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Population dynamics of rice leaffolders (Lepidoptera: Pyralidae) and their natural enemies in irrigated rice in the Philippines

Published online by Cambridge University Press:  09 March 2007

J. de Kraker*
Affiliation:
Laboratory of Theoretical Production Ecology, Wageningen Agricultural University, PO Box 430, 6700 AK Wageningen, The Netherlands Laboratory of Entomology, Wageningen Agricultural University, Wageningen, The Netherlands
A. van Huis
Affiliation:
Laboratory of Entomology, Wageningen Agricultural University, Wageningen, The Netherlands
K.L. Heong
Affiliation:
International Rice Research Institute, Los Baños, Philippines
J.C. van Lenteren
Affiliation:
Laboratory of Entomology, Wageningen Agricultural University, Wageningen, The Netherlands
R. Rabbinge
Affiliation:
Laboratory of Theoretical Production Ecology, Wageningen Agricultural University, PO Box 430, 6700 AK Wageningen, The Netherlands
*
* Fax: +31 317 484892 E-mail: [email protected]

Abstract

Populations of rice leaffolders and their natural enemies were studied in eight crops of irrigated rice in Laguna Province, the Philippines. The rice leaffolder complex consisted of three species: Cnaphalocrocis medinalis (Guenée), Marasmia patnalis Bradley and M. exigua Butler. Leaffolder population dynamics were characterized by an egg peak at maximum tillering and a broad larval peak around booting stage. Peak densities ranged from 0.2 to 2.0 larvae per hill. Most larvae originated from immigrant moths and there was no substantial second generation. The seasonal percentage egg parasitism by Trichogramma sp. ranged from 0 to 27%, and percentage larval parasitism from 14 to 56%. The braconid Macrocentrus philippinensis Ashmead was the most commonly reared larval parasitoid. Forty natural enemy taxa that may attack rice leaffolders were identified from suction and sweepnet samples: 24 predator taxa and 16 parasitoid taxa. The estimated survival rates from leaffolder egg to larval stages and between larval stages showed large variation between rice crops, but were not clearly correlated with observed levels of parasitism, natural enemy abundance, or natural enemy to leaffolder ratios. It is suggested that the generally low densities of rice leaffolders in Philippine transplanted rice are caused by their ovipositional preference for crops at the maximum tillering stage, allowing for only one generation, and by high immature mortality caused by the abundant and diverse complex of natural enemies.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1999

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References

Arida, G.S. & Heong, K.L. (1992) Blower-Vac: a new suction apparatus for sampling rice arthropods. International Rice Research Newsletter 17(6), 3031.Google Scholar
Arida, G.S., Shepard, M.B. & Almazan, L.P. (1990) Effect of crop age and leaf location on food consumption and development of rice leaffolder (LF) Marasmia patnalis. International Rice Research Newsletter 15(2), 29.Google Scholar
Arida, G.S. & Shepard, M. (1986) Seasonal abundance of the rice leaffolder complex in Laguna Province, Philippines. Journal of Agricultural Entomology 3, 382383.Google Scholar
Arida, G.S. & Shepard, B.M. (1990) Parasitism and predation of rice leaffolders, Marasmia patnalis (Bradley) and Cnaphalocrocis medinalis (Guenée) (Lepidoptera: Pyralidae) in Laguna province, Philippines. Journal of Agricultural Entomology 7, 113118.Google Scholar
Bandong, J.P. & Litsinger, J.A. (1988) Development of action control thresholds for major rice pests. pp. 95102in Teng, P.S. & Heong, K.L. (Eds) Pesticide management and integrated pest management in Southeast Asia. Consortium for International Crop Protection, Maryland, USA.Google Scholar
Barrion, A.T. & Litsinger, J.A. (1985) Identification of rice leaffolder (LF) by wing markings. International Rice Research Newsletter 10(1), 24.Google Scholar
Barrion, A.T., Litsinger, J.A., Medina, E.B., Aguda, R.M., Bandong, J.P., Pantua, P.C., Viajante, V.D., de la Cruz, C.G. & Vega, C.R. (1991) The rice Cnaphalocrocis and Marasmia (Lepidoptera: Pyralidae) leaffolder complex in the Philippines: taxonomy, bionomics and control. Philippine Entomologist 8, 9871074.Google Scholar
Bautista, R.C., Heinrichs, E.A. & Rejesus, R.S. (1984) Economic injury levels for the rice leaffolder Cnaphalocrocis medinalis (Lepidoptera: Pyralidae): insect infestation and artificial leaf removal. Environmental Entomology 13, 439443.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.Google Scholar
Chang, P.M. (1993) Rice leaffolder and brown planthopper occurrence in FELCRA Seberang Perak, Malaysia. pp. 1415 in Research on rice leaffolder management in China. Proceedings of the International Workshop on Economic Threshold Level for Rice Leaffolder in ChinaBeijingMarch 1–2, 1992.Google Scholar
Cheng, C.H. (1987) Investigation on bionomics of the rice leaffolder, Cnaphalocrocis medinalis (Guenée) in the South of Taiwan. Plant Protection Bulletin (Taiwan) 29, 135146 (in Chinese, English abstract).Google Scholar
Chu, V.I., Ho, K.Y. & Lee, V.S. (1983) The effect of various host plants on growth and development of the rice leaf roller, (Cnaphalocrocis medinalis (Guenée)). Chinese Journal of Entomology 3, 7592 (in Chinese, English abstract).Google Scholar
Cohen, J.E., Schoenly, K., Heong, K.L., Justo, H., Arida, G.S., Barrion, A.T. & Litsinger, J.A. (1994) A food web approach to evaluating the effect of insecticide spraying on insect pest population dynamics in a Philippine irrigated rice ecosystem. Journal of Applied Ecology 31, 747763.CrossRefGoogle Scholar
Dale, D. (1994) Insect pests of the rice plant – their biology and ecology. pp. 363485in Heinrichs, E.A. (Ed.)Biology and management of rice insects. Wiley Eastern Ltd.Google Scholar
de Kraker, J. (1996) The potential of natural enemies to suppress rice leaffolder populations PhD thesis, Wageningen Agricultural University, The Netherlands.Google Scholar
Fukamachi, S. (1980) Habitat and oviposition behavior of the rice leafroller moth, Cnaphalocrocis medinalis, Guenée. Proceedings of the Association for Plant Protection, Kyushu 26, 9396 (in Japanese).CrossRefGoogle Scholar
Fukamachi, S. (1983) Nocturnal activity of the rice leafroller moth, Cnaphalocrocis medinalis, Guenée. Proceedings of the Association for Plant Protection, Kyushu 29, 7174 (in Japanese).CrossRefGoogle Scholar
Guo, Y.J. (1990) Larval parasitization of rice leaffolder (Lepidoptera: Pyralidae) under field and laboratory conditions. PhD thesis, University of the Philippines at Los Baños, Philippines.Google Scholar
Heong, K.L. (1990) Feeding rates of the rice leaffolder,Cnaphalocrocis medinalis (Lepidoptera: Pyralidae), on different plant stages. Journal of Agricultural Entomology 7, 8190.Google Scholar
Heong, K.L. (1993) Rice leaffolders: are they serious pests? pp. 811 in Research on rice leaffolder management in China. Proceedings of the International Workshop on Economic Threshold Level for Rice Leaffolder in ChinaBeijingMarch 1–2, 1992.Google Scholar
Heong, K.L., Aquino, G.B. & Barrion, A.T. (1991) Arthropod community structures of rice ecosystems in the Philippines. Bulletin of Entomological Research 81, 407416.CrossRefGoogle Scholar
Heong, K.L. & Escalada, M.M. (1994) An analysis of insecticide use in rice: case studies in the Philippines and Vietnam. International Journal of Pest Management 40, 173178.CrossRefGoogle Scholar
IRRI (1993) Rice IPM Network –Phase I. Final Report 1990–1993. International Rice Research Institute, Los Baños, Philippines.Google Scholar
Kamal, N.Q. (1981) Suppression of whitebacked planthopper, Sogatella furcifera (Horvath), and rice leaffolder, Cnaphalocrocis medinalis (Guenée), populations by natural enemies PhD thesis, Gregorio Araneta University Foundation, Manila, Philippines.Google Scholar
Keller, M.A., Lewis, W.J. & Stinner, R.E. (1985) Biological and practical significance of movement by Trichogramma species: a review. Southwestern Entomologist 8, 138155.Google Scholar
Kenmore, P.E., Carino, F.O., Perez, C.A., Dyck, V.A. & Gutierrez, A.P. (1984) Population regulation of the rice brown planthopper (Nilaparvata lugens Stål) within rice fields in the Philippines. Journal of Plant Protection in the Tropics 1, 1937.Google Scholar
Khan, Z.R., Barrion, A.T., Litsinger, J.A., Castilla, N.P. & Joshi, R.C. (1988) Mini review: a bibliography of rice leaffolders (Lepidoptera: Pyralidae). Insect Science and its Applications 9, 129174.Google Scholar
Kulshreshtha, J.P., Kalode, M.B., Prakasa Rao, P.S., Misra, B.C. & Varma, A. (1970) High yielding varieties and the resulting changes in the pattern of rice pests in India. Oryza 7, 6164.Google Scholar
Liang, G.W. & Pang, X.F. (1987) Studies on the life system of rice leafroller. pp. 214237 in The developments in integrated control of rice diseases and insect pests in China. (in Chinese).Google Scholar
Litsinger, J.A. (1989) Second generation insect pest problems on high yielding rices. Tropical Pest Management 35, 235242.CrossRefGoogle Scholar
Litsinger, J.A., Barrion, A.T. & Soekarna, D. (1987a) Upland rice insect pests: their ecology, importance, and control. IRRl Research Paper Series 123.Google Scholar
Litsinger, J.A., Canapi, B.L., Bandong, J.P., Dela Cruz, C.G., Apostol, R.F., Pantua, P.C., Lumaban, M.D., Alviola, A.L. III, Raymundo, F., Libetario, E.M., Loevinsohn, M.E. & Joshi, R.C. (1987b) Rice crop loss from insect pests in wetland and dryland environments of Asia with emphasis on the Philippines. Insect Science and its Applications 8, 677692.Google Scholar
Loevinsohn, M.E. (1984) The ecology and control of rice pests in relation to the intensity and synchrony of cultivation. PhD thesis, University of London, UK.Google Scholar
Luck, R.F., Shepard, B.M. & Kenmore, P.E. (1988) Experimental methods for evaluating arthropod natural enemies. Annual Review of Entomology 33, 367391.CrossRefGoogle Scholar
Manly, B.F.J. (1989) A review of methods for the analysis of stage-frequency data. pp. 369in McDowell, L. (Ed.)Estimation and analyses of insect populations. Springer, New York.Google Scholar
Miyahara, V. (1992) Habitats of the rice leafroller moth,Cnaphalocrocis medinalis, Guenée. Proceedings of the Association for Plant Protection, Kyushu 38, 7881 (in Japanese).Google Scholar
Randriamananoro, J.J. (1990) Colonization of rice leaffolders Cnaphalocrocis medinalis (Guenée) and Marasmia patnalis Bradley (Lepidoptera: Pyralidae) in upland and irrigated rice fields. MSc thesis, University of the Philippines at Los Baños, Philippines.Google Scholar
Reissig, W.H., Heinrichs, E.A., Litsinger, J.A., Moody, K., Fiedler, L., Mew, T.W. & Barrion, A.T. (1986) Illustrated guide to integrated pest management in rice in tropical Asia. International Rice Research Institute, Los Baños, Philippines.Google Scholar
Shepard, B.M. & Ooi, P.A.C. (1991) Techniques for evaluating predators and parasitoids in rice. pp. 205214in Heinrichs, E.A. & Miller, T.A. (Eds) Rice insects. management strategies. Springer Series in Experimental Entomology, Springer-Verlag.Google Scholar
Smith, J., Litsinger, J.A., Bandong, J.P. & Lumaban, M.D. (1989) Economic thresholds for insecticide application to rice: profitability and risk analysis to Filipino farmers. Journal of Plant Protection in the Tropics 6, 6787.Google Scholar
Southwood, T.R.E. (1978) Ecological methods – with particular reference to the study of insect populations. 2nd edn, Chapman –Hall.Google Scholar
Van Driesche, R.G. (1983) Meaning of "Percent Parasitism" in studies of insect parasitoids. Environmental Entomology 12, 16111622.Google Scholar
Van Driesche, R.G., Bellows, T.S., Elkington, J.S., Gould, J.R. & Ferro, D.N. (1991) The meaning of Percentage Parasitism revisited: solutions to the problem of accurately estimating total losses from parasitism. Environmental Entomology 20, 17.Google Scholar
Wada, T. (1979) Influence of the temperature and the growing stages of the rice plant on the number of larval instars in the rice leafroller,Cnaphalocrocis medinalis Guenée. Japanese Journal of Applied Entomology and Zoology 23, 178182 (in Japanese, English abstract).Google Scholar
Wada, T. & Kobayashi, M. (1980) Effects of temperature on development of the rice leaf roller, Cnaphalocrocis medinalis Guenée (Lepidoptera: Pyralidae). Applied Entomology and Zoology 15, 207214.CrossRefGoogle Scholar
Wada, T. & Kobayashi, M. (1982) Mating status depending on the growing stage of the rice plant in the population of Cnaphalocrocis medinalis (Guenée). Applied Entomology and Zoology 17, 278281.CrossRefGoogle Scholar
Wada, T. & Kobayashi, M. (1991) Life history of the rice leaffolder, Cnaphalocrocis medinalis in Japan – invasion, population explosion and dispersal. pp. 6170 in Proceedings of International Seminar on Migration and Dispersal of Agricultural InsectsTsukuba, JapanSeptember 1991.Google Scholar
Wada, T., Kobayashi, M. & Shimazu, M. (1980) Seasonal changes of the proportions of mated females in the field population of the rice leaffolder,Cnaphalocrocis medinalis Guenée (Lepidoptera: Pyralidae). Applied Entomology and Zoology 15, 8189.CrossRefGoogle Scholar
Waldbauer, G.P. & Marciano, A.P. (1979) Rice leaffolder: mass rearing and a proposal for screening for varietal resistance in the greenhouse. IRRI Research Paper Series 27.Google Scholar
Yoshida, S. (1981) Fundamentals of rice crop science. International Rice Research Institute, Los Baños, Philippines.Google Scholar
Zhang, X.X. (1991) Migration of rice leaf roller, Cnaphalocrocis medinalis Guenée, in China. pp. 5160 in Proceedings of International Seminar on Migration and Dispersal of Agricultural InsectsTsukuba, JapanSeptember 1991.Google Scholar