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Population dynamics of the coconut caterpillar, Opisina arenosella Walker (Lepidoptera: Xyloryctidae), in Sri Lanka

Published online by Cambridge University Press:  10 July 2009

P. A. C. R. Perera
Affiliation:
Coconut Research Institute, Lunuwila, Sri Lanka
M. P. Hassell
Affiliation:
Department of Pure and Applied Biology, Imperial College at Silwood Park, Ascot, Berkshire, SL5 7PY, UK
H. C. J. Godfray*
Affiliation:
Department of Pure and Applied Biology, Imperial College at Silwood Park, Ascot, Berkshire, SL5 7PY, UK
*
* To whom correspondence should be addressed.

Abstract

Opisina arenosella Walker is a defoliating pest of coconut in Sri Lanka. A first attempt was made to understand its population dynamics. Analysis of records of population outbreaks throughout the country from 1965 to 1985 revealed cycles in the population of approximately one generation period, giving the population the appearance of partially discrete generations. There was also evidence for longer cycles of six-month period. Outbreaks occurred throughout the coconut-growing regions of Sri Lanka, and the numbers of outbreaks per year in different provinces were sometimes correlated, indicating a common, probably climatic, triggering mechanism. Parasitism remained high throughout the outbreaks and there was some evidence that pupal parasitism increased towards the end of an outbreak. A working hypothesis that explains the population dynamics of O. arenosella and the origin of outbreaks is presented.

Type
Original Article
Copyright
Copyright © Cambridge University Press 1988

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References

Alam, M. Z. (1962). A list of insects and mites of Eastern Pakistan.—107 pp. Dacca, East Pakistan, Dep. Agric.Google Scholar
Butani, D. K. (1975). Insect pests of fruit crops and their control—15: date palm.—Pesticides 9, 4042.Google Scholar
Cock, M. J. W. & Perera, P. A. C. R. (1987). Biological control of Opisina arenosella Walker (Lepidoptera, Oecophoridae).—Biocontrol News & Inf. 8, 283310.Google Scholar
Davis, T. A. & Sudasrip, H. (1982). Causes for the defoliation of coconuts in Indonesia.—Indonesian Agric. Res. Dev. J. 4, 829.Google Scholar
De Mel, C. N. E. J. (1927). Pests and diseases of coconuts in the North-Western Province.—Trop. Agriculturist Ceylon 68, 252256.Google Scholar
Dharmaraju, E. (1963). Biological control of coconut leaf caterpillar (Nephantis serinopa Meyrick) in Ceylon.—Bull. Cocon. Res. Inst. Ceylon no. 21, 46 pp.Google Scholar
Ghosh, C. C. (1924). Oryctes rhinoceros and other important palm pests in Burma.—pp. 99103in Report of the Proceedings of the 5th Entomology Meeting, Pusa, 02 1923.—Calcutta.Google Scholar
Godfray, H. C. J. & Hassell, M. P. (1987). Natural enemies may be a cause of discrete generations in tropical insects.—Nature, Lond. 327, 144147.Google Scholar
Green, E. E. (1898). A coconut palm caterpillar.—Trop. Agriculturist Ceylon 26, 298308.Google Scholar
Hutson, J. C. (1922). Some preliminary notes on the coconut caterpillar in Ceylon.—Bull. Dep. Agric. Ceylon no. 58, 12 pp.Google Scholar
Jayaratnam, T. J. (1941). A study of the control of the coconut caterpillar (Nephantis serinopa Meyr.) in Ceylon with special reference to its eulophid parasite, Trichospilus pupivora Ferr.—Trop. Agriculturist Ceylon 96, 321.Google Scholar
Kanagaratnam, P. (1976). Annual report of the Crop Protection Division for 1975.—Ceylon Coconut Q. 27, 3641.Google Scholar
Kanagaratnam, P. & Pinto, J. L. J. G. (1985). Effect of monocrotophos on the leaf eating caterpillar, Opisina arenosella Walk. when injected into the trunk of the coconut palm.—Cocos 3, 915.Google Scholar
Lever, R. J. A. W. (1969). Pests of the coconut palm.—190 pp. Rome, FAO (FAO Agric. Stud. no. 77).Google Scholar
Manjunath, T. M. (1985). Coconut black-headed caterpillar on banana and coconut.—Pl. Prot. Bull. F.A.O. 33, 7172.Google Scholar
May, R. M. & Hassell, M. P. (1988). Population dynamics and biological control.—in Way, M. J. & Wood, R. (Eds). Biological control of pests, pathogens and weeds: developments and prospects.—Phil. Trans. R. Soc. Lond. B 318, 129169.Google Scholar
Mohamed, U. V. K., Abdurahimen, U. C. & Remadevi, O. K. (1982). Coconut caterpillar and its natural enemies.—Kerala, India, Dep. Zool., Univ. Calicut (Zool. Monogr. no. 2).Google Scholar
Murdoch, W. W., Chesson, J. & Chesson, P. L. (1985). Biological control in theory and practice.—Am. Nat. 125, 343366.Google Scholar
Nadarajan, L. & Channabasavanna, G. P. (1981). Trunk injection of systemic insecticides against the coconut black headed caterpillar Nephantis serinopa Meyrick (Lepidoptera: Cryptophasidae).—Oléagineux 36, 239245.Google Scholar
Nirula, K. K. (1956). Investigations on the pests of coconut palm. Part III Nephantis serinopa Meyrick.—Indian Cocon. J. 9, 101131, 174–201.Google Scholar
Nisbet, R. M. & Gurney, W. S. C. (1982). Modelling fluctuating populations.—379 pp. Chichester, UK, Wiley.Google Scholar
Perera, P. A. C. R. (1987). Studies on Opisina arenosella Walker and its natural enemies in Sri Lanka.—Ph.D. thesis, Univ. London.Google Scholar
Philip, B. M., Mathai, S. & Jacob, A. (1982). A nuclear polyhedrosis of the black headed caterpillar, Nephantis serinopa Meyrick (Lepidoptera: Cryptophasidae).—Curr. Sci. 51, 611.Google Scholar
Ramachandran, C. P., Ponnamma, K. N., Koya, K. M. A. & Kurian, C. (1979). The coconut leaf-eating caterpillar, Nephantis serinopa Meyrick, a review.—Philipp. J. Cocon. Stud. 4, 917.Google Scholar
Rohitha, B. H. (1982). Report of the Crop Protection Division for 1981.—Ceylon Cocon. Q. 33, 5760.Google Scholar
Sundaramurthy, V. T. & Santhanakrishan, K. (1979). Morphogenetic effects of diflubenzuron, an inhibitor of chitin deposition, on the coconut black-headed caterpillar (Nephantis serinopa Myer.).—Pestic. Sci. 10, 147150.Google Scholar
Talati, G. M. & Kapadia, M. N. (1984). Influence of host plants on larval development, longevity and fecundity of Nephantis serinopa Meyrick (Lepidoptera: Cryptophasidae).—Gujarat Agric. Univ. Res. J. 9 (2), 5759.Google Scholar
Taylor, T. H. C. (1937). The biological control of an insect in Fiji.—239 pp. London, Imp. Inst. Ent.Google Scholar
Tothill, J. D., Taylor, T. H. C. & Paine, R. W. (1930). The coconut moth in Fiji.—269 pp. London, Imp. Bur. Ent.Google Scholar
Waage, J. K. & Greathead, D. J. (1988). Biological control: challenges and opportunities.—in Way, M. J. & Wood, R. (Eds). Biological control of pests, pathogens and weeds: developments and prospects.—Phil. Trans. R. Soc. Lond. B 318, 111128.Google Scholar