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Feeding preferences of Coptotermes heimi (Isoptera: Termitidae) under laboratory and field conditions for different commercial and non-commercial woods

Published online by Cambridge University Press:  29 May 2014

Khalid Zamir Rasib*
Affiliation:
Biology Department, Forman Christian College University, Lahore54600, Pakistan
Hina Ashraf
Affiliation:
Biology Department, Forman Christian College University, Lahore54600, Pakistan
*
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Abstract

Coptotermes heimi (Wasmann) is a termite widely present throughout Pakistan and causes detrimental effects in standing trees. In this study, the feeding preferences of C. heimi for 18 different wood species were determined through choice and no-choice trials under laboratory and field conditions. In no-choice laboratory trials, different combinations of wood blocks were used to determine wood consumption by C. heimi. Weight loss, consumption/individual and survival rate were evaluated. Populus euramericana was found to be the most susceptible wood species and Syzygium cumini the most resistant one. Nine different wood combinations were used under choice laboratory conditions; maximum feeding was recorded in P. euramericana and Pinus roxburghii (50.8–24.5 mg). However, minimum feeding was recorded in S. cumini (2 mg) and Tectona grandis (14.9 mg). Under no-choice field conditions, minimum feeding was recorded in S. cumini (9.5 mg) and maximum feeding in P. euramericana (60.5 mg). Under choice field conditions, maximum (58 mg) feeding was recorded in P. euramericana and minimum feeding in S. cumini. Feeding preferences in descending order based on wood consumption as a quantitative parameter documented were as follows: P. euramericana>Ailanthus excelsa>Azadirachta indica>P. roxburghii>Butea monosperma>Morus alba>Bauhinia variegata>Albizia lebbeck>Dalbergia sissoo>Heterophragma adenophyllum>Erythrina suberosa>Cassia fistula>T. grandis>Mangifera indica>Eucalyptus camaldulensis>Jacaranda mimosifolia>Bambusa bamboo>S. cumini.

Type
Research Papers
Copyright
Copyright © ICIPE 2014 

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References

Abe, T., Bignell, D. E. and Higashi, M. (2000) Termites: Evolution, Sociality, Symbiosis, Ecology. Kluwer Academic, Dordrecht/Norwell.Google Scholar
Abreu, R. L. S. and Silva, K. E. S. (2000) Resistência natural de dez espécies de madeiras da Amazônia ao ataque de Nasutitermes macrocephalus (Silvestre) e N. surinamensis (Holmgren) (Isoptera: Termitidae). Revista Árvore 24, 229234.Google Scholar
Afzal, M. (1981) Studies on biology of Bifiditermes beesoni (Gardner). PhD thesis, Punjab University, Lahore, Pakistan.Google Scholar
Ahmad, M. (1955) Termites of West Pakistan. Biologia 1, 202264.Google Scholar
Ahmed, M., Sheikh, K. H. and Jafri, R. H. (1979) Biology, pathology and distribution (in relation to soil condition) of termites of Pakistan. USDA Research Project No. 17-FS, 1424.Google Scholar
Ahmed, S., Ashraf, M. R., Hussain, M. A. and Riaz, M. A. (2009) Pathogenicity of isolates of Metarhizium anisopliae from Gujranwala (Pakistan) against Coptotermes heimi (Wasmann) (Isoptera: Rhinotermitidae). International Journal of Agricultural Biology 11, 707711.Google Scholar
Ahmed, S., Khan, R. R. and Riaz, M. A. (2007) Some studies on field performance of plant extracts against termites (Odontotermes guptai and Microtermes unicolor) in sugarcane at Faisalabad. International Journal of Agricultural Biology 9, 398400.Google Scholar
Ahmed, S., Mustafa, T., Riaz, M. A. and Hussain, A. (2006) Efficacy of insecticides on subterranean termites in sugarcane at Bhakkar. International Journal of Agricultural Biology 8, 508551.Google Scholar
Akhtar, M. S. (1972) Studies on the taxonomy and zoogeography of the termites of Pakistan. PhD thesis, University of the Punjab, Lahore.Google Scholar
Akhtar, M. S. (1974) New termites from Pakistan. Biologia 20, 2361.Google Scholar
Akhtar, M. S. (1975) Taxonomy and zoogeography of termites of Bangladesh. Bulletin of the Department of Zoology, University of the Punjab, article 7, 1–99.Google Scholar
Akhtar, M. S. (1983) Wood destroying termites (Isoptera) of Pakistan: Key to the most important species, their distribution and pattern of attack. Materials and Organisms, 277291.Google Scholar
Akhtar, M. S. and Ali, S. S. (1979) Wood preferences and survival of Coptotermes heimi (Wasmann) and Odontotermes obesus (Rambur) (Isoptera). Pakistan Journal of Zoology 11, 303314.Google Scholar
Akhtar, M. S. and Jabeen, M. (1981) Influence of specimen size on the amount of wood consumed by termites. Pakistan Journal of Zoology 13, 7984.Google Scholar
Akhtar, M. S. and Kausar, R. (1991) Effect of container volume, moisture content, temperature and matrix on survival and wood consumption of Coptotermes heimi (Wasmann) (Isoptera: Rhinotermitidae). Proceedings of Pakistan Journal of Zoology 11, 101106.Google Scholar
Akhtar, M. S. and Raja, Z. A. (1985) Survival and feeding responses of Bifiditermes beesoni (Gardner) to wood and wood extract of Albizzia procera and Bauhinia variegata. Pakistan Journal of Zoology 17, 363367.Google Scholar
Behr, E. A., Behr, L. F. and Wilson, L. F. (1972) Influence of wood hardness on feeding by the eastern subterranean termite, R. flavipes (Isoptera: Rhinotermitidae). Annals of the Entomological Society of America 65, 457460.Google Scholar
Breznak, J. A. (2000) Ecology of prokaryotic microbes in the guts of wood– and litter–feeding termites, pp. 209231. In Termites: Evolution, Sociality, Symbiosis, Ecology (edited by Abe, T., Bignell, D. E. and Higashi, M.). Kluwer Academic Publishers, Dordrecht.Google Scholar
Buchli, H. (1958) L'origine de castes et les potentialities ontogeniques des termites europeens due genera Reticulitermes. Annales des Sciences Naturelles. 12 eme Serie. Zoologie et Biologie Animale 20, 249263.Google Scholar
Bultman, D., Beal, R. H. and Ampong, F. F. K. (1979) Natural resistance of some tropical African woods to Coptotermes formosanus Shiraki. Forest Products Journal 29, 4651.Google Scholar
Bultman, D. and Southwell, C. R. (1976) Natural resistance of tropical American woods to terrestrial wood-destroying organism. Biotropica 8, 7195.Google Scholar
Carter, F. L. and Smythe, R. V. (1974) Feeding and survival responses of Reticulitermes flavipes (Kollar) to extractives of woods from 11 coniferous genera. Holzforschung 28, 4145.Google Scholar
Chaudhry, I. M. and Ahmad, M. (1972) Termites of Pakistan, identity, distribution and ecological relationships, pp. 13–19.Final Technical Report. Pakistan Forest Institute, Peshawar.Google Scholar
Chaudhry, M. I., Malik, N. K. and Arshad, M. (1978) Natural resistance of various timbers to the attack of Coptotermes heimi (Wasmann). Pakistan Journal of Forestry 28, 123126.Google Scholar
Eggleton, P. (2000) Global patterns of termite diversity, pp. 2551. In Termites: Evolution, Sociality, Symbioses, Ecology (edited by Abe, T., Bignell, D. E. and Higashi, M.). Kluwer Academic Publishers, Dordrecht.Google Scholar
Esenther, G. R. (1977) Nutritive supplement method to evaluate resistance of natural or preservative-treated wood to subterranean termites. Journal of Economic Entomology 70, 341346.Google Scholar
Gao, D. R., Lam, P. K. S. and Owen, P. T. (1990) The taxonomy, ecology and management of economically important termites in China, pp. 2361. In Pest Control into the 90s: Problems and Challenges (edited by Lam, P. K. S. and O'Toole, D. K.) Conference Proceedings, October 1990. Applied Science Department, City Polytechnic of Hong Kong. 221 pp.Google Scholar
Gentz, M. C., Rubinoff, D. and Grace, J. K. (2008) Phylogenetic analysis of subterranean termites (Coptotermes spp., Isoptera: Rhinotermitidae) indicates the origins of Hawaiian and North American invasions: potential implications for invasion biology. Hawaiian Entomological Society 40, 19.Google Scholar
Howick, C. D. (1975) Influence of specimen size, test period and matrix on the amounts of wood eaten by similar groups of laboratory termites. Proceedings of the British Wood Preservation Association, p. 13.Google Scholar
Inward, D. J. G., Beccaloni, G. and Eggleton, P. (2007) Death of an order: a comprehensive molecular phylogenetic study confirms that termites are eusocial cockroaches. Biology Letters 3, 331335.Google Scholar
Iqbal, N. and Saeed, S. (2013) Toxicity of six new chemical insecticides against the termite, Microtermes mycophagus D. (Isoptera: Termitidae: Macrotermitinae). Pakistan Journal of Zoology 45, 709713.Google Scholar
Kambhampati, S. and Eggleton, P. (2000) Taxonomy and phylogeny of termites, pp. 123. In Termites: Evolution, Sociality, Symbioses, Ecology (edited by Abe, T., Bignell, D. E. and Higashi, M.). Kluwer Academic Publishers, Dordrecht.Google Scholar
Klass, K. D., Nalepa, C. and Lo, N. (2008) Wood-feeding cockroaches as models for termite evolution (Insecta: Dictyoptera): Cryptocercus vs. Parasphaeria boleiriana. Molecular Biology and Evolution 46, 8098017.Google Scholar
Manzoor, F., Chaudhary, M. and Sheikh, N. (2011) Diversity and proportion of termite species in garden trees and wheat crop in District Bhakkar, Pakistan. Pakistan Journal of Zoology 43, 537541.Google Scholar
Manzoor, F. and Mir, N. (2010) Survey of termite infested houses, indigenous building materials and construction techniques in Pakistan. Pakistan Journal of Zoology 42, 693–670.Google Scholar
Manzoor, F., Rahim, S. M. A., Shiday, B. M. A., Malik, S., Habibpur, B., French, J. R. J. and Jabeen, F. (2010 a) Survey of termites in forests of Punjab: Pakistan. African Journal of Environmental Sciences and Technology 4, 790796.Google Scholar
Manzoor F., Sheikh N. and Zawar A. (2010b) Laboratory and field evaluation for the resistance of commonly used woods against Coptotermes heimi (Wasmann). Available from Nature Precedings: (http://hdl.handle.net/10101/npre.2010.4485.1).Google Scholar
Manzoor, F., Zameer, K., Malik, S. A., Cheema, K. J. and Rahmin, A. (2009) Comparative studies on two Pakistani Subterranean termites (Isoptera: Rhinotermitidae, Termitidae) for natural resistance and feeding preferences in laboratory and field trials. Sociobiology 53, 259274.Google Scholar
Martawijaya, A. (1996) Durability of wood and several factors that affect it, pp. 1–47. In Petunjuk Teknis. Lembaga Penelitian Hasil Hutan, Bogor.Google Scholar
Mauldin, J. K., Carter, F. L. and Rich, M. N. (1981) Protozoan populations by Reticulitermes flavipes (Kollar) exposed to heartwood samples of 21 American species. Material und Organismen 16, 1628.Google Scholar
Nagnan, P. and Clement, J. L. (1990) Terpenes from the maritime pine Pinus pinaster: toxins for subterranean termites of the genus Reticulitermes (Isoptera: Rhinotermitidae). Biochemical Systematics and Ecology 18, 1316.Google Scholar
Pearce, M. J. (1997) Termites: Biology and Pest Management. CAB International, New York.Google Scholar
Peralta, R. C. G., Menezes, B., Carvalho, A. G. and Aguiar, M. (2004) Wood consumption rates of forest species by subterranean termites under field conditions. Sociedade de Investigacoes Florestais 28, 283289.Google Scholar
Ramdev, A., Richa, and Sharma, M. L. (2013) Bioeffacy of two traditional botanical insecticides against subterranean termites (Coptotermes heimi). Indian Journal of Fundamental and Applied Life Sciences 3, 2428.Google Scholar
Rasib, K. Z. (2005) Studies on the biology of Microcerotermes championi (Snyder). PhD thesis, University of the Punjab, Lahore, Pakistan.Google Scholar
Rasib, K. Z. (2008) Feeding preferences of Microcerotermes championi (snyder) on different timbers dried at different temperatures under choice and no choice trials. Nature Preceding http://hdl.handle.net/10101/npre.2008.20481.Google Scholar
Roonwal, M. L. (1976) Termites of oriental region. In Biology of Termites (edited by Krishan, K. and Weesner, F. M.). New York. pp. 315391.Google Scholar
Sen-Sarma, P. K., Thakur, M. L., Misra, S. C. and Gupta, B. K. (1975) Studies on wood destroying termites in relation to natural termite resistance of timber. Final Technical Report. PL − 480 Project No. A7 − FS − 58, Grant No. Fe–IN − 477. Forest Research Institute & Colleges, Dehra Dūn. 187 pp.Google Scholar
Shahid, A. S. and Akhtar, M. S. (1989) Effect of volume and position of stakes on feeding by subterranean termites (Isoptera). Sociobiology 16, 99108.Google Scholar
Skolmen, R. G. (1974) Natural Durability of Some Woods Used in Hawaii. Results of 9½ Years' Exposure. Note PSW − 292. USDA Forest Service Research, Berkeley, California. 6 pp.Google Scholar
Smythe, R. V., Carter, F. L. and Baxter, C. C. (1971) Influence of wood decay on feeding and survival of the eastern subterranean termite Reticulitermes flavipes (Isoptera: Rhinotermitidae). Annals of the Entomological Society of America 64, 5962.Google Scholar
Su, N. Y. and Scheffrahn, R. H. (1998) A review of subterranean termite control practices and prospects for integrated pest management programmes. Integrated Pest Management Reviews 3, 113.Google Scholar
Su, N. Y. and Scheffrahn, R. H. (2000) Termites as pests of buildings, pp. 437453. In Termites: Evolution, Sociality, Symbiosis, Ecology (edited by Abe, T., Bignell, D. E. and Higashi, M.). Kluwer Academic Publishers, Dordrecht/Norwell.Google Scholar
Uys, V. (2002) A guide to the termite genera of southern Africa. Plant Protection Research Institute Handbook No. 15. Agricultural Research Council, Pretoria.Google Scholar
Uzunovic, A., Byrne, T., Gignac, M. and Yang, D. Q. (2008) Wood Discolorations and Their Prevention – With an Emphasis on Bluestain. Special Publication SP − 50. FPInnovations, Vancouver, British Columbia. 48 pp.Google Scholar
Vargo, E. L. and Husseneder, C. (2009) Biology of subterranean termite: insights from molecular studies of Reticulitermes and Coptotermes. Annual Review of Entomology 54, 379403.Google Scholar
Wang, J. and Grace, J. K. (1999) Current status of Coptotermes Wasmann (Isoptera: Rhinotermitidae) in China, Japan, Australia and the American Pacific. Sociobiology 33, 295305.Google Scholar
Wolcott, G. N. (1951) Termite repellent wood extractives. Journal of Agriculture, University of Puerto Rico 27, 224227.Google Scholar
Wood, T. G. (1978) Food and feeding habits of termites, pp. 5580. In Production Ecology of Ants and Termites (edited by Brian, M. V.). Cambridge University Press, Cambridge.Google Scholar