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APICAL DOMINANCE ASSERTED OVER LATERAL BUDS BY THE GALL OF RHABDOPHAGA STROBILOIDES (DIPTERA: CECIDOMYIIDAE)

Published online by Cambridge University Press:  31 May 2012

Arthur E. Weis
Affiliation:
University of Michigan Biological Station, Pellston, Michigan 49769

Extract

Plant galls are growth deformities developed under the influence of parasitic insects. The process of differentiation of normal plant tissue into gall tissue has been examined by many authors (Kostoff and Kendall 1929; Rohfristch 1977; see also Mani 1964) but less effort has been made to study the effects of the gallmaker on plant tissues outside the vicinity of active gall formation. Negative effects on the overall growth of the host plant can be expected because the gall acts as an energy and nutrient sink (Palct 1972; Hartnett and Abrahamson 1979), which can cause abnormal patterns of resource allocation among plant organs.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1984

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References

Audus, L. J. 1972. Plant Growth Substances: Vol. 1, Chemistry and Physiology. Leonard Hill Books, London. 533 pp.Google Scholar
Bandurski, R. S. 1979. Homeostatic control of concentrations of indole-3-acetic acid. pp. 3749in Skoog, F. (Ed.), Plant Growth Substances 1979. Springer-Verlag, Berlin.Google Scholar
Beck, E. G. 1947. Some studies on the Solidago gall caused by Eurosta solidaginis Fitch. Ph.D. Thesis, University of Michigan, Ann Arbor.Google Scholar
Gould, S. J. and Vrba, G. S.. 1982. Exaptation—a missing term in the science of form. Paleobiology 8: 415.CrossRefGoogle Scholar
Hartnett, D. C. and Abrahamson, W. G.. 1979. The effects of stem gall insects on life history patterns in Solidago canadensis. Ecology 60: 910917.Google Scholar
Kostoff, D. and Kendall, J.. 1929. Studies on the structure and development of certain cynipid galls. Biol. Bull. 56: 402443.CrossRefGoogle Scholar
Mani, M. S. 1964. Ecology of Plant Galls. Junk, the Hague, Netherlands. 434 pp.CrossRefGoogle Scholar
Palct, J. V. 1972. Zur Allgemein-biologischen deutung der pflanzengalle. Beitr. Biol. Pflanz. 48: 6377.Google Scholar
Rohfritsch, O. 1977. Morphogenesis and plant galls. Ber. dtsch. bot. Ges. 90: 339350.CrossRefGoogle Scholar
Williams, G. C. 1966. Adaptation and Natural Selection. Princeton Univ. Press. 307 pp.Google Scholar
Wilson, L. F. 1968. Life history and habits of the pine cone willow gall midge, Rhabdophaga strobiloides (Diptera: Cecidomyiidae), in Michigan. Can. Ent. 100: 430433.Google Scholar