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Quantifying the impact of insect predators and parasitoids on populations of the apple ermine moth, Yponomeuta malinellus (Lepidoptera: Yponomeutidae), in Europe

Published online by Cambridge University Press:  10 July 2009

U. Kuhlmann ,
K.P. Carl  and
N.J. Mills
U. Kuhlmann*
Affiliation:
International Institute of Biological Control, European Station, 1, chemin des Grillons, CH-2800 Delémont, Switzerland:
K.P. Carl
Affiliation:
International Institute of Biological Control, European Station, 1, chemin des Grillons, CH-2800 Delémont, Switzerland:
N.J. Mills
Affiliation:
Center of Biological Control, University of California at Berkeley, USA
*
* Fax: 41 32 422 4824 E-mail: u.kuhlmann@cabi.org
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Abstract

Life tables were developed to assess the significance of natural enemies on the dynamics of apple ermine moth, Yponomeuta malinellus Zeller, in southwestern Germany and to select parasitoid species for use in the biological control of this pest in Canada. During the study from 1993 to 1995 the abundance of Y. malinellus varied from 1.5 to 4.3 tents per 100 leaf clusters indicating that this was a non-outbreak population. From the life tables it was evident that the impact of egg predators accounted for 25–43% of the total generational mortality of Y. malinellus, more than any other known mortality factor. Percent parasitism varied from 18 to 30%, but the impact of parasitoids in relation to the total generational mortality of Y. malinellus from the life tables was remarkably constant at 11–14%. The loss of potential fecundity had an important influence on the generational mortality of Y. malinellus, but declined from 27% to 15% over the course of this study. This decline corresponded with a rise in the net rate of increase R0 from 1.35 in 1993 to 6.8 in 1995, despite the impact of insect predators and parasitoids on the generational mortality. Yponomeuta malinellus was attacked by five different obligate primary parasitoids, a single obligate hyperparasitoid, and three facultative hyperparasitoids. Of these, the oligophagous egg-larval parasitoid Ageniaspis fuscicollis Dalman (Encyrtidae) and the oligophagous larval-pupal and pupal parasitoid Herpestomus brunnicornis Gravenhorst (Ichneumonidae) were selected as potential biological control agents for Canada due to a minimal degree of interspecific competition.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 88 , Issue 2 , April 1998 , pp. 165 - 175
Copyright
Copyright © Cambridge University Press 1998

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References

Aleksidze, G.N. & Bezhanishvili, T.D. (1974) Parasites of leaf-eating insects. Zashchita Rastenii 10, 2425 (in Russian, English abstract).Google Scholar
Baggiolini, M., Keller, E., Milaire, H.G. & Steiner, H. (1980) Visuelle Kontrollen im Apfelanbau. 3. Aufl. 104 pp. France, Generalsekretariat IOBC/wprs.Google Scholar
Balachowsky, A.S. (1966) Entomologie appliquée à l'agriculture, Tome II. Lépidoptères Vol. 1, 145 pp. France, Masson & Cie.Google Scholar
Banerjee, B. (1979) A key-factor analysis of population fluctuations in Andraca bipunctata Walker (Lepidoptera: Bombycidae). Bulletin of Entomological Research 69, 195201.CrossRefGoogle Scholar
Bellows, T.S., van Driesche, R.G. & Elkinton, J.S. (1992) Life-table construction and analysis in the evaluation of natural enemies. Annual Review of Entomology 37, 587614.CrossRefGoogle Scholar
Bilanovskii, I.D. (1938) Zoological factors that limited the increase of the apple ermine moth in the province of Kiew in the years 1934–1936. Traveaux Museum de Zoologie Academique et Scientifique d'Ukraine 21/22, 153166 (in Ukrainian, German abstract).Google Scholar
Courtney, S.P. & Duggan, A.E. (1983) The population dynamics of the orange tip butterfly, Anthocharis cardamines, in Britain. Ecological Entomology 8, 271281.CrossRefGoogle Scholar
Dijkerman, H.J., de Groot, J.M.B. & Herrebout, W.M. (1986) The parasitoids of the genus Yponomeuta Latreille (Lepidoptera, Yponomeutidae) in the Netherlands. Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen Series C 89, 379398.Google Scholar
Ehler, L.E. (1992) Guild analysis in biological control. Environmental Entomology 21, 2640.CrossRefGoogle Scholar
Eremenko, T.S. (1974) Ageniaspis - a parasite of the apple moth. Zashchita Rastenii 11, 25 (in Russian, English abstract).Google Scholar
Faes, H. (1928) La lutte contre les chenilles fileuses ou chenilles d'Hyponomeutes. Annales Agriculture de Suisse 29, 520533.Google Scholar
Galli, P. & Höhn, H. (1992) Visuelle Kontrollen im Apfelanbau. 4. Aufl. 104 pp. France, Generalsekretariat IOBC/wprs.Google Scholar
Graham, M.W.R. (1991) A reclassification of the European Tetrastichinae (Hymenoptera: Eulophidae): revision of remaining genera. Memoirs of the American Entomological Institute 49, 136.Google Scholar
Hawkins, B.A. & Mills, N.J. (1996) Variability in parasitoid community structure. Journal of Animal Ecology 65, 501516.CrossRefGoogle Scholar
Herting, B. & Simmonds, F.J. (1982) A catalogue of parasites and predators of terrestrial arthropods, Section B, enemy/host or prey, Volume II Hymenoptera Terebrantia, 223 pp. Farnham Royal, UK, Commonwealth Agriculture Bureaux.Google Scholar
Iren, Z. (1952) The native parasites of small ermine moth Hyponomeuta padella and codling moth Carpocapsa pomonella larvae in Ankara (Turkey). Bitki Koruma 4, 1618.Google Scholar
Janecke, O. (1933) Gespinstmotten als Grosschädlinge an Obstbäumen. Arbeiten der biologischen Reichanstalt für Land-und Forstwissenschaften 20, 431441.Google Scholar
Junnikkala, E. (1960) Life history and insect enemies of Hyponomeuta malinellus Zell. (Lep., Hyponomeutidae) in Finland. Annales Zoologici Societatis Zoologicae Botanicae Fennicae “Vanamo” 21, 344.Google Scholar
Kuhlmann, U. (1995) Measuring and understanding the impact of insect predators and parasitoids on populations of the Apple Ermine Moth, Yponomeuta malinellus, (Lepidoptera: Yponomeutidae). PhD thesis University of Kiel, Germany, 101 pp.Google Scholar
Kuhlmann, U. (1996) Biology and ecology of Herpestomus brunnicornis (Hymenoptera: Ichneumonidae), a potential biological control agent of the apple ermine moth (Lepidoptera: Yponomeutidae). International Journal of Pest Management 42, 131138.CrossRefGoogle Scholar
Leather, S.R. & MacKenzie, G.A. (1994) Factors affecting the population development of the bird cherry ermine moth, Yponomeuta evonymellus (L.). The Entomologist 113, 86105.Google Scholar
Mills, N.J. (1992) Parasitoid guilds, life-styles, and host ranges in the parasitoid complexes of tortricid hosts (Lepidoptera: Tortricoidea). Environmental Entomology 21, 230239.CrossRefGoogle Scholar
Mills, N.J. (1994a) Parasitoid guilds: defining the structure of the parasitoid communities of endopterygote insect hosts. Environmental Entomology 23, 10661083.CrossRefGoogle Scholar
Mills, N.J. (1994b) The structure and complexity of parasitoid communities in relation to biological control. pp. 397417in Hawkins, B.A. & Sheehan, W. (Eds) Parasitoid community ecology. Oxford, Oxford University Press.CrossRefGoogle Scholar
Minkiewicz, S. (1943) Die Apfelgespinstmotte - Hyponomeuta padells L. ssp. biol. malinellus Zeller. Berichte der landwirtschaftlichen Forschungsanstalt General Gouvernement Pulawy 1, 104128.Google Scholar
Mowat, D.J. & Clawson, S. (1995) Natural control of the small ermine moth Yponomeuta padella. Agriculture, Ecosystems and Environment 52, 93102.CrossRefGoogle Scholar
Pag, H. (1959) Hyponomeuta-Arten als Schädlinge im Obstbau. Ein Beitrag zur Biology, Ökologie und Bekümpfung, unter besonderer Berücksichtigung des Arten-Rassenproblems. Zeitschrift für angewandte Zoologie 46, 129189.Google Scholar
Parker, D.J. & Schmidt, A.C. (1985) Apple ermine moth, Yponomeuta malinellus. 8 pp. Report of Agriculture Canada Plant Health Division, Ottawa, Ontario.Google Scholar
Parrot, P.J. & Schoene, W.J. (1912) The apple and cherry tree ermine moth. New York Agricultural Experiment Station (Geneva, N.Y.) Technical Bulletin 24, 139.Google Scholar
Prezler, R.W. & Price, P.W. (1988) Host quality and sawfly populations: a new approach to life table analysis. Ecology 69, 20122020.CrossRefGoogle Scholar
Price, P.W., Cobb, N., Craig, T.P., Fernandes, G.W. & Itami, J.K. (1990) Insect herbivore populations dynamics on trees and shrubs: new approaches relevant to latent and eruptive species and life table development. pp. 138in Bernays, E.A. (Ed.) Insect-plant interactions. Boca Raton, Florida, CRC Press.Google Scholar
Pyörnilä, M. & Pyörnilä, A. (1979) Role of parasitoids in termination of a mass occurrence of Yponomeuta evonymellus (Lepidoptera: Yponomeutidae) in northern Finland. Notulae Entomologicae 59, 133137.Google Scholar
Ruzaev, K.S. (1929) Notes on the biology of Hyponomeuta malinella Zeller. Plant Protection Leningrad 6, 213219 (in Russian, English abstract).Google Scholar
Southwood, T.R.E. (1978) Ecological methods with particular reference to the study of insect populations. 2nd edn, 524 pp. London, Chapman & Hall.Google Scholar
Thorpe, W.H. (1929) Biological races in Hyponomeuta padella L. Journal of the Linnean Society (Zoology) 37, 489492.Google Scholar
Thorpe, W.H. (1930) The natural control of Hponomeuta padellus, L. Proceedings of the Entomological Society of London 5, 2830.Google Scholar
Tkachev, V.M. (1986) Protection of apple. Zashchita Rastenii 5, 2425 (in Russian, English abstract).Google Scholar
Unruh, T.R., Congdon, B.D. & LaGasa, E. (1993) Yponomeuta malinellus Zeller (Lepidoptera: Yponomeutidae), a new immigrant pest of apples in the Northwest: phenology and distribution expansion, with notes on efficacy of natural enemies. Pan-Pacific Entomologist 69, 5770.Google Scholar
Vaclav, V. (1958) The importance of parasites of the apple and plum moths in reducing populations of these important pests in Bosnia and Herzegovina. Plant Protection Beograd 49–50, 113119.Google Scholar
Voukassovitch, P. (1933) Contribution a l'etude des parasites et hyperparasites d'Hyponomeuta malinellus Zell. Revue de Zoologie Agricole et Appliquée 31, 108183.Google Scholar
Waage, J.K. & Mills, N.J. (1992) Biological control. pp. 412430in Crawley, M.J. (Ed.) Natural enemies. Oxford, Blackwell Scientific Publications.CrossRefGoogle Scholar
Zwölfer, H. (1963) Untersuchungen über die Struktur von Parasiten-Komplexen bei einigen Lepidopteren. Zeitschrift für Angewandte Entomologie 51, 346357.CrossRefGoogle Scholar