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Termite (Isoptera) control in agriculture and forestry by non-chemical methods: a review

Published online by Cambridge University Press:  10 July 2009

James W.M. Logan
Affiliation:
Natural Resources Institute, Chatham Maritime, Kent, UK
Robert H. Cowie
Affiliation:
Natural Resources Institute, Chatham Maritime, Kent, UK
T.G. Wood
Affiliation:
Natural Resources Institute, Chatham Maritime, Kent, UK

Abstract

Non-chemical control of termites in agriculture and forestry is attracting renewed interest following increasing restrictions on the use of persistent organochlorine (cyclodiene) insecticides. Non-chemical control involves methods which attempt, without using commercial pesticides, to (i) prevent termite access to the plants, (ii) reduce termite numbers in the vicinity of the plants or (iii) reduce susceptibility/increase resistance of the plants themselves. There have been few adequate trials of any of these methods. Numerous cultural procedures have been suggested, including measures to enhance plant vigour, to manipulate termite numbers and behaviour, and others whose mode of action is unclear. Many are simply part of good agricultural/silvicultural practice and to be recommended. Biological control by predators or pathogens is unlikely to be successful due to the termites' social structure and behavioural responses to infected individuals and to loss of individuals to predators. The use of ‘natural’ insecticides from locally available plant products may be effective in some cases but, as they are not subject to the same rigorous safety and environmental evaluation as commercial pesticides, their use cannot be sanctioned unconditionally. Other locally available products, e.g. wood ash, have not been adequately evaluated. Removal of reproductives from the nest and construction of physical barriers may have limited applications, but resistant species and varieties, combined with appropriate cultural methods and, perhaps, minimal use of modern pesticides in an integrated approach, offer the greatest potential for a long term solution. The lack of critical scientific evaluation of non-chemical control makes it a field wide open for research.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1990

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References

Abbas, H.M. & Ahmad, F.U. (1984) Insect pests of pulses in Pakistan. pp. 184207. In Ahmad, F.U. (Ed.) Insect Pests of Important Crops in Pakistan. Karachi, Pakistan Ministry of Food, Agriculture and Cooperatives.Google Scholar
Abd el Nour, H.O. (1975) Drought and termites: a threat to Cupressus lusitanica plantations in Jebel Marra—Sudan. Sudan Silva 3(20), 1217.Google Scholar
Adams, R.P., McDaniel, C.A. & Carter, F.L. (1988) Termiticidal activities in the heartwood, bark/sapwood and leaves of Juniperus species from the United States. Biochemical Systematics and Ecology 16, 453456.CrossRefGoogle Scholar
Agricultural Research Council (1971) Cotton handbook of Malawi. 82 pp. Zomba, Malawi, Ministry of Agriculture and Natural Resources.Google Scholar
Al Fazairy, A.A. & Hassan, F.A. (1988) Infection of termites by Spodoptera littoralis nuclear polyhedrosis virus. Insect Science and its Application 9, 3739.Google Scholar
Amin, P.W., Singh, K.N., Dwivedi, S.L. & Rao, V.R. (1985) Sources of resistance to the jassid (Empoasca kerri Pruthi), thrips (Frankliniella schultzei (Trybom)) and termites (Odontotermes sp.) in groundnut (Arachis hypogaea L.). Peanut Science 12, 5860.CrossRefGoogle Scholar
Anon. (1898) White ants as a pest of agriculture–a note by the Settlement Officer of Balaghat, Central Provinces, prefixed by certain passages reprinted from the Indian Museum Notes, on termites in relation to crops etc. Entomological series No. 7, The Agricultural Ledger 1897 No. 18, 434. Calcutta, Office of the Superintendent, Government Printing.Google Scholar
Anon. (1957) An ordinance for the control of the spread of infestation by termites or white ants. St. Helena Ordinance No. 3 of 1957, 4 pp.Google Scholar
Araujo, R.L. (1970) Termites of the Neotropical Region. pp. 527576in Krishna, K. & Weesner, F.M. (Eds.) Biology of termites, Volume II. London, Academic Press.Google Scholar
Bampton, S.S., Butterworth, D. & MacNulty, B.J. (1966) Testing materials for resistance to termite attack. Part 2. The resistance of some Nigerian timbers to attack by subterranean termites. Material und Organismen 1, 185199.Google Scholar
Bao, L.-L. & Yendol, W.G. (1971) Infection of the Eastern Subterranean Termite, Reticulitermes flavipes (Kollar) with the fungus Beauveria bassiana (Balsamo) Vuill. Entomophaga 16, 343352.CrossRefGoogle Scholar
Barnett, D.W. (1986) Summary of results from termite control trials 1972–1985. FRIM Report 86003. 9pp,Forestry Research Institute of Malawi; Zomba, Malawi.Google Scholar
Beal, R.H., Carter, F.L. & Southwell, C.R. (1974) Survival and feeding of subterranean termites on tropical woods. Forest Products Journal 24(8), 4448.Google Scholar
Bedding, R.A. & Molyneux, A.S. (1982) Penetration of insect cuticle by infective juveniles of Heterorhabditis spp. (Heterorhabditidae: Nematoda). Nematologica 28, 354359.CrossRefGoogle Scholar
Beeson, C.F.C. (1941) A guide to the control of termites for forest officers. Indian Forest Records (New Series), Entomology 4, 4490.Google Scholar
Black, H.I.J. & Wood, T.G. (1989) The effects of cultivation on the vertical distribution of Microtermes spp. (Isoptera: Termitidae: Macrotermitinae) in soil at Mokwa, Nigeria. Sociobiology 15, 133138.Google Scholar
Blackwell, M. & Rossi, W. (1986) Biogeography of fungal ectoparasites of termites. Mycotaxon 25, 581601.Google Scholar
Bodot, P. (1961) La destruction des termitières de Bellicositermes natalensis par une fourmi: Dorylus (Typhlopone) dentifrons (Wasmann). Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences, Paris 253, 3053.Google Scholar
Bodot, P. (1967) Etude écologique des termites des savanes de basse Cote-d'Ivoire. Insectes Sociaux 14, 229258.CrossRefGoogle Scholar
Booth, F.E.M. & Wickens, G.E. (1988) Non-timber uses of selected arid zone trees and shrubs in Africa. FAO Conservation Guide No. 19, 176 pp.Google Scholar
Bouillon, A. (1970) Termites of the Ethiopian region. pp. 153280in Krishna, K. & Weesner, F.M. (Eds.) Biology of termites, Volume II. London, Academic Press.Google Scholar
Breznak, J.A. (1982) Intestinal microbiota of termites and other xylophagous insects. Annual Review of Microbiology 36, 323343.CrossRefGoogle ScholarPubMed
Brown, K.W. (1962) Termite control research in Uganda with particular reference to control of attacks in Eucalyptus plantations. 9 pp. Eighth British Commonwealth Forestry Conference. Entebbe, Government publication, Uganda Protectorate.Google Scholar
Brown, L.C. (1981) Land resources and agro-forestal development of St Helena. Volume 2. The resources. 204 pp. Surbiton, UK, Land Resources Development Centre.Google Scholar
Browne, F.G. (1968) Pests and diseases of forest plantation trees. 1330 pp. Oxford, Clarendon Press.Google Scholar
Burges, H.D. (1981) Microbial control of pests and plant diseases 1970–1980. 949 pp. London, Academic Press.Google Scholar
Burges, H.D. & Hussey, N.W. (1971) Microbial control of insects and mites. 861 pp. London, Academic Press.Google Scholar
Butani, D.K. (1967) Sugarcane termites—a resumé. Indian Sugar 17, 543549.Google Scholar
Carter, F.L. & de Camargo, C.R. (1983) Testing antitermitic properties of Brazilian woods and their extracts. Wood and Fiber Science 15, 350357.Google Scholar
Carter, F.C. & Mauldin, J.K. (1981) Responses of Reticulitermes flavipes to extracts from nine antitermitic hardwoods. Material und Organismen 16, 175188.Google Scholar
Carter, F.L. & Smythe, R.V. (1974) Feeding and survival responses of Reticulitermes flavipes (Kollar) to extractives of wood from 11 coniferous genera. Holzforschung 28, 4145.CrossRefGoogle Scholar
Chamsama, S.A.O. & Hall, J.B. (1987) Effects of nursery treatments on Eucalyptus camaldulensis field establishment and early growth at Mafiga, Morogoro, Tanzania. Forest Ecology and Management 21, 91108.CrossRefGoogle Scholar
Chander, S., Brar, D.S., Shamet, G.S. & Chandi, K.S. (1984) Growth performance of Leucaena leucocephala (Lam.) de Wit in relation to termite damage in Kandi Area. Journal of Tree Science 3, 129130.Google Scholar
Coaton, W.G.H. (1949) Queen removal in termite control. Farming in South Africa 24, 335344.Google Scholar
Coaton, W.G.H. (1950) Termites and their control in cultivated areas in South Africa. Bulletin of the Department of Agriculture, Union of South Africa, No. 305, 28 pp.Google Scholar
Coaton, W.G.H. (1954) Veld reclamation and harvester termite control. Farming in South Africa 29, 243248.Google Scholar
Collins, N.M. (1981) Populations, age structure and survivorship of colonies of Macrotermes bellicosus (Isoptera: Macrotermitinae). Journal of Animal Ecology 50, 293311.CrossRefGoogle Scholar
Cowie, R.H., Logan, J.W.M. & Wood, T.G. (1989) Termite (Isoptera) damage and control in tropical forestry with special reference to Africa and Indo-Malaysia: a review. Bulletin of Entomological Research 79, 173184.CrossRefGoogle Scholar
Cowie, R.H. & Wood, T.G. (1989) Damage to crops, forestry and rangeland by fungus-growing termites (Termitidae: Macrotermitinae) in Ethiopia. Sociobiology 15, 139153.Google Scholar
Crowther, F. & Barlow, H.W.B. (1943) Tap-root damage of cotton, ascribed to termites, in the Sudan Gezira. Empire Journal of Experimental Agriculture 11, 99112.Google Scholar
Dalziel, J.M. (1937) The useful plants of west tropical Africa being an appendix to the flora of west tropical Africa. 612 pp. London, Crown Agents for the Colonies.Google Scholar
Danthanarayana, W. & Vitarana, S.I. (1987) Control of the live-wood tea termite Glyptotermes dilatatus using Heterorhabditis sp. (Nemat.). Agriculture, Ecosystems and Environment 19, 333342.CrossRefGoogle Scholar
Darlington, J.P.E.C. (1982a) The underground passages and storage pits used in foraging by a nest of the termite Macrotermes michaelseni in Kajiado, Kenya. Journal of Zoology 198, 237247.CrossRefGoogle Scholar
Darlington, J.P.E.C. (1982b) Population dynamics in an African fungus-growing termite. pp. 5458in Breed, M.D., Michener, C.D. & Evans, H.E. (Eds) The biology of social insects. Boulder, Westview Press.Google Scholar
Darlington, J.P.E.C. (1985) Multiple primary reproductives in the termite Macrotermes michaelseni (Sjöstedt). pp. 187200in Watson, J.A.L., Okot-Kotber, B.M. & Noirot, C. (Eds) Caste differentiation in social insects. Oxford, Pergamon Press.CrossRefGoogle Scholar
Dastur, J.F. (1954) Useful plants of India and Pakistan. 260 pp. Bombay, Taraporevala Sons and Co. Ltd.Google Scholar
Dawkins, H.C. (1949) Timber planting in the Terminalia woodland of northern Uganda. Empire Forestry Review 28, 226247.Google Scholar
De Bont, A.-F. (1964) Termites et densité d'oiseaux. pp. 273283in Bouillon, A. (Ed.) Etudes sur les termites Africains. Léo-poldville, Editions de l'Université.Google Scholar
Deligne, J., Quennedy, A. & Blum, M.S. (1981) The enemies and defense mechanisms of termites. pp. 176in Hermann, H.R. (Ed.) Social Insects. Volume II. London, Academic Press.Google Scholar
Drummond, R.B. & Palgrave, K.C. (1973) Common trees of the highveld. Harare, Longman Zimbabwe. 99 pp.Google Scholar
Ebeling, W. & Forbes, C.F. (1988) Sand barriers for subterranean termite control. The IPM Practitioner 10(5), 16.Google Scholar
Ebeling, W. & Pence, R.J. (1957) Relation of particle size to the penetration of subterranean termites through barriers of sand or cinders. Journal of Economic Entomology 50, 690692.CrossRefGoogle Scholar
Edwards, R. & Mill, A.E. (1986) Termites in Buildings. 261 pp. East Grinstead, Rentokil.Google Scholar
El Amin, E.M., Ishag, H.M. & Burhan, H.O. (1983) Important factors affecting the yield of groundnuts (Arachis hypogaea L.) in the Sudan. Zeitschrift für Angewandte Zoologie 70, 3955.Google Scholar
El Bakri, A., Eldein, N., Kambal, M.A., Thomas, R.J. & Wood, T.G. (1989) Effect of fungicide-impregnated food on the viability of fungus combs and colonies of Microtermes sp. nr. albopartitus (Isoptera: Macrotermitinae). Sociobiology 15, 175180.Google Scholar
Emerson, A.E. (1945) The neotropical genus Syntermes (Isoptera: Termitidae) Bulletin of the American Museum of Natural History 83, 427471.Google Scholar
Epila, J.S.O. & Ruyooka, D.B.A. (1988) Cultural method of controlling termite attacks on cassava (Manihot esculenta) with Vitex doniana: a preliminary study. Sociobiology 14, 291297.Google Scholar
Epsky, N.D. & Capinera, J.L. (1988) Efficacy of the entomogenous nematode Steinernema feltiae against a subterranean termite, Reticulitermes tibialis (Isoptera: Rhinotermitidae). Journal of Economic Entomology 81, 13131317.CrossRefGoogle Scholar
FAO (Food and Agriculture Organization of the United Nations) (1985) Methods of termite control in exotic forestry plantations on the Fouta Djallon, Guinea Republic. 15 pp. FAO Technical Report FO:DP/GUI/82/003.Google Scholar
Farghal, A.I., Darwish, Y.A. & Abdel Galil, F.A. (1987) Relative susceptibility of four insect species to some bacterial insecticides. Assiut Journal of Agricultural Sciences 18, 2130.Google Scholar
Ferron, P. (1978) Biological control of insect pests by entomogenous fungi. Annual Review of Entomology 23, 409442.CrossRefGoogle Scholar
Fowler, H.G. (1989) An epizootic iridovirus of Orthoptera (Gryllotalpidae: Scapteriscus borellii) and its pathogenicity to termites (Isoptera: Cryptotermes). Revista de Microbiologia 20, 115120.Google Scholar
Fox, R.E. (1974) Check list of tree species of known susceptibility to termite attack in the Darwin region of the Northern Territory. Technical Note, Forestry & Timber Bureau; Canberra. No. 9, 21 pp.Google Scholar
Fuller, C. (1912) White ants in Natal. 13 pp. Pretoria, Union of South Africa Department of Agriculture.Google Scholar
Fujii, J.K. (1975) Effects of an entomogenous nematode, Neoaplectana carpocapsae Weiser, on the Formosan subterranean termite, Coptotermes formosanus Shiraki, with ecological and biological studies on C. formosanus. 179 pp. PhD Thesis, University of Hawaii.Google Scholar
Gaugler, R. & Boush, G.M. (1979) Laboratory tests on ultraviolet protectants of an entomogenous nematode. Environmental Entomology 8, 810813.CrossRefGoogle Scholar
Georgis, R. & Hague, N.G.M. (1981) A neoaplectanid nematode in the larch sawfly Cephalia lariciphila (Hymenoptera: Pamphiliidae). Annals of Applied Biology 99, 171177.CrossRefGoogle Scholar
Georgis, R. & Poinar, G.O. (1983) Effect of soil texture on the distribution and infectivity of Neoaplectana glaseri (Nematoda: Steinernematidae). Journal of Nematology 15, 329332.Google ScholarPubMed
Georgis, R., Poinar, G.O. & Wilson, A.P. (1982) Susceptibility of damp-wood termites and soil and wood-dwelling termites to the entomogenous nematode Neoaplectana carpocapsae. IRCS Medical Science: Biochemistry; Biomedical Technology; Environmental Biology and Medicine; Experimental Animals; Microbiology, Parasitology and Infectious Diseases 10, 563.Google Scholar
Gerrits, R. & van Latum, E.B.J. (1988) Plant-derived pesticides in developing countries—possibilities and research needs. 104 pp. The Hague, Netherlands' Ministry of Housing, Physical Planning and Environment.Google Scholar
Giridhar, G., Vasudevan, S. & Vasudevan, P. (1988) Antitermites properties of Calotropis latex. Pesticides 22(1), 3133.Google Scholar
Gibbs, A.J., Gay, F.J. & Wetherly, A.H. (1970) A possible paralysis virus of termites. Virology 40, 10631065.CrossRefGoogle Scholar
Grainge, M. & Ahmed, S. (1988) Handbook of plants with pest-control properties. 470 pp. New York, Wiley.Google Scholar
Grassé, P.-P. 1982. Termitologia, Volume I. 676 pp. Paris, Masson.Google Scholar
Grassé, P.-P. 1984. Termitologia, Volume II. 613 pp. Paris, Masson.Google Scholar
Grassé, P.-P. 1986. Termitologia, Volume III. 715 pp. Paris, Masson.Google Scholar
Greaves, T., Armstrong, G.F., McInnes, R.S. & Dowse, J.E. (1967) Timber losses caused by termites, decay, and fire in two coastal forests in New South Wales. Technical Paper Division of Entomology, C.S.I.R.O., Australia No. 7, 418.Google Scholar
Greenfield, J.C. (1989) Moisture conservation in rainfed agriculture in developing countries. Rural Development in Practice 1, 56.Google Scholar
Gueye, N. & Lepage, M. (1988) Role des termites dans de jeunes plantations d'Eucalyptus du Cap-Vert (Senegal). Actes des Colloques Insectes Sociaux 4, 345352.Google Scholar
Hanel, H. & Watson, J.A.L. (1983) Preliminary field tests on the use of Metarhizium anisopliae for the control of Nasutitermes exitiosus (Hill) (Isoptera: Termitidae). Bulletin of Entomological Research 73, 305313.CrossRefGoogle Scholar
Hansen, M. (1987) Escape from the pesticidal treadmill: alternatives to pesticides in developing countries. 185 pp. New York. Institute for Consumer Policy.Google Scholar
Harborne, J.B. (1988) Introduction to ecological biochemistry. Third edition. 356 pp. London, Academic Press.Google Scholar
Harris, W.V. (1955) Termites and forestry. Empire Forestry Review 34, 160166.Google Scholar
Harris, W.V. (1969) Termites as pests of crops and trees. London, 41 pp. Commonwealth Institute of Entomology.Google Scholar
Harris, W.V. (1971) Termites. Their recognition and control. Second Edition. 186 pp. London, Longmans.Google Scholar
Hegh, E. (1922) Les Termites. 756 pp. Brussels, Imprimerie Industrielle et Financiére.Google Scholar
Hewitt, P.H. & Nel, J.J.C. (1969) Toxicity and repellancy of Chrysocoma tenuifolia (Berg) (Compositae) to the harvester termite Hodotermes mossambicus (Hagen) (Hodotermitidae). Journal of the Entomological Society of Southern Africa 32, 133136.Google Scholar
Honigberg, B.M. (1970) Protozoa associated with termites and their role in digestion. pp. 136in Krishna, K. & Weesner, F.M. (Eds) Biology of Termites, Volume II. London, Academic Press.Google Scholar
Horn, D.J. (1988) Ecological approach to pest management. 285 pp. London, Elsevier.Google Scholar
ICFR (Institute of Commercial Forestry Research) (1986) Studies on the incidence and control of termites in plantations. pp. 7274 in, Forest Protection, the 1986 Annual Report of the Institute of Commercial Forestry Research. Pretoria, Institute of Commercial Forestry ResearchGoogle Scholar
Jack, R.W. (1913) Termites or “white ants”. Bulletin of the Rhodesia Department of Agriculture; No. 139, 16 pp.Google Scholar
Jacobson, M. (1975) Insecticides from plants. A review of the literature, 1954–1971. 138 pp. Handbook of the United States Department of Agriculture No. 461, 138 pp.Google Scholar
Jacobson, M. (1982) Neem research in the US Department of Agriculture: chemical, biological and cultural aspects. pp. 33–12 in Schmutterer, H., Ascher, K.R.S. & Rembold, H. (Eds) Natural pesticides from the neem tree (Azadirachta indica A. Juss). Eschborn, Gesellschaft für Technische Zusammenarbeit.Google Scholar
Jafri, R.H., Ahmad, M. & Idrees, K. (1976) Microsporidian infection in the workers of termite, Microcerotermes championi. Pakistan Journal of Zoology 8, 234236.Google Scholar
Johnson, R.A. & Gumel, M.H. (1981) Termite damage and crop loss studies in Nigeria—the incidence of termite-scarified groundnut pods and resulting kernel contamination of field and market samples. Tropical Pest Management 27, 343350.CrossRefGoogle Scholar
Johnson, R.A., Lamb, R.W. & Wood, T.G. (1981) Termite damage and crop loss studies in Nigeria—a survey of damage to groundnuts. Tropical Pest Management 27, 325342.CrossRefGoogle Scholar
Jones, T. (1985) Forest pests and diseases. pp. 249272in Haskell, P.T. (Ed.) Pesticide application: principles and practice. Oxford, Clarendon press.Google Scholar
Kakaliyev, K. & Saparliyev, K. (1975) @Research in pathogenicity of entobacterine for controlling termites in nature.] Izvestiya Akademii Nauk Turkmenskoi SSR (Seriya Biologicheskikh Nauk) 6, 3941. (in Russian).Google Scholar
Kakde, J.R. (1985) Sugarcane production. 384 pp. New Delhi, Metropolitan.Google Scholar
Kalshoven, L.G.E. (1954) Survival of Neotermes colonies in infested teak trunks after girdling or felling of the trees (second communication). Tectona 43, 5974.Google Scholar
Kashyap, R.K., Verma, A.N. & Bhanot, J.P. (1984) Termites of plantation crops, their damage and control. Journal of Plantation Crops 12, 110.Google Scholar
Khan, K.I., Fazal, Q. & Jafri, R.H. (1977a) Pathogenicity of locally discovered Bacillus thuringiensis strain to the termites: Heterotermes indicola (Wassman) and Microcerotermes championi (Snyder). Pakistan Journal of Scientific Research 29, 1213.Google Scholar
Khan, K.I., Fazal, Q., Jafri, R.H. & Ahmad, M. (1977b) Susceptibility of various species of termites to a pathogen, Serratia marcescens. Pakistan Journal of Scientific Research 29, 4647.Google Scholar
Khan, K.I., Fazal, Q. & Jafri, R.H. (1978) Development of Bacillus thuringiensis in a termite, Heterotermes indicola (Wassman). Pakistan Journal of Science 30, 117119.Google Scholar
Khan, K.I., Jafri, R.H. & Ahmad, M. (1981) Role of trophallaxis in the dispersal of radioactive 1131 and of bacterial infections in the termite, Bifiditermes beesoni. Material und Organismen 16, 189197.Google Scholar
Khan, K.I., Jafri, R.H. & Ahmad, M. (1985) The pathogenicity and development of Bacillus thuringiensis in termites. Pakistan Journal of Zoology 17, 201209.Google Scholar
Kooyman, C. & Onck, R.F.M. (1987) Distribution of termite (Isoptera) species in southwestern Kenya in relation to land use and the morphology of their galleries. Biology and Fertility of Soils 3, 6973.Google Scholar
Krishna, K. & Weesner, F.M. (1969) Biology of termites. Volume I. 598 pp. London, Academic Press;Google Scholar
Krishna, K. & Weesner, F.M. (1970) Biology of termites. Volume II. 643 pp. London, Academic Press.Google Scholar
Krishnamoorthy, C. & Ramasubbiah, K. (1962) Termites affecting cultivated crops in Andhra Pradesh and their control: retrospect and prospect. pp. 243245 in, Termites in the humid tropics. Paris, UNESCO.Google Scholar
Kruuk, H. & Sands, W.A. (1972) The aardwolf (Proteles cristatus Sparrman, 1783) as predator of termites. East African Wildlife Journal 10, 211227.CrossRefGoogle Scholar
Kumarasinghe, N.C. & Ranasinghe, M.A.S.K. (1988) Incidence of termite damage in sugar cane grown in Sri Lanka. Beiträge zur Tropischen Landwirtschaft und Veterinärmedizin 26, 303307.Google Scholar
Lal, R. (1987) Tropical ecology and physical edaphology. 732 pp. Chichester, Wiley.Google Scholar
Lee, K.E. & Wood, T.G. (1971) Termites and soils. 251 pp. London, Academic Press.Google Scholar
Lin, T.-S. & Wang, C.-L. (1988) The anti-termite properties of extracts from Melia azedarach Linn. Bulletin of the Taiwan Forestry Research Institute, New Series 3, 255261.Google Scholar
Litsinger, J.A., Price, E.C. & Herrera, R.T. (1978) Filipino farmer use of plant parts to control rice insect pests. International Rice Research Newsletter 3(5), 1516.Google Scholar
Logan, J.W.M. & Abood, F. (1990) Laboratory trials on the toxicity of hydramethylnon (Amdro; AC 217, 300) to Reticulitermes santonensis Feytaud (Isoptera: Rhinotermitidae) and Microtermes lepidus Sjöstedt (Isoptera: Termitidae). Bulletin of Entomological Research 80, 1926.CrossRefGoogle Scholar
Logan, J.W.M. & El Bakri, A. (1990) Termite damage to date palms (Phoenix dactylifera L.) in northern Sudan with particular reference to the Dongola district. Tropical Science 30, 95108.Google Scholar
Longhurst, C., Johnson, R.A. & Wood, T.G. (1978) Predation by Megaponera foetens (Fabr.) (Hymenoptera: Formicidae) on termites in the Nigerian southern Guinea savanna. Oecologia 32, 101107.CrossRefGoogle ScholarPubMed
Longhurst, C., Johnson, R.A. & Wood, T.G. (1979) Foraging, recruitment and predation by Decamorium uelense (Sanstchi) (Formicidae: Myrmicinae) on termites in southern Guinea savanna, Nigeria. Oecologia 38, 8391.CrossRefGoogle ScholarPubMed
Lund, A.E. (1971) Microbial control of termites. pp. 385386in Burges, H.D. & Hussey, N.W. (Eds) Microbial control of insects and mites. London, Academic Press.Google Scholar
McCaw, W.L. (1984) Wood defect associated with fire scars on jarrah Eucalyptus marginata. Ausralian Forest Research 13, 261266.Google Scholar
MacGregor, W.D. (1950) Termites, soil and vegetation. Forestry Abstracts 12, 16.Google Scholar
Majer, J.D. (1986) Utilizing economically beneficial ants. pp. 168in Vinson, S.B. (Ed.) Economic impact and control of social insects. New York, Praeger.Google Scholar
Mclndoo, N.E. (1945) Plants of possible insecticidal value. A review of the literature up to 1941. 286 pp. Washington, United States Department of Agriculture.CrossRefGoogle Scholar
McMahan, E.A. (1986) Beneficial aspects of termites. pp. 144164in Vinson, S.B. (Ed.) Economic impact and control of social insects. New York, Praeger.Google Scholar
Malaka, S.L.O. (1972) Some measures applied in the control of termites in parts of Nigeria. Nigerian Entomologists' Magazine 2, 137141.Google Scholar
Malaret, L. & Ngoru, F.N. (1989) Ethno-ecology: a tool for community based pest management. Farmer knowledge of termites in Machakos District, Kenya. Sociobiology 15, 197211.Google Scholar
Martin, M.M. (1987) Invertebrate-microbial interactions. 148 pp. Ithaca, Cornell University Press.Google Scholar
Matthews, G.A. (1989) Cotton insect pests and their management. 199 pp. Longman; Harlow, UK.Google Scholar
Matthews, G.A., Rowell, J.G. & Beeden, P. (1972) Yield and plant development of reduced cotton stands in Malawi. Experimental Agriculture 8, 3348.CrossRefGoogle Scholar
May, P.D. (1986) Controlled release pesticides control termites. Australian Centre for International Agricultural Research, Forestry Newsletter 2, 4.Google Scholar
Mercer, P.C. (1978) Pests and diseases of groundnuts in Malawi. III. Wilts, post-harvest, physiological and minor disorders. Oléagineux 33, 619624.Google Scholar
Midgley, S.J. & Weerawardane, N.D.R. (1986) Termite control in Sri Lanka. Australian Centre for International Agricultural Research, Forestry Newsletter 2, 34.Google Scholar
Milstein, P. Le G. (1964) Birds and agriculture. Lantern 14, 4044.Google Scholar
Misari, S.M. & Raheja, A.K. (1976) Notes on field pests of groundnuts in Northern Nigeria. pp. 5769 in Minutes of the International Symposium on Field Pests of Groundnut and Millet. Kaolack, Senegal 21–23 April 1976. Lagos, African Groundnut Council.Google Scholar
Mitchell, M.R., Gwaze, D.P. & Stewart, H.T.L. (1986) Termite susceptibility of Australian trees in Zimbabwe. Australian Centre for International Agricultural Research, Forestry Newsletter 2, 2.Google Scholar
Mitchell, M.R., Gwaze, D.P. & Stewart, H.T.L. (1987) Survival and early growth of Australian tree species planted at a termite-infested site in Zimbabwe. East African Agricultural and Forestry Journal 54, 251259.CrossRefGoogle Scholar
Mix, J. (1985) Beal's research shows nematodes don't control subterranean termites. Pest Control 53 (2), 2223.Google Scholar
Mix, J. (1986) Nematodes flunk again. Pest Control 54 (3), 4854.Google Scholar
Moldenhauer, W.C. & Hudson, N.W. (1988) Conservation farming on steep lands. 296 pp. Ankeny, Iowa, Soil and Water Conservation Society.Google Scholar
Moore, B.P. (1965) Pheromones and insect control. Australian Journal of Science 28, 243245.Google Scholar
Nair, K.S.S. & Varma, R.V. (1981) Termite control in eucalypt plantations. Kerala Forest Research Institute. Research Report No. 6, 48 pp.Google Scholar
Nair, K.S.S. & Varma, R.V. (1985) Some ecological aspects of the termite problem in young eucalypt plantations in Kerala, India. Forest Ecology and Management 12, 287303.CrossRefGoogle Scholar
Nel, J.C.C. & Hewitt, P.H. (1969) A study of the food eaten by a field populations of the harvester termite, Hodotermes mossambicus (Hagen) (Isoptera, Hodotermitidae), and its relation to population density. Journal of the Entomological Society of Southern Africa 32, 123131.Google Scholar
Nickle, W.R. (1984) Plant and insect nematodes. 925 pp. New York, Marcel Dekker.Google Scholar
Nutting, W.L. (1969) Flight and colony foundation. pp. 233282in Krishna, K. & Weesner, F.M. (Eds) Biology of termites, Volume I. London, Academic Press.CrossRefGoogle Scholar
O'Brien, R.W. & Slaytor, M. (1982) Role of microorganisms in the metabolism of termites. Australian Journal of Biological Science 35, 239262.CrossRefGoogle Scholar
Ohiagu, C.E. & Wood, T.G. (1976) a method for measuring rate of grass-harvesting by Trinervitermes geminatus (Wasmann) (Isoptera, Nasutitermitinae) and observation on its foraging behaviour in southern Guinea savanna, Nigeria, Journal of applied Ecology 13, 705713.CrossRefGoogle Scholar
Otto, H. (1951) Harvester ants don't like water. Simple control method discovered on Free State farm. The Farmer's Weekly April 25, 1951, 1013.Google Scholar
Page, R.Z. (1967) Termite control by induced epizootics of entomophagous microorganisms. United States Patent Office Number 3, 337, 395. 3 pp.Google Scholar
Painter, R.H. (1951) Insect resistance in crop plants. 520 pp. New York, Macmillan.Google Scholar
Parihar, D.R. (1985) Crop termite damage in Indian desert and its control in castor. Zeitschrift für Angewandte Zoologie 72, 309315.Google Scholar
Parry, M.S. (1959) Control of termites in Eucalyptus plantations. Empire Forestry Review 38, 287292.Google Scholar
Pearce, M.J. (1987) Seals, tombs, mummies, and tunnelling in the drywood termite Cryptotermes (Isoptera: Kalotermitidae). Sociobiology 13, 217226.Google Scholar
Pearson, E.O. (1958) The insect pests of cotton in tropical Africa. 355 pp. London, Empire Cotton Growing Corporation and Commonwealth Insititute of Entomology.Google Scholar
Perry, D.H., Lenz, M. & Watson, J.A.L. (1985) Relationships between fire, fungal rots and termite damage in Australian forest trees. Australian Forestry 48, 4653.CrossRefGoogle Scholar
Poinar, G.O. (1975) Entomogenous nematodes. 317 pp. Leiden, Brill.CrossRefGoogle Scholar
Poinar, G.O. (1979) Nematodes for biological control of insects. 277 pp. Boca Raton, Florida, CRC press.Google Scholar
Pomeroy, D.E. (1983) A striking increase in a population of termite mounds in eastern Kenya. Kenya Journal of Science and Technology Series B 4, 8996.Google Scholar
Popenoe, P. (1973) The date palm. 247 pp. Miami, Field Research Projects.Google Scholar
Rajagopal, D. (1982) Relative incidence of termites on exotic species of Eucalyptus in Karnataka. Myforest 18, 913.Google Scholar
Rao, G.N. (1951) Control of termites in sugarcane. Current Science 20, 330331.Google Scholar
Rasheedunisa, (1986) Preliminary investigations on some chemical constituents of pod shell in relation to resistance of groundnut cultivars against termites. Journal of Oilseeds Research 3, 195200.Google Scholar
Ratcliffe, F.N. & Cummins, J.E. (1939) Termite (white ant) research in Australia. Empire Forestry Journal 18, 221228.Google Scholar
Raymundo, S.A. (1986) Traditional pest control practices in West Africa. IRRI Newsletter, 11(1), 24.Google Scholar
Reddy, M.V. & Sammaiah, C. (1988) Odontotermes brunneus (Hagen) (Termitidae: Isoptera) as a new pest of maize and groundnut. Entomon 13, 4750.Google Scholar
Reese, K.M. (1971) Navy fights Formosan termite in Hawaii. Chemical and Engineering News 49, 52.CrossRefGoogle Scholar
Ripper, E.E. & George, L. (1965) Cotton pests of the Sudan. 345 pp. Oxford, Blackwell.Google Scholar
Roonwal, M.L. (1979) Termite life and termite control in tropical south Asia. 177 pp. Jodhpur, Scientific Publishers.Google Scholar
Rudman, P. & Gay, F.J. (1967) The causes of natural durability in timber. Pt. XXI The anti-termitic activity of some fatty acids, esters and alcohols. Holzforschung 21, 2426.CrossRefGoogle Scholar
Saeki, I., Sumimato, M. & Kondo, T. (1973) The termiticidal substances from the wood of Chamaecyparis pisifera D. Don. Holzforschung 27, 9396.CrossRefGoogle Scholar
Sands, W.A. (1961) Foraging behaviour and feeding habits in five species of Trinervitermes in West Africa. Entomologia Experimentalis et Applicata 4, 277288.CrossRefGoogle Scholar
Sands, W.A. (1965) A revision of the termite subfamily Nasutitermitinae (Isoptera, Termitidae) from the Ethiopian region. Bulletin of the British Museum (Natural History) Entomology. Supplement 4, 172 pp.CrossRefGoogle Scholar
Sands, W.A. (1969) The association of termites and fungi. pp. 495524. in Krishna, K. & Weesner, F.M. (Eds) Biology of termites, Volume I. London, Academic Press.CrossRefGoogle Scholar
Sands, W.A. (1973a) Termites as pests of tropical food crops. Pest Articles and News Summaries 19, 167177.Google Scholar
Sands, W.A. (1973b) Termites as tree and crop pests. Mededelingen Fakulteit Landbouwwetenschappen, Gent 38, 817830.Google Scholar
Sands, W.A. (1976) Visit to Sri Lanka to study termite (Kalotermitidae) damage to tea 12–18 October 1975. Report No. CVR/76/1. 27 pp. London, Centre for Overseas Pest Research.Google Scholar
Sands, W.A. (1977) The role of termites in tropical agriculture. Outlook on Agriculture 9, 136143.CrossRefGoogle Scholar
Schmiege, D.C. (1963) The feasibility of using a neoplectanid nematode for control of some forest insect pests. Journal of Economic Entomology 56, 427431.CrossRefGoogle Scholar
Secoy, D.M. & Smith, A.E. (1983) Use of plants in control of agricultural and domestic pests. Economic Botany 37, 2857.CrossRefGoogle Scholar
Sen-Sarma, P.K. (1986) Economically important termites and their management in the Oriental region. pp. 69102in Vinson, S.B. (Ed.) Economic impact and control of social insects. New York, Praeger.Google Scholar
Sheppe, W. (1970) Invertebrate predation on termites of the African savanna. Insectes Sociaux 17, 205218.CrossRefGoogle Scholar
Sieber, R. (1985) Replacement of reproductives in Macrotermitinae (Isoptera, Termitidae). pp. 201207in Watson, J.A.L., Okot-Kotber, B.M. & Noirot, C. (Eds) Caste differentiation in social insects. Oxford, Pergamon Press.CrossRefGoogle Scholar
Singla, M.L., Duhra, M.S. & Aulakh, M.S. (1988) Varietal resistance in sugarcane to Scirpophaga excerptalis Wlk. and Odontotermes spp. Journal of Insect Science 1, 99101.Google Scholar
Sithanantham, S. (in press) Studies on soil pests associated with groundnuts in Zambia. Proceedings of the 10th International Soil Zoology Colloquium, Bangalore, 7–13 August, 1988.Google Scholar
Sivapalan, P., Senaratne, K.A.D.W. & Karunaratne, A.A.C. (1977) Observations on the occurrence and behaviour of live-wood termites (Glyptotermes dilatatus) in low-country tea fields. Pest Articles and News Summaries 23, 58.Google Scholar
Sivapalan, P., Karunaratne, A.A.C. & Jayatilleke, D.G.S. (1980) Clonal susceptibility and the influence of shade trees on the incidence of Glyptotermes dilatatus (Bugnion & Popoff) (Isoptera: Kalotermitidae) in tea. Bulletin of Entomological Research 70, 145149.CrossRefGoogle Scholar
Smith, E.S.C. (1985) A review of relationships between shade types and cocoa pest and disease problems in Papua New Guinea. Papua New Guinea Journal of Agriculture, Forestry and Fisheries 33, 7988.Google Scholar
Smithers, R.H.N. (1971) The mammals of Botswana. Museum memoir No. 4. 340 pp. National Museums of Rhodesia; Salisbury.Google Scholar
Smythe, R.V. & Coppel, H.C. (1965) The susceptibility of Reticulitermes flavipes (Kollar) and other termite species to an experimental preparation of Bacillus thuringiensis Berliner. Journal of Invertebrate Pathology 7, 423426.CrossRefGoogle Scholar
Smythe, R.V. & Coppel, H.C. (1966) Pathogenicity of externally occurring fungi to Reticulitermes flavipes. Journal of Invertebrate Pathology 8, 266267.CrossRefGoogle ScholarPubMed
Snyder, T.E. (1926) Preventing damage by termites or white ants. Farmers' Bulletin No. 1472. 22 pp. United States Department of Agriculture, Washington.Google Scholar
Snyder, T.E. (1956) Annotated, subject-heading bibliography of termites 1350 B.C. to A.D. 1954. Smithsonian Miscellaneous Collections 130, 1305.Google Scholar
Snyder, T.E. (1961) Supplement to the annotated, subject-heading bibliography of termites 1955 to 1960. Smithsonian Miscellaneous Collections 143(3), 1137.Google Scholar
Snyder, T.E. (1968) Second supplement to the annotated, subject-heading bibliography of termites 1961 to 1965. Smithsonian Miscellaneous Collections 152(3), 1188.Google Scholar
Srivastava, K.P. & Butani, D.K. (1987) Insect pests of tea in India and their control. Pesticides 21(2), 1621.Google Scholar
Steyn, P. (1967) Crop content of crowned Guinea-fowl Numida meleagris. Ostrich 38, 286.Google Scholar
Stoll, G. (1986) Natural crop protection. 188 pp. Langen, West Germany, Josef Margraf.Google Scholar
Su, N.-Y., Tamashiro, M., Yates, J.R. & Haverty, M.I. (1982) Effect of behaviour on the evaluation of insecticides for prevention of or remedial control of the formosan subterranean termite. Journal of Economic Entomology 75, 188193.CrossRefGoogle Scholar
Sudheendrakumar, V.V. & Chacko, K.C. (1986) Effect of site preparation on incidence of termites in Eucalyptus plantations. pp. 364366in Sharma, J.K., Nair, C.T.S., Kedharnath, S. & Kondas, S. (Eds) Eucalypts in India: past, present and future. Peechi, India, Kerala Forest Research Insititute.Google Scholar
Tamashiro, M., Yates, J.R. & Ebesu, R.H. (1987a) The Formosan subterranean termite in Hawaii: problems and control. pp. 1522in Tamashiro, M. & Su, N.-Y. (Eds) Biology and control of the Formosan subterranean termite. Honolulu, Hawaii Institute of Tropical Agriculture and Human Resources.Google Scholar
Tamashiro, M., Yates, J.R., Ebesu, R.H. & Yamamoto, R.T. (1987b) The Formosan termite: Hawaii's most damaging insect. Hawaii Architect 16(12), 1214, 40.Google Scholar
Tarr, S.A.J. (1960) The effects of fungicide-insecticide seed treatments on emergence, growth and yield of irrigated cotton in the Sudan Gezira. Annals of Applied Biology 48, 591600.CrossRefGoogle Scholar
Thiollay, J.-M. (1970) L'exploitation par les oiseaux des essaimages de fourmis et termites dans une zone de contact savane-foret en Cote-d'Ivoire. Alauda 38, 255273.Google Scholar
Tho, Y.P. (1974) The termite problem in plantation forestry in Peninsular Malaysia. Malaysian Forester 37, 278283.Google Scholar
Tho, Y.P. (1982) Gap formation by the termite Microcerotermes dubius in lowland forests of Peninsular Malaysia. Malaysian Forester 45, 184192.Google Scholar
Thomas, R.J. (1987a) Distribution of Termitomyces and other fungi in the nests and major workers of several Nigerian Macrotermitinae. Soil Biology and Biochemistry 19, 335341.CrossRefGoogle Scholar
Thomas, R.J. (1987b) Factors affecting the distribution and activity of fungi in the nests of Macrotermitinae (Isoptera). Soil Biology and Biochemistry 19, 343349.CrossRefGoogle Scholar
Tilak, B.D. (1977) Pest control strategy in India. pp. 99109in McFarlane, N.R. (Ed.) Crop protection agents—their biological evaluation. London, Academic Press.Google Scholar
Tryon, H. (1903) White ants. Queensland Agricultural Journal 13, 284285.Google Scholar
Tschesche, R., Wulff, G., Weber, A. & Schmidt, H. (1970) Frass-hemmende Wirkung von Saponinen auf Termiten (Isoptera, Reticulitermes). Zeitschrift für Naturforschung 25, 9991001.CrossRefGoogle ScholarPubMed
Usher, G. (1974) A dictionary of plants used by man. 619 pp. London, Constable.Google Scholar
Verma, A.N. (1980) Effect of number of irrigations on termite damage in wheat crop. Haryana Agricultural University Journal of Research 10, 564565.Google Scholar
Waller, D.A. & LaFage., J.P. (1987) Food quality and foraging response by the subterranean termite Coptotermes formosanus Shiraki (Isoptera: Rhinotermitidae). Bulletin of Entomological Research 77, 417424.CrossRefGoogle Scholar
Wardell, D.A. (1987) Control of termites in nurseries and young plantations in Africa: established practices and alternative courses of action. Commonwealth Forestry Review 66, 7789.Google Scholar
Webb, D.B., Wood, P.J., Smith, J.P. & Henman, G.S. (1984) A guide to species selection for tropical and sub tropical plantations. Tropical Forest Papers Number 15 (2nd edition). 256 pp. Oxford, Commonwealth Forestry Institute.Google Scholar
Weidner, T. (1983) Spear termiticide: a new era in biological warfare. Pest Control 51(11), 7280.Google Scholar
Wessels, N.O. (1984) Afforestation of marginal land for commercial timber production in South Africa. South African Forestry Journal 130, 5458.CrossRefGoogle Scholar
Wigg, L.T. (1946) Durability of some East African timbers. East African Agricultural Journal 12, 90100.CrossRefGoogle Scholar
Wilkinson, H. (1940) Termites in East Africa. II. The biology and control of termites damaging grassland. East African Agricultural Journal 6, 6772.CrossRefGoogle Scholar
Williams, R.M.C. (1965) Infestation of Pinus caribaea by the termite Coptotermes niger Snyder. 12th International Congress of Entomology, London, 8–16 July, 1964. 675676.Google Scholar
Willis, J.C. (1973) A dictionary of the flowering plants and ferns. Eighth edition. 1245 pp. Cambridge, Cambridge University Press.Google Scholar
Wood, B.J. (1968) Pests of oil palms in Malaysia and their control. 204 pp. Kuala Lumpur, The Incorporated Society of Planters.Google Scholar
Wood, T.G. (1978) Food and feeding habits of termites. pp. 5580in Brian, M.V. (Ed.) Production ecology of ants and termites. Cambridge, Cambridge University Press.Google Scholar
Wood, T.G., Bednarzik, M. & Aden, H. (1987) Damage to crops by Microtermes najdensis (Isoptera, Macrotermitinae) in irrigated semi-desert areas of the Red Sea coast. 1. The Tihama region of the Yemen Arab Republic. Tropical Pest Management 33, 142150.CrossRefGoogle Scholar
Wood, T.G. & Cowie, R.H. (1988) Assessment of on-farm losses in cereals in Africa due to soil insects. Insect Science and its Application 9, 709716.Google Scholar
Wood, T.G. & Johnson, R.A. (1978) Abundance and vertical distribution in soil of Microtermes (Isoptera, Termitidae) in savanna woodland and agricultural ecosystems at Mokwa, Nigeria. Memorabilia Zoologica 29, 201213.Google Scholar
Wood, T.G. & Johnson, R.A. (1986) The biology, physiology, and ecology of termites. pp 168. in Vinson, S.B. (Ed.) Economic impact and control of social insects. New York, Praeger.Google Scholar
Wood, T.G. & Sands, W.A. (1978) The role of termites in ecosystems. pp. 245292in Brian, M.V. (Ed.) Production ecology of ants and termites. Cambridge, Cambridge University Press.Google Scholar
Wood, T.G. & Thomas, R.J. (1989) The mutualistic association between Macrotermitinae and Termitomyces. pp. 6992in Wilding, N., Collins, N.M., Hammond, P.M. & Webber, J.F. (Eds) Insect-fungus interactions. London, Academic Press.CrossRefGoogle Scholar
Wood, T.G., Johnson, R.A. & Ohiagu, C.E. (1977) Populations of termites (Isoptera) in natural and agricultural ecosystems in southern Guinea savanna near Mokwa, Nigeria. Geo-Eco-Trop 1, 139148.Google Scholar
Wood, T.G., Johnson, R.A. & Ohiagu, C.E. (1980a) Termite damage and crop loss studies in Nigeria—a review of termite (Isoptera) damage to maize and estimation of damage, loss in yield and termite (Microtermes) abundance at Mokwa. Tropical Pest Management 26, 241253.CrossRefGoogle Scholar
Wood, T.G., Smith, R.W., Johnson, R.A. & Komolafe, P.O. (1980b) Termite damage and crop loss studies in Nigeria—pre-harvest losses to yams due to termites and other soil pests. Tropical Pest Management 26, 355370.CrossRefGoogle Scholar
Wylie, F.R. & Peters, B.C. (1987) Development of contingency plans for use against exotic pests and diseases of trees and timber. 2. Problems with the detection and identification of pest insect introductions into Australia, with special reference to Queensland. Australian Forestry 50, 1623.CrossRefGoogle Scholar
Yamin, M.A. (1980) Cellulose metabolism by the termite flagellate Trichomitopsis termopsidis. Applied and Environmental Microbiology 39, 859863.CrossRefGoogle ScholarPubMed
Yaga, S. (1973) Termiticidal activity of immature fruit juice from papaya. Mokuzai Gakkaishi 19, 349350.Google Scholar
Yara, K., Jahana, K. & Hayashi, H. (1989) In situ morphology of the gut microbiota of the fungus–growing termite Odontotermes formosanus (Termitidae Macrotermitinae). Sociobiology 15, 247260.Google Scholar
Yendol, W.G. & Rosario, S.B. (1972) Laboratory evaluation of methods for inoculating termites with entomophthoraceous fungi. Journal of Economic Entomology 65, 10271029.CrossRefGoogle Scholar
Zaheer, K., Iqbal, H. & Rehman, L. (1987) Isolation and characterisation of termite repellents from the needle of Pinus rox-burgii. International Pest Control 29 (4), 8789.Google Scholar