Hostname: page-component-78c5997874-94fs2 Total loading time: 0 Render date: 2024-11-05T05:08:50.922Z Has data issue: false hasContentIssue false
  • English
  • Français

ENTOMOPATHOGENIC VIRUSES: STRATEGIES FOR USE IN FOREST INSECT PEST MANAGEMENT

Published online by Cambridge University Press:  31 May 2012

Oswald N. Morris
Oswald N. Morris
Affiliation:
Forest Pest Management Institute, Canadian Forestry Service, Sault Ste. Marie, Ontario P6A 5M7
Get access Rights & Permissions [Opens in a new window]

Abstract

Strategies for the use of entomopathogenic viruses in the management of forest insect pests include the use of viruses by themselves or with other biocontrol or chemical agents applied simultaneously or separately at strategic time intervals. It is concluded that baculoviruses (nuclear polyhedrosis and granulosis viruses) have considerable potential as components of integrated forest insect pest management systems. The prime limiting factors in their large scale use at present are the high cost of virus production and underdevelopment of application technology. Their greatest potential will probably be realized when used as an indirect, or preventative, strategy with a view to preventing the occurrence of pest emergency situations.

Résumé

L’auteur décrit diverses stratégies d’utilisation de virus entomopathogènes dans la lutte contre les insectes forestiers et traite de l’aspect économique de leur utilisation. Les stratégies incluent l’utilisation de virus seuls ou combinés à d’autres agents de régulations biologiques ou chimiques, appliqués simultanément ou séparément à intervalles stratégiques. Il conclut que les Baculovirus (virus de la polyédrose nucléaire et virus de la granulose) ont un potentiel considérable comme éléments de systèmes intégrés de lutte contre les ravageurs forestiers. Les principaux facteurs qui limitent leur utilisation à grande échelle sont actuellement le coût élevé de production des virus et le sous-développement des techniques d’application. Leur plus grand potentiel sera probablement réalisé par leur utilisation comme stratégie indirecte ou préventive pour prévenir les situations d’urgence causées par les ravageurs.

Type
Articles
Information
The Canadian Entomologist , Volume 112 , Issue 6 , 01 June 1980 , pp. 573 - 584
Copyright
Copyright © Entomological Society of Canada 1980

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anonymous. 1972. United Nations Report by the Secretary General. Conference on the Human Environment. U.N. Doc. A/Conf. (Stockholm) 48/14. 135 pp.Google Scholar
Abrahamson, L. P. and Harper, J. D.. 1973. Microbial insecticides control forest tent caterpillar in southwestern Alabama. U.S. For. Serv. Res. Note 50–157. 3 pp.Google Scholar
Atger, P. 1964. Rôle d'un enchaînement virus-bactérie dans le déclenchement d'épizootie chez Thaumetopoea pityocampa Schiff. C. r. hebd. Acad. Séanc. Acad. Sci., Paris 258: 24302432.Google Scholar
Atger, P., Vago, C., and Meynadier, G.. 1964. Étude d'une bactériose intestinale de Thaumetopoea pityocampa Schiff. Rev. Path. vég. ent. 43: 5561.Google Scholar
Baskerville, G. 1976. Report of the task force for evaluation of budworm control alternatives. Dep. Natural Res., Fredericton, N.B., Canada. 210 pp.Google Scholar
Benz, G. 1971. Synergism of micro-organisms and chemical insecticides. pp. 327355. In Burges, H. D. and Hussey, N. W. (Eds.), Microbial Control of Insects and Mites. Academic Press, N.Y.Google Scholar
Bird, F. T. 1953. The use of a virus disease in the biological control of the European pine sawfly, Neodiprion sertifer (Geoffr.). Can. Ent. 85: 435446.Google Scholar
Bird, F. T. 1959. Polyhedrosis and granulosis viruses causing single and double infections in the spruce budworm, Choristoneura fumiferana Clemens. J. Insect Path. 1: 406430.Google Scholar
Bird, F. T. 1961. Transmission of some insect viruses with particular reference to ovarial transmission and its importance in the development of epizootics. J. Insect Path. 3: 352380.Google Scholar
Bird, F. T. 1969. Infection and mortality of spruce budworm, Choristoneura fumiferana, and forest tent caterpillar, Malacosoma disstria, caused by nuclear and cytoplasmic polyhedrosis viruses. Can. Ent. 101: 12691285.CrossRefGoogle Scholar
Bird, F. T. and Burk, J. M.. 1961. Artificially disseminated virus as a factor controlling the European spruce sawfly, Diprion hercyniae (Htg.) in the absence of introduced parasites. Can. Ent. 93: 228238.CrossRefGoogle Scholar
Bird, F. T., Cunningham, J. C., and Howse, G. M.. 1972. The possible use of viruses in the control of spruce budworm. Proc. ent. Soc. Ont. 103: 6975.Google Scholar
Bird, F. T. and Elgee, D. E.. 1957. A virus disease and introduced parasites as factors controlling the European spruce sawfly, Diprion hercyniae (Htg.), in central New Brunswick. Can. Ent. 89: 371378.CrossRefGoogle Scholar
Bird, F. T. and McPhee, J. R.. 1970. Susceptibility of spruce budworm to pure nuclear polyhedrosis virus (NPV) sprays. Can. For. Serv. Bi-mon. Res. Notes 26(4): 35.Google Scholar
Block, D. C. 1974. The effect of patent laws on industrialization of insect viruses. Symp. Specificity and Development of Insect Viruses for Pest Control. Soc. Invert. Path. Misc. Publ. Ent. Soc. Amer., Tempe, Arizona.Google Scholar
Cardinal, J. A. and Smirnoff, W. A.. 1973. Introduction expérimentale de la polyhédre nucléaire de Porthetria dispar L. (Lepidopteres:Lymantriidae) en forêt. Phytoprotection 54: 4850.Google Scholar
Cavalcaselle, B. 1974. Prove di lotta contro le larve di Neodiprion sertifer (Geoffr.) on alcuni insetticide chimici e con una sospensione virale. Cellulosa e Carta 12: 2732.Google Scholar
Clark, E. C. and Thompson, C. G.. 1954. The possible use of microorganisms in the control of the Great Basin tent caterpillar. J. econ. Ent. 47: 268272.CrossRefGoogle Scholar
Clark, E. C. and Reiner, C. E.. 1956. The possible use of a nuclear polyhedrosis virus in the control of the Great Basin tent caterpillar. J. econ. Ent. 49: 653659.CrossRefGoogle Scholar
Clark, W. C., Jones, D. D., and Holling, C. S.. Lessons for ecological policy design: a case study of ecosystem management. J. ecol. Modelling (in press).Google Scholar
Cunningham, J. C., Kaupp, W. J., McPhee, J. R., Howse, G. M., and Harnden, A. A.. 1975 a. Aerial application of nuclear polyhedrosis virus against spruce budworm on Manitoulin Island, Ontario, in 1974, and a survey of the impact of the virus in 1975. Can. For. Serv. Rep. IP-X-8. 30 pp.Google Scholar
Cunningham, J. C., Kaupp, W. J., McPhee, J. R., Sippell, W. L., and Barnes, C. A.. 1975 b. Aerial application of nuclear polyhedrosis virus to control European pine sawfly, Neodiprion sertifer (Geoff.), at Sandbanks Provincial Park, Quinte Island, Ontario in 1975. Can. For. Serv. Rep. IP-X-7. 18 pp.Google Scholar
Cunningham, J. C., Kaupp, W. J., and McPhee, J. R.. 1975 c. Aerial application of a nuclear polyhedrosis virus to control European pine sawfly. Can. For. Serv. Bi-mon. Res. Notes 31: 3940.Google Scholar
Cunningham, J. C., Kaupp, W. J., Howse, G. M., McPhee, J. R., and de Groot, P.. 1978. Aerial application of spruce budworm baculovirus: tests of virus strains, dosages and formulations in 1977. Can. For. Serv. Rep. FPM-X-3.Google Scholar
Diaz, M., Pavan, C., and Basile, R.. 1969. Effects of a virus and a microsporidian infection in chromosomes of various tissues of Rhynchosciara angelae (Nonato et Pavan, 1951). Revta bras. Biol. 29: 191206.Google Scholar
Donaubaeur, E. 1973. Results of polyhedral virus applications against Neodiprion sertifer Geoffr. Bull. Org. Eur. Mediteor. Prot. Pl. 3: 105110.Google Scholar
Dowden, P. B. and Girth, H. B.. 1953. Use of a virus disease to control European pine sawfly. J. econ. Ent. 46: 525526.CrossRefGoogle Scholar
Entwistle, P. F., Evans, H. F., Harrap, K. A., and Robertson, J. S.. 1978. Field trials on the control of the pine sawfly, Neodiprion sertifer, using purified nuclear polyhedrosis virus. Tech. Rep. Nat. Env. Res. Counc. 1. 62 pp.Google Scholar
Franz, J. M. 1976. Auftreten, Eigenschaften und Nutzung von Virosen bei Schadinsekten. Z. angew. Ent. 82: 124128.CrossRefGoogle Scholar
Grison, P. 1960. Utilisation en forêt d'une préparation à base de virus spécifique contre Thaumetopoea pityocampa Schiff. Z. angew. Ent. 47: 2431.CrossRefGoogle Scholar
Howse, G. M., Sanders, C. J., Harnden, A. A., Cunningham, J. C., Bird, F. T., and McPhee, J. R.. 1973. Aerial application of viruses against the spruce budworm, 1971. Can. For. Serv. Rep. O-X-189. 62 pp.Google Scholar
Hsieh, M. L., Collins, W. J., and Stairs, G. R.. 1974. Interaction of nuclear polyhedrosis virus, DDT, rotenone and peanut oil in Galleria mellonella larvae. Environ. Ent. 3: 567569.CrossRefGoogle Scholar
Hunter, D. K., Collier, S. J., and Hoffman, D. F.. 1975. Compatibility of malathion and the granulosis virus of the Indian meal moth. Invert. Path. 25: 389390.CrossRefGoogle Scholar
Ilnytzky, S., McPhee, J. R., and Cunningham, J. C.. 1977. Comparison of field propagated nuclear polyhedrosis virus from Douglas fir tussok moth with laboratory-produced virus. Can. For. Serv. Bi-mon. Res. Notes 33: 56.Google Scholar
Irabagon, T. and Brooks, W. M.. 1974. Interaction of Campoletis sononensis and a nuclear polyhedrosis virus in larvae of Heliothis virescens. J. econ. Ent. 67: 220231.CrossRefGoogle Scholar
Ito, Y., Shiga, M., Oho, N., and Nakazawa, H.. 1977. A granulosis virus, a possible biological agent for control of Adoxophyes orana (Lepidoptera: Tortricidae) in apple orchards. III. A preliminary model for population management. Researches Popul. Ecol. Kyoto Univ. 19: 3350.Google Scholar
Jones, D. D. 1977. The budworm site model. Proc. Conf. on Pest Management 25-29 October 1976. (Norton, G. A. and Holling, C. S., Eds.) CP-77-6. Int. Inst. Appl. Sys. Anal. Luxemburg, Austria. pp. 91155.Google Scholar
Katagiri, K. 1969. Review on microbial control of insect pests in forests in Japan. Entomophaga 14: 203214.CrossRefGoogle Scholar
Katagiri, K. and Iwata, Z.. 1976. Control of Dendrolimus spectabilis with a mixture of cytoplasmic polyhedrosis virus and Bacillus thuringiensis. Appl. Ent. Zool. 11: 363364.CrossRefGoogle Scholar
Katagiri, K. and Iwata, Z.. 1977. Control of Dendrolimus spectabilis with a mixture of cytoplasmic polyhedrosis virus and Bacillus thuringiensis. Appl. Ent. Zool. 11: 363364.CrossRefGoogle Scholar
Kaupp, W. J. and Cunningham, J. C.. 1977. Aerial application of a nuclear polyhedrosis virus against the red-headed pine sawfly, Neodiprion lecontei Fitch. Can. For. Serv. Rep. IP-X-14. 26 pp.Google Scholar
Kaya, H. K. 1971. Properties of a viral factor toxic to the parasitoid, Apanteles militaris. J. Insect Physiol. 17: 21252138.CrossRefGoogle Scholar
Kaya, H. K. 1972. Response of Apanteles militaris to a toxin produced in a granulosis-virus infected host. J. invert. Path. 19: 117.CrossRefGoogle Scholar
Knight, F. B. 1976. Management of the forest. On perspectives in forest entomology. (Anderson, J.E. and Kaya, H. K., Eds.) pp. 4648. Academic Press, N.Y.Google Scholar
Koyama, R. and Katagiri, K.. 1967. An application of nuclear and cytoplasmic polyhedrosis viruses against Lymantria fumida Butler (Lepidoptera: Lymantriidae). Bull. Gov. For. Exp. Stn 207. 10 pp.Google Scholar
Koyama, R. and Katagiri, K.. 1968. Use of cytoplasmic polyhedrosis virus for the control of pine caterpillars, Dendrolimus spectabilis Butler (Lepidoptera: Lasiocampidae). Proc. Joint U.S. — Japan Seminar Microbial Control Insect Pests, Fukuoka, April 21-23, 1967. pp. 6369.Google Scholar
Lhul, R. 1974. Versuche mit insektenpathogenen Polyederviren und Chemischen Stressoren zur Bekämpfung forstschadlicher Raupen. Z. angew Ent. 76: 4965.CrossRefGoogle Scholar
McIntyre, T. and Dutky, S. R.. 1961. Aerial application of virus for control of a pine sawfly, Neodiprion pratti. J. econ. Ent. 54: 809810.CrossRefGoogle Scholar
Magnoler, A. 1967. L'applicazione di un virus poliedrico nucleare nella lotta contro larvae di Lymantria dispar L. Entomophaga 12: 199207.CrossRefGoogle Scholar
Magnoler, A. 1968. Laboratory and field experiments on the effectiveness of purified and non-purified nuclear polyhedrosis virus of Lymantria dispar L. Entomophaga 13: 335344.CrossRefGoogle Scholar
Morris, O. N. 1963. The natural and artificial control of the Douglas fir tussock moth, Orgyia pseudotsugata McDunnough, by a nuclear polyhedrosis virus. J. Insect Path. 5: 401414.Google Scholar
Morris, O. N. 1964. Susceptibility of Lambdina fiscellaria somniaria (Hulst) (Geometridae) and Lambdina fiscellaria lugubrosa (Hulst) (Geometridae) to viruses from several species of lepidopterous insects. Can. J. Microbiol. 10: 273280.CrossRefGoogle Scholar
Morris, O. N. 1977. Long-term effects of aerial applications of virus–fenitrothion combinations against the spruce budworm, Choristoneura fumiferana (Lepidoptera: Tortricidae). Can. Ent. 109: 914.CrossRefGoogle Scholar
Morris, O. N., Armstrong, J. A., Howse, G. M., and Cunningham, J. C.. 1974. A 2-year study of virus–chemical insecticide combinations in the integrated control of the spruce budworm (Tortricidae: Lepidoptera). Can. Ent. 106: 813824.CrossRefGoogle Scholar
Nef, L. 1971. Influence de traitements insecticides chimiques et microbiens sur une population de Stilpnotia (=) Leucoma) salicis L. et sur ses parasites. Z. angew. Ent. 69: 357367.CrossRefGoogle Scholar
Neilson, M. M. and Elgee, D. E.. 1968. The method and role of vertical transmission of a nuclear polyhedrosis virus in the European spruce sawfly, Diprion hercynaie. J. invert. Path. 12: 132139.CrossRefGoogle Scholar
Nordin, G. L. and Maddox, J. V.. 1972. Effects of simultaneous virus and microsporidian infections on larvae of Hyphantria cunea. J. invert. Path. 20: 6669.CrossRefGoogle Scholar
Nuorteva, M. 1972. Use of the nuclear polyhedrosis virus in the control of the European pine sawfly Neodiprion sertifer (Geoffr.). Silva Fenn. 6: 172186.Google Scholar
Oliver, A. O. 1964. Studies on the biological control of the fall web-worm, Hyphantira cunea, in Louisiana. J. econ. Ent. 57: 314318.CrossRefGoogle Scholar
Olofsson, E. 1973. Evaluation of a nuclear polyhedrosis virus as an agent for the control of the balsam fir sawfly, Neodiprion abietis Harr. Can. For. Serv. Rep. IP-X-2. 30 pp.Google Scholar
Ossowski, L. L. J. 1960. The biological control of the wattle bagworm Kotochalia junodi (Heyl.), by a virus disease. II. Large scale experiments. Ann. appl. Biol. 48: 299313.CrossRefGoogle Scholar
Pinnock, D. E., Brand, R. J., Milstead, J. E., Kirby, M. E., and Coe, N. F.. 1978. Development of a model for prediction of target insect mortality following field application of Bacillus thuringiensis formulation. J. invert. Path. 31: 3136.CrossRefGoogle Scholar
Pschorn-Walcher, H. 1977. Biological control of forest insects. A. Rev. Ent. 22: 122.CrossRefGoogle Scholar
Raimo, B. 1975. Infecting the gypsy moth, Porthetria dispar (Lepidoptera: Lymantriidae) with nuclear polyhedrosis virus vectored by Apanteles melanoscelsus (Hymenoptera: Braconidae). Jl N.Y. ent. Soc. 83: 246.Google Scholar
Rivers, C. F. 1964. The use of a polyhedral virus disease in the control of the pine sawfly Neodiprion sertifer Geoffr. in north-west Scotland. Mém. Hors., Sér. 2, pp. 477–480.Google Scholar
Rivers, C. F. 1966. The natural and artificial dispersion of pathogens. Proc. Int. Coll. Insect Path. Microbial Control, Wageningen, The Netherlands, Sept. 5–10, 1966. pp. 252263.Google Scholar
Rollinson, W. D., Lewis, F. B., and Waters, W. E.. 1965. The successful use of a nuclear polyhedrosis virus against the gypsy moth. J. invert. Path. 7: 515517.CrossRefGoogle Scholar
Schonherr, J. 1969. Freilandversuch zur Biologischen Bekampfung des Tannentriebwicklers Choristoneura murinana (Hübn.) mit Granulseviren. Entomophaga 14: 251260.CrossRefGoogle Scholar
Sidor, C. 1965. The susceptibility of Thaumetopoea pityocampa (Schiff) to a specific polyhedral virus disease and to the cytoplasmic polyhedral virus of Arctia caja (L.). Proc. 12th int. Congr. Ent., London, 1964. pp. 743744.Google Scholar
Sidor, C. 1966. Virus diseases as limiting factors of some lepidopterous defoliators on poplar trees in Vojvodina. Proc. int. Coll. Insect Path. Microbial Control, Wageningen, The Netherlands, Sept. 5–10, 1966. pp. 168173.Google Scholar
Sidor, C. and Nikolić, V.. 1966. Viroze diprion vrstan Jugoslaviji injihova primena za suzbijanje pagusenica na terenu. 1. Polidarno virozno oboijenje Neodiprion sertifer Geoffr. Ann. Sci. Work Fac. Agric. Novi Sad. 10. pp. 3754.Google Scholar
Sliznyski, K. and Lipa, J. J.. 1975. A cytoplasmic polyhedrosis virus of pine moth, Dendrolimus pini L. (Lepidoptera: Lasiocampidae). Proc. Nauk. Inst. Ochr. Rosl. (Warsaw) 17: 2960.Google Scholar
Smirnoff, W. A. 1961. A virus disease of Neodiprion swainei Middleton. J. Insect Path. 3: 2946.Google Scholar
Smirnoff, W. A. 1964. Study of the virus disease of Neodiprion swainei Midd. and results of its aerial dispension. Entomophaga Mém. Hors. Sér. 2. pp. 465475.Google Scholar
Smirnoff, W. A., Fettes, J. J., and Haliburton, W.. 1962. A virus disease of Swaine's jack pine sawfly, Neodiprion swainei Midd. sprayed from an aircraft. Can. Ent. 94: 477486.CrossRefGoogle Scholar
Smith, D. B., Hostetter, D. L., and Ignoffo, C. M.. 1977. Laboratory performance specifications for a bacterial (Bacillus thuringiensis) and a viral (Baculovirus heliothis) insecticide. J. econ. Ent. 70: 437441.CrossRefGoogle Scholar
Stairs, G. R. 1964. Dissemination of nuclear polyhedrosis virus against the forest tent caterpillar, Malacosoma disstria (Hübner) Lepidoptera: Lasiocampidae. Can. Ent. 96: 10171020.CrossRefGoogle Scholar
Stairs, G. R. 1965. Artificial initiation of virus epizootics in forest tent caterpillar populations. Can. Ent. 97: 10591062.CrossRefGoogle Scholar
Stairs, G. R. 1966. Transmission of virus in tent caterpillar populations. Can. Ent. 98: 11001104.CrossRefGoogle Scholar
Stairs, G. R. and Bird, F. T.. 1962. Dissemination of viruses against the spruce budworm, Choristoneura fumiferana (Clemens). Can. Ent. 94: 966969.CrossRefGoogle Scholar
Stelzer, M. J. 1967. Control of virus in tent caterpillar, Malacosoma fragile incurva, with an aerial application of a nuclear polyhedrosis virus and Bacillus thuringiensis. J. econ. Ent. 60: 3841.CrossRefGoogle Scholar
Stelzer, M. J., Neisess, J., and Thompson, C. G.. 1975. Aerial applications of a nuclear polyhedrosis virus and Bacillus thuringiensis against the Douglas fir tussock moth. J. econ. Ent. 68: 269272.CrossRefGoogle Scholar
Stelzer, M., Neisess, J., Cunningham, J. C., and McPhee, J. R.. 1977. Field evaluation of baculovirus stocks against Douglas fir tussock moth in British Columbia. J. econ. Ent. 70: 243246.CrossRefGoogle Scholar
Tamashiro, M. 1968. Effects of insect pathogens on some biological control agents in Hawaii. Proc. Joint U.S. - Japan Seminar on Microbial Control of Insect Pests, Fukuoka. pp. 147153.Google Scholar
To, N. W., Gudauskas, R. T., and Harper, J. D.. 1975. Pathogenicity of Bacillus cereus isolated from Trichoplusia ni larvae. J. invert. Path. 26: 135136.CrossRefGoogle ScholarPubMed
Vago, C., Fosset, J., and Bergoin, M.. 1966. Dissémination des virus de polyédries par les ephippigeres prédateurs d'insectes. Entomophaga II: 177182.CrossRefGoogle Scholar
Waters, F. B. 1971. Ecological management of forest insect populations. Proc. Tall Timbers Conf. Ecol. Anim. Control Habitat Management 3: 141153.Google Scholar
Wellenstein, G. and Lühl, R.. 1972. Bekampfung schädlicher Raupen mit insektenpathogenen. Polhederviren und chemischen Stressoren. Naturwissenschaften 59: 517.CrossRefGoogle Scholar
Yearian, W. C., Young, S. Y., and Livingston, J. M.. 1973. Field evaluation of a nuclear polyhedrosis virus of Neodiprion taedae linearis. J. invert. Path. 22: 3437.CrossRefGoogle Scholar
Yendol, W. G. 1975. Effectiveness of a baculovirus against the gypsy moth, Porthetria dispar L. 8th int. Pl. Prot. Congr., Moscow, Sec. V: 217223.Google Scholar
Ying, S. L. 1970. Application of Isaria sp., cytoplasmic polyhedrosis virus and Bacillus thuringiensis against the pine caterpillar, Dendrolimus punctatus Walker (Lasiocampidae: Lepidoptera). Ql. J. Chinese For. 4: 5168.Google Scholar
Zethner, O. 1976. Control experiments on the nun moth (Lymantria monacha L.) by nuclear-polyhedrosis virus in Danish coniferous forests. Z. angew. Ent. 81: 192207.CrossRefGoogle Scholar