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THE CONSUMPTION OF EUPHORBIA CYPARISSIAS (EUPHORBIACEAE) BY LARVAE OF CELERIO EUPHORBIAE (LEPIDOPTERA: SPHINGIDAE)

Published online by Cambridge University Press:  31 May 2012

T. R. New
Affiliation:
Research Institute, Canada Department of Agriculture, Belleville, Ontario

Abstract

Laboratory feeding experiments on Celerio euphorbiae (L.) showed that each larva consumed about 2.7 g dry weight of Euphorbia cyparissias L. Laboratory-reared and field-collected larvae produced pupae of similar weights and the close similarity between the fresh and dry weights of control-fed larvae and larvae allowed to feed freely indicates that laboratory results are readily extrapolated to field conditions. On one infested site, at Braeside, Ont., the amount of spurge foliage was measured and the density of larvae needed to graze it fully was estimated at 14/m2 completing development. Preliminary data on an energy budget of the larva are discussed in relation to possible damage to the plant.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1971

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References

Andrzejewska, L., Breymeyer, A., Kajak, A., and Wojcik, Z.. 1967. Experimental studies on trophic relationships of terrestrial invertebrates, pp. 477–495. In Petrusewicz, K. (ed.), Secondary productivity of terrestrial ecosystems. Polish Acad. Sci., Warsaw, 879 pp.Google Scholar
Carne, P. B. 1966. Growth and food consumption during the larval stages of Paropsis atomaria (Coleoptera : Chrysomelidae). Entomologia exp. appl. 9: 105112.Google Scholar
Chlodny, J. 1967 a. The energetics of the development of cabbage white Pieris brassicae L. (Lepidoptera). Ekol. pol. (A) 15: 553561.Google Scholar
Chlodny, J. 1967 b. The amount of food consumed and production output of larvae of the Colorado beetle (Leptinotarsa decemlineata Say). Ekol. pol. (A) 15: 531541.Google Scholar
Crossley, D. A. Jr., 1966. Radioisotope measurement of food consumption by a leaf beetle species, Chrysomela knabi Brown. Ecology 47: 18.CrossRefGoogle Scholar
David, W. A. L., and Gardiner, B. O. C.. 1962. Observations on the larvae and pupae of Pieris brassicae (L.) in a laboratory culture. Bull. ent. Res. 53: 417436.Google Scholar
Evans, A. C. 1939. The utilization of food by certain lepidopterous larvae. Trans. R. ent. Soc. Lond. 89: 1322.Google Scholar
Golley, F. B. 1961. Energy values of ecological materials. Ecology 42: 581584.Google Scholar
Harris, P., and Alex, J.. Biological control of Euphorbia esula and E. cyparissias(Euphorbiaceae) in Canada. Tech. Commun., Commonw. Inst. biol. Control. In press.Google Scholar
*Hiratsuka, E. 1920. Researches on the nutrition of the silk worm. Bull. seric. Exp. Stn Japan. 1: 257315 (not seen, discussed by Waldbauer, 1968).Google Scholar
House, H. L. 1965. Effects of low levels of the nutrient content of a food and of nutrient imbalance on the feeding and the nutrition of a phytophagous larva, Celerio euphorbiae (Linnaeus) (Lepidoptera : Sphingidae). Can. Ent. 97: 6268.CrossRefGoogle Scholar
Kogan, M., and Goeden, R. D.. 1970. The biology of Lema trilineata daturaphila, (Coleoptera : Chrysomelidae) with notes on efficiency of food utilization by larvae. Ann. ent. Soc. Am. 63: 537546.CrossRefGoogle Scholar
Lindsay, D. R. 1951. Biology of leafy and cypress spurge with notes on their distribution in Eastern Canada. Proc. natn. Weed Comm., Eastern Sect., 4th Meeting, Ottawa (1950). pp.6872.Google Scholar
Moore, R. J., and Lindsay, D. R.. 1953. Fertility and polyploidy of Euphorbia cyparissias in Canada. Can. J. Bot. 31: 152163.Google Scholar
Moscardini, C. 1947. Osservazioni morfologico-biologiche su Deilephila euphorbiae L. Atti Soc. Nat. Mat. 73: 210213. (In Italian.)Google Scholar
Rafes, P. M. 1967. Some biological premises for estimation of the productivity of herbivores in forest biogeocenoses (ecosystems), pp. 589–610. In Petrusewicz, K. (ed.), Secondary productivity of terrestrial ecosystems. Polish Acad. Sci., Warsaw, 879 pp.Google Scholar
Reichle, D. E., and Crossley, D. A. Jr. 1967. Investigation on heterotrophic productivity in forest insect communities, pp. 563–587. In Petrusewicz, K. (ed.), Secondary productivity of terrestrial ecosystems. Polish Acad. Sci., Warsaw, 879 pp.Google Scholar
SooHoo, C. F., and Fraenkel, G.. 1966. The consumption, digestion and utilization of food plants by a phytophagous insect, Prodenia eridania (Cramer). J. Insect Physiol. 12: 711730.Google Scholar
Varley, G. C. 1967. The effects of grazing by animals on plant productivity, pp. 773–778. In Petrusewicz, K. (ed.), Secondary productivity of terrestrial ecosystems. Polish Acad. Sci., Warsaw, 879 pp.Google Scholar
Varley, G. C., and Gradwell, G. R.. 1962. The effect of partial defoliation by caterpillars on the timber production of oak trees in England. Proc. 11th int. Congr. Ent., Wien (1960) 2: 211214.Google Scholar
Waldbauer, G. P. 1964 a. The consumption, digestion and utilization of solanaceous and non-solanaceous plants by larvae of the tobacco hornworm, Protoparce sexta(Johan,) (Lepidoptera : Sphingidae). Entomologia exp. appl. 7: 253269.Google Scholar
Waldbauer, G. P. 1964 b. Quantitative relationships between the numbers of fecal pellets, fecal weights and the weight of food eaten by tobacco hornworms, Protoparce sexta (Johan.) (Lepidoptera : Sphingidae). Entomologia exp. appl. 7: 310314.CrossRefGoogle Scholar
Waldbauer, G. P. 1968. The consumption and utilization of food by insects, pp. 229–288. In Beament, J. W. L., Treherne, J. E., and Wigglesworth, V. B. (eds.), Advances in insect physiology 5. Academic Press, New York. 361 pp.Google Scholar
Wiegert, R. G., and Evans, F. C.. 1967. Investigations of secondary productivity in grasslands, pp. 499–518. In Petrusewicz, K. (ed. ), Secondary productivity of terrestrial ecosystems. Polish Acad. Sci., Warsaw, 879 pp.Google Scholar