976. Host selection by the adult cabbage maggot, Hylemya brassicae (Diptera: Anthomyiidae): Effect of glucosinolates and common nutrients on oviposition. The Canadian Entomologist 108: 10211030.Google Scholar
Painter, R.H. 1951. Insect Resistance in Crop Plants. University of Kansas, Lawrence, KS. 521 pp.Google Scholar
Radcliffe, E.B., and Chapman, R.K.. 1966. Plant resistance to insect attack in commercial cabbage varieties. Journal of Economic Entomology 59: 116120.Google Scholar
Sang, J.P., Minchinton, I.R., Johnstone, P.K., and Truscott, R.J.W.. 1984. Glucosinolate profiles in the seed, root and leaf tissue of cabbage, mustard, rapeseed, radish and swede. Canadian Journal of Plant Science 64: 7793.CrossRefGoogle Scholar
SAS Institute Inc. 1985. SAS User's Guide, Version 5 Edition. SAS Institute Inc., Cary, NC. 956 pp.Google Scholar
Schnitzler, W.H. 1969. Über den Einfluss des Bodens, der Düngung, der Bewässerung, des Aussaattermins und der Sorten auf den Befall von Rettich und Radieschen durch die kleine Kohlfliege, Phorbia brassicae Bouché (Diptera: Anthomyiidae). Zeitschrift für Angewandte Entomologie 64: 353377.Google Scholar
Sømme, L., and Rygg, T.. 1972. The effect of physical and chemical stimuli on oviposition in Hylemya floralis (Fallén) (Dipt., Anthomyiidae). Norsk Entomologisk Tidsskrift 19: 1924.Google Scholar
Swailes, C.E. 1959. Resistance in rutabagas to the cabbage maggot, Hylemya brassicae (Bouché) (Diptera: Anthomyiidae). The Canadian Entomologist 91: 700703.CrossRefGoogle Scholar
Swailes, C.E. 1960. Laboratory evaluation of resistance in rutabaga varieties to the cabbage maggot, Hylemya brassicae (Bouché) (Diptera: Anthomyiidae). The Canadian Entomologist 92: 958960.Google Scholar
Traynier, R.M.M. 1967. Stimulation of oviposition by the cabbage root fly Erioischia brassicae. Entomologia Experimentalis et Applicata 10: 401412.CrossRefGoogle Scholar
Turnock, W.J., Timlick, B., Galka, B.E., and Palaniswamy, P.. 1992. Root maggot damage to canola and the distribution of Delia spp. (Diptera: Anthomyiidae) in Manitoba. The Canadian Entomologist 124: 4958.Google Scholar
Zar, J.H. 1984. Biostatistical Analysis, 2nd ed. Prentice-Hall Inc., Englewood Cliffs, NJ. 718 pp.Google Scholar