Growth and development of a generalist insect herbivore, Operophtera brumata, on original and alternative host plants |
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Authors: | O-P Tikkanen P Niemelä J Keränen |
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Institution: | (1) Department of Biology, University of Joensuu, P.O. Box 111, FIN-80101 Joensuu, Finland e-mail: Olli-Pekka.Tikkanen@joensuu.fi Fax: +358-13-2513590, FI;(2) Faculty of Forestry, University of Joensuu, PO Box 111, FIN-80101 Joensuu, Finland, FI |
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Abstract: | A generalist feeding strategy is common among eruptive insect herbivores but the ultimate reasons for a generalist strategy
are not clear. Although generalist insect herbivores are able to complete their life cycle on several species of host plants,
there is wide variation in the performance of individuals grown on different hosts. We examined whether different populations
of Operophtera brumata are adapted to use the host species which is locally most abundant, and how the host plant affects growth and development
of the insect. We reared two allopatric populations (eastern Finland, Prunus padus; south-west Finland, Quercus robur) on four species of host plants (Pr. padus, Populus tremula, Q. robur, Salix phylicifolia) from neonate larvae to the adult stage and measured the growth and development of individuals and the timing of adult hatching.
The performance of both populations was best on Pr. padus, and the south-western population, originally on Q. robur, was well adapted to this host. The host affected the growth of females more than that of males. The host plant had an unexpected
effect on hatching times of the adults. Individuals grown on the original host hatched in normal synchrony, i.e. males 6–7
days before females; but on alternative hosts this synchrony was disturbed. As is common in eruptive, capital-breeding generalist
moths where female fecundity is linked to weight, host quality is critical for the flightless females of O. brumata. We suggest that in a heterogeneous environment the disturbing effect of alternative host plants on adult emergence may decrease
the population density and growth rate compared to the potential maximum in a homogeneous environment.
Received: 8 July 1999 / Accepted: 29 October 1999 |
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Keywords: | Operophtera brumata Host adaptation Polyphagy Female fecundity |
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