Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-23T04:10:36.916Z Has data issue: false hasContentIssue false

Termite (Isoptera) damage and control in tropical forestry with special reference to Africa and Indo-Malaysia: a review

Published online by Cambridge University Press:  10 July 2009

Robert H. Cowie
Affiliation:
Overseas Development Natural Resources Institute, Central Avenue, Chatham Maritime, Chatham Kent, ME4 4TB, UK
James W. M. Logan
Affiliation:
Overseas Development Natural Resources Institute, Central Avenue, Chatham Maritime, Chatham Kent, ME4 4TB, UK
T. G. Wood
Affiliation:
Overseas Development Natural Resources Institute, Central Avenue, Chatham Maritime, Chatham Kent, ME4 4TB, UK

Abstract

Termite damage is a major problem in tropical forestry especially where exotic tree species are used. Stressed tress are generally the most susceptible to attack. Dry-wood termites (Kalotermitidae) live and feed in dead wood but sometimes attack living parts of mature trees; generally, they are pests only in the humid tropics, causing local but sometimes serious damage. Coptotermes (Rhinotermitidae) causes more widespread and serious damage to mature trees, especially in Malaysia and Australia. The most serious losses (up to 100%), due predominantly to various Macrotermitinae (Termitidae) such as Macrotermes, Odontotermes and Microtermes, occur in young, exotictrees such as Eucalyptus in dry regions in Africa and India. Chemical control of dry-wood termites is not feasible; use of resistant trees is probably the only satisfactory strategy. Control of Coptotermes by various methods has been suggested; but only insecticide injection into nests within affected trunks (Australia) and destruction of nests with explosives prior to planting, followed by destruction of queens in subsequently located nests (Papua New Guinea), are effective and economically viable. Attack on seedings, especially by Macrotermitinae in Africa and India, can be prevented by the increasingly unacceptable persistent cyclodienes used as mound poisons or as a barrier around the roots preventing attack by subterranean species. Controlled-release formulations of otherwise non-persistent insecticides are being development but are expensive and not widely available. Many non-chemical measures have been suggested, but none has been rigorously evaluated; none will provide the almost complete protection afforded by cyclodienes. Biological control shows little promise. Use of resistant tree species and development of resistant varieties offers the only long-term solution, but until these are available there will be a need to continue using cyclodienes or rapidly to develop alternative control methods.

Type
Review Articles
Copyright
Copyright © Cambridge University Press 1989

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

Abood, F. (1984). Laboratory evaluation of an amidinohydrazone insecticide on Recticulitermes santonensis (Feytaud) (Isoptera, Rhinotermitidae).—104 pp. M. Sc. thesis, Univ. London.Google Scholar
Agbogba, C. & Roy-Noël, J. (1982). L'attaque des arbres par les termites dans la presqu'île du Cap-Vert (Sénégal). III. Cas du parc forestier de Darkar-Hann sur sables ogoliens.—Bull. Inst. Fond. Afr. Noire (A) 44, 341364.Google Scholar
Bacchus, S. (1987). A taxonomic and biometric study of the genus Cryptotermes (Isoptera: Kalotermitidae).—91 pp. London, Trop. Dev. Res. Inst. (Trop. Pest Bull. no. 7).Google Scholar
Beeson, C. F. C. (1941). A guide to the control of termites for forest officers.—Indian For. Rec. 4, 4787.Google Scholar
Brown, K. W. (1965). Termite control research in Uganda (with special reference to the control of attacks in Eucalyptus plantations).—E. Afr. agric. For. J. 31, 218223.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 Dev. Cent.Google Scholar
Browne, F. G. (1968). Pests and diseases of forest plantation trees.—1330 pp. Oxford, Clarendon Press.Google Scholar
Chan, H. H. (1983). Recovery of graded sawn timber from Araucaria cunninghamii thinnings.—Malay. Forester 46, 463467.Google Scholar
Cooper, P. A. & Grace, J. M. (1987). Association of the eastern subterranean termite, Reticulitermes flavipes (Kollar) (Isoptera: Rhinotermitidae), with living trees in Canada.—J. Entomol. Sci. 22, 353354.Google Scholar
Cowie, R. H. & Wood, T. G. (in press). Damage to crops, forestry and rangeland by fungus-growing termites (Termitidae: Macrotermitinae) in Ethiopia.—Sociobiology.Google Scholar
Danthanarayana, W. & Fernando, S. N. (1970). A method of controlling termite colonies that live within plants.—Int. Pest. Contr. 12, 1014.Google Scholar
Danthanarayana, W. & Vitarana, S. I. (1987). Control of the live-wood tea termite Glyptotermes dilatatus using Heterorhabditis sp. (Nemat.).—Agric. Ecosystems & Environment 19, 333342.Google Scholar
Darlington, J. P. E. C. (1982). The underground passages and storage pits used in foraging by a nest of the termite Macrotermes michaelseni in Kajiado, Kenya.—J. Zool., Lond. 198, 237247.Google Scholar
Dhanarajan, G. (1969). The termite fauna of Malaya and its economic significance.—Malay. Forester 32, 274278.Google Scholar
Dhanarajan, G. (1982). Insect pests and plantation forestry in Southeast Asia.—pp. 307310 in Srivastava, P. B. L., Ahmad, A. M., Awang, K., Muktar, A., Kader, R. A., Che'Yom, F. & See, L. S. (Eds). Tropical forests. Source of energy through optimisation and diversification.—397 pp. Malaysia, Penerbit University Pertanian.Google Scholar
Edwards, R.. & Mill, A. E. (1986). Termites in buildings.—261 pp. East Grinstead, UK, Rentokil.Google Scholar
El Bakri, A. (1986). Foraging activity and fungicidal control of the fungus-growing termites, Microtermes (Macrotermitinae) in Sudan.—406 pp. Ph.D. Thesis, Univ. Khartoum.Google Scholar
Elliott, H. J.. & Bashford, R. (1984). Incidence and effects of the dampwood termite, Porotermes adamsoni, in two Tasmanian east coast eucalypt forests.—Aust. For. 47, 1115.CrossRefGoogle Scholar
Esenther, G. R.. & Beal, R. H.. (1978). Insecticidal baits on field plot perimeters suppress Reticulitermes.—J. econ. Ent. 71, 604607.Google Scholar
Evans, J.. (1986). Plantation forestry in the tropics—trends and prospects.—Int. Tree Crops J. 4, 315.Google 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. Rome, FAO (FAO Tech. Rep. FO: DP/GUI/82/003).Google Scholar
Fernando, H. E. (1962). Termites of economic importance in Ceylon.—pp. 205210 in Termites in the humid tropics.—259 pp. Paris, UNESCO.Google Scholar
French, J. R. J. (1986). Termites and their economic importance in Australia.—pp. 103129 in Vinson, S. B. (Ed.). Economic impact and control of social insects.—422 pp. New York, Praeger.Google Scholar
Gao, D., Zhu, B., Gan, B., He, S.. & Yuan, S. (1985). A new toxic bait for the control of forest-infested termites [in Chinese].—J. Nanjing Inst. For. 1985, 128131.Google Scholar
Gay, F. J., (1969). Species introduced by man.—pp. 459494 in Krishna, K. & Weesner, F. M. (Eds). Biology of termites. Volume I.—598 pp. New York & London, Academic Press.CrossRefGoogle Scholar
Grainger, A. (1986). Deforestation and progress in afforestation in Africa.—Int. Tree Crops J. 4, 3348.Google Scholar
Gray, B. & Buchter, J. B. (1969). Termite eradication in Araucaria plantations in New Guinea.— Commonw. For. Rev. 48, 201207.Google Scholar
Greaves, T. (1959). Termites as forest pests.—Aust. For. 23, 114120.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.—Tech. Pap. Div. Ent. C.S.I.R.O. Aust. no. 7, 418.Google Scholar
Greaves, T., McInnes, R. S. & Dowse, J. E. (1965). Timber losses caused by termites, decay and fire in an alpine forest in New South Wales.—Aust. For. 29, 161174.Google Scholar
Greaves, T., McInnes, R. S. & Dowse, J. E. (1967). The control of termites (Coptotermes spp.) in blackbutt (Eucalyptus pilularis).—Tech. Pap. Div. Ent. C.S.I.R.O. Aust. no. 7, 3543.Google Scholar
Hänel, H.Watson, J. A. L. (1983). Preliminary field tests on the use of Metarhizium anisopliae for the control of Nasutitermes exitiosus (Hill) (Isoptera: Termitidae).—Bull. ent. Res. 73, 305313.Google Scholar
Harris, W. V. (1955). Termites and forestry.—Emp. For. Rev. 34, 160166.Google Scholar
Harris, W. V. (1966). The role of termites in tropical forestry.—Insectes soc. 13, 255265.Google Scholar
Harris, W. V., (1969). Termites as pests of crops and trees.—41 pp.London, Commonw. Inst. Ent.Google Scholar
Harris, W. V., (1971). Termites. Their recognition and control.—2nd edn186 pp. London, Longman.Google Scholar
Hickin, N. E., (1971). Termites. A world problem.— 222 pp. London, Hutchinson.Google Scholar
ICFR (INSTITUTE OF COMMERCIAL FORESTRY RESEARCH) (1986)Studies on the incidence and control of termites in plantations. —pp. 7274in Institute of Commercial Forestry Research, South Africa, Annual Report 1986.Google Scholar
Ingram, C. L., (1984). The afforestation of dambos and lateritic soils in Malawi.—S. Afr. For. J. 130, 4153.Google Scholar
Jones, T. (1985). Forest pests and diseases. — pp. 249272in Haskell, P. T.Pesticide application: principles and practice. — 494 pp. Oxford, Clarendon Press.Google Scholar
Joyce, C. (1988). The tree that caused a riot.—New Scient. 117, 5459.Google Scholar
Kakaliev, K. & Saparliev, K. (1975). A study of the pathogenicity of Entobakterin to termites in nature [in Russian].—Izv. Akad. Nauk turkmen. SSR, Biol. Nauk no. 6, 3941.Google Scholar
Kalshoven, L. G. E. (1963). Coptotermes curvignathus causing the death of trees in Indonesia and Malaya..—Ent. Ber., Amst. 23, 90100.Google Scholar
Khan, K. I., Jafri, R. H. & Ahmad, M. (1985). The pathogenicity and development of Bacillus thuringiensis in termites.—Pak. J. Zool. 17, 201209.Google Scholar
Khan, K. I., Qaisra, F., Jafri, R. H. & Ahmad, M. (1977). Susceptibility of various species of termites to a pathogen, Serratia marcescensPakist. J. scient. Res. 29, 4647.Google Scholar
Lee, K. E. & Wood, T. G. (1971)Termites and soils. — 251 pp. London & New York, Academic Press.Google Scholar
MacGregor, W. D. (1950). Termites, soil and vegetation.—For. Abstr. 12, 38.Google Scholar
Mampe, C. D. (1988). Making the right choice.— 56 (3), 3436.Google Scholar
Mauldin, J., Jones, S. & Beal, R. (1987). Viewing termiticides.—Pest Control 55 (10), 4659.Google Scholar
May, P. D. (1986). Controlled release pesticides control termites.—For. Newsl. Aust. Cent. Int. Agric. Res. no.2, 4.Google Scholar
McCaw, W. L. (1984). Wood defect associated with fire scars on jarrah Eucalyptus marginata.—Aust. For. Res. 13, 261266.Google Scholar
Midgley, S. J. & Weerawardane, N. D. R. (1986). Termite control in Sri Lanka.—For. Newsl. Aust. Cent. Int. Agric. Res. no.2, 34.Google Scholar
Mitchell, M., Gwaze, D. & Stewart, H. (1986). Termite susceptibility of Australian trees in Zimbabwe.—For. Newsl. Aust. Cent. Int. Agric. Res. no.2, 2.Google Scholar
Mix, J. (1985). Beal's research shows nematodes don't control subterranean termites.—Pest Control 53, 2223.Google Scholar
Nair, K. S. S. & Varma, R. V. (1981). Termite control in eucalypt plantations.— 48 pp. Kerala Forest Res. Inst. (Res. Rep. no. 6).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 & Management 12, 287303.Google Scholar
Nair, K. S. S., Varma, R. V., Karunakaran, C. K. & Muhammad, E. & Chandbasha, S. (Eds) (1986). Field trials for controlling termites in eucalypt plantations.—pp. 356363in Sharma, J. K., Nair, C. T. S., Kedharnath, S. & Kondas, S. (Eds). Eucalypts in India: past, present and future521 pp. Peechi, India, Kerala Forest Res. Inst.Google Scholar
Nakajima, S. & Shimizu, K. (1959). A note on the Formosan white ant injuring Japanese cedars[ in Japanese].—Bull. Fac. Agric. Univ. Miyazaka 4, 261266.Google Scholar
Page, R. Z. (1967). Termite control by induced epizootics of entomophagous microoranisms3 pp. United States Patent Office no. 3, 3,37,395.Google Scholar
Parihar, D. R. (1978). Field observation on the nature and extent of damage by Indian desert termites and their controlAnn. Arid. Zone 17, 192199.Google Scholar
Parihar, D. R.. (1981). Termites affecting Eucalyptus plantations and their control in the arid region of Indian.—Z, angew Ent. 92, 106111.Google Scholar
Parry, M. S. (1959). Control of termites in Eucalyptus plantations.—Emp. For. Rev. 38, 287292.Google Scholar
Patel, R. M. (1962). Control of BHC formulations on the control of field termites in Gujarat.—pp. 219221 in Termites in the humid tropics259 pp. Paris, UNESCO.Google Scholar
Paton, R. & Miller, L. R. (1980). Control of Mastotermes darwiniensis Froggatt (Isoptera: Mastotermitidae) with mirex baits.—Aust. For. Res. 10, 249258.Google Scholar
Pearce, M. J. (1987), Seals, tombs, mumies, and tunnelling in the drywood termite Cryptotermes (Isoptera: Kalotermitidae),—Sociobiogy 13, 217226.Google Scholar
Perry, D. H., Lenz, M. & Watson, J. A. L.. (1985). Relationships between fire, fungal rots and termite damage in Australian forest treesAust. For. 48, 4653.CrossRefGoogle Scholar
Pimentel, D., Dazhong, W., Eigenbrode, S., Lang, H., Emerson, D. & Karasik, M. (1986), Deforestation: interdepandency of fuelwood and agricultureOikos 46, 404412.Google Scholar
Rajagopal, D. (1982). Relative incidence of termites on exotic species of Eucalyptus in Karnataka.—Myforest 18, 913.Google Scholar
Rajagopal, D., Veeresh, G. K. & Kushalappa, K. A. (1980), Anti termite treatment in the establishment of Eucalyptus seedling.—Myforest 16, 127130.Google Scholar
Roonwal, M. L. & Rathore, N. S. (1978). Bioecological and econmical observations on termites of Peninsular India.—Z. angew. Ent. 85, 1530.Google Scholar
Roonwal, M. L. & Rathore, N. S. (1984). New termite pests of eucalyptus in India and their control.—Z. angew. Ent. 98. 225230.Google Scholar
Sandlant, G. R. (1985). Coptotermes acinaciformis (Froggatt), Coptotermes frechi Hill (Isoptera: Rhinotermitidae). Australian subterranean termites in New Zealand—8 pp. (Forest and Timber Insects In New Zealand no. 62).Google Scholar
Sands, W. A. (1962). The evaluation of in insecticides as soil and mound poisons aganist termits in agriculture and forestry in West AfricaBull. ent. Res. 53, 179192.Google Scholar
Sands, W. A. (1973). Termites s tree and crop pestsMeded. Rijksfac. Landbouwwet. Gent 38, 817830.Google Scholar
Sands, W. A. (1977). The role of termites in tropical agriculture.—Outl. Agric. 9, 136143.CrossRefGoogle Scholar
Schönau, A. P. G. & Purnell, R. C. (1987). A different approach to site evaluation and some preliminary results.—S. Afr. For. J. 141. 1925.Google Scholar
Sen-Sarama, P. K. (1986). Economically important termites and their management in the Oriental Region—pp. 69102 in Vinson, S. B. (Ed.). Economic impact and control of social insects422 pp. New York, Praeger.Google Scholar
Shah, S. A. (1985). Eucalyptus — friends or foe?Int. Tree Crops J 3, 191195.Google Scholar
Sharma, J. K., Nair, C. T. S., Kedharnath, S., & Kondas, S. (Eds) (1986). Eucalypts in India—past, present and future521 pp. Peechi, India, Kerala Forest Res. Inst.Google Scholar
Smythe, R. V. & Coppell, H. C. (1966). Pathogenicity of externally occcurring fungi to Reticulitermes flavipesJ. Invertebr. Pathol. 8, 266267.Google Scholar
Srivastava, P. B. L., Ahmad, A. M., Awang, K., Muktar, A., Kader, R. A., Che'Yom, F. & See, L.S. (Eds) (1982). Tropical forests, Source of Energy throught Optimisation and diversification.—397 pp. Malaysia, Penerbit Universiti Pertanian.Google Scholar
Su, N. Y., Thamashiro, M. & Haverty, M. I. (1987). Characterization of slow-acting insecticides for the remedial control of the Formosan subterranean termite (Isoptera: Rhinotermitidae).—J. econ. Ent. 80, 14.Google Scholar
Su, N. Y., Tamashiro, M., Yates, J. R. & Haverty, M. I. (1982), Effect of behavior on the evalution of insectcides for prevention of or remedial control of the Formosan subterranean termite.—J. econ. Ent. 75, 188193.Google Scholar
Sudheendrakumar, V. V. & Chacko, K. C. (1986). Effect of site preparation on incidence of termites in Eucalyptus plantations—pp. 364366 in Sharma, J. K., Kedarnath, S. & Kondas, S. (Eds). Eucalypts in India—past, present and future521 pp. Peechi, India, Kerala Forest Res. Inst.Google Scholar
Thakur, R. K. (1985). Pests status of termites in Gujarat, India (Insecta: Isoptera).—Indian J. For. 3, 3740.Google Scholar
Thekur, M. L. & Sen-Sarma, P. K. (1980). Current status of termites as pests of forest nurseries and plantations in Indian.—J. Indian Acad. Wood Sci 11, 715.Google Scholar
Tho, Y. P. (1974), The termite problem in plantion forestes in Peninsular Malaysia.—Malay. Forester 37, 278283.Google Scholar
Tho, Y. P. (1982). Gap formation by the termite Microcertermes dubius in lowland forest of Peninsular Malaysia.—Malay. Forester 45, 184192.Google Scholar
Thomas, R. J. (1984). Report on a visit to Kassala, Republic of Sudan to investigate termite damage to tree crops 5th-9th November, 198310 pp. London, Trop. Dev. Res. Inst. (Rep. no. CVR 84/5).Google Scholar
Turnbull, J. W. (Ed.) (1987). Australian acacias in developing countries, Proceedings of an international workshop held at the Forestry Trainnig Centre, Gympie, Queensland, Australia, 4–7 August 1986196 pp. Canberra, Aust. Cent. Int. Agric. Res.Google Scholar
United Nations (1987). Consolidated list of products whose consumption and/or sale have been banned, withdrawn, severely restricted or not approved by governments. Second Issue655 pp. New York, United Nations (United Nations Publ. ST/ESA/192).Google Scholar
Wardell, D. A,. (1987), Control of termites in nurseries and young plantations in Africa: established paratices and alternative courses of action.—Commonw. For. rev. 66, 7789.Google Scholar
Watson, J. A. L. & Barrett, R. A. (1981). Termites in the Canberra Region38 pp. Canberra, Commonw. Scient. Ind. Res. Org.Google Scholar
Way, M.J. & Bevan, D. (1977). Dilemmas in forest pest and disease management—pp. 95111 in Perring, F. H., & Mellanby, K. (Eds). Ecological effects of pesticides193 pp. London, Academic Press (Linnean Soc. Symp. Ser. no. 5).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 plantations256 pp. Oxford. Commonw. For. Inst. (Trop. Forest Papers no. 15 (2trh edn)).Google Scholar
Wessels, N. O. (1984). Afforestation of marginal land for commercial timber production in South Africa.—S. Afr. For. J. 130, 5458.Google Scholar
Williams, R. M. C. (1965). Termite infestation of pines in British Hounduras31 pp. London. HMSO (Minist. overseas Dev., overseas Res. Publ. No. 11).Google Scholar
Wood, T. G. (1978). Food and feeding habits of termite—pp. 5580 in brian, M. V. (Ed.).production ecology of ants termites409 pp. Cambridge Univ. Press.Google Scholar
Wood, T. G., Bednazik, 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 republicTrop. Past. Management 33, 142150.Google 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. & Kambal, M. A. (1986). Research on the ecology and control of termites of agricultural importances in the Sudan. progress Report, 1981–1985.—25 pp.London, Trop. Dev. Res. Inst (Rep. no. R1304 (S)).Google Scholar
Wylie, F. R. & Peters, B. C. (1987). Development of contingency plans for use against excotic pests and diseases of trees and timber. 2. problems with the dection and identification of pest insect introductions into Australia, with special reference to Queensland.—Aust. For. 50, 1623.Google Scholar