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Food habits of sympatric termite species (Isoptera, Macrotermitinae) as determined by stable carbon isotope analysis in a Guinean savanna (Lamto, Côte d'Ivoire)

Published online by Cambridge University Press:  10 July 2009

Michel Lepage
Affiliation:
Ecole Normale Supérieure, Laboratoire d'Ecologie, CNRS, URA 258, 46 rue d'Ulm, 75230 Paris Cedex 05, France
Luc Abbadie
Affiliation:
Ecole Normale Supérieure, Laboratoire d'Ecologie, CNRS, URA 258, 46 rue d'Ulm, 75230 Paris Cedex 05, France
Andre Mariotti
Affiliation:
Université Pierre et Marie Curie, Laboratoire de Biogéochimie Isotopique, INRA – CNRS, URA 196, 4 place Jussieu, 75252 Paris Cedex 05, France

Abstract

The food habits of four hypogeous Macrotermitinae species were studied using stable carbon isotope analysis in several biotopes of a humid savanna of West Africa (Lamto, Côte d'Ivoire). The proportion of woody and herbaceous material in the diet of the different species was determined by measuring the 13C natural abundance in the fungus comb. The diet varied with season and biotope, especially tree density. The results confirm the flexibility of the food habits of the fungus-growing termites as a consequence of their exosymbiosis with the fungus Termitomyces sp.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1993

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References

LITERATURE CITED

Abbadie, L. 1984. Evolution saisonnière du stock d'azote dans la strate herbacée d'une savane soumise au feu en Côte-d'Ivoire. Acta Oecologica, Oecologia Plantarum 5(19):321334.Google Scholar
Abbadie, L. & Lepage, M. 1989. The role of subterranean fungus comb chambers (Isoptera, Macrotermitinae) in soil nitrogen cycling in a preforest savanna (Côte d'Ivoire). Soil Biology and Biochemistry 21:10671071.CrossRefGoogle Scholar
Boutton, T. W., Cameron, G. N. & Smith, B. N. 1978. Insect herbivory on C3 and C4 grasses. Oecologia (Berlin) 36:2132.CrossRefGoogle Scholar
Boutton, T. W., Smith, B. N. & Harrison, A. T. 1980. Carbon isotope ratios and crop analyses of Arphia (Orthoptera: Acrididae) species in Southeastern Wyoming grassland. Oecologia (Berlin) 45:299306.CrossRefGoogle ScholarPubMed
Boutton, T. W., Arshad, M. A. & Tieszen, L. L. 1983. Stable isotope analysis of termite food habits in East African grasslands. Oecologia (Berlin) 59:16.CrossRefGoogle ScholarPubMed
Buxton, R. D. 1981. Termites and the turn-over of dead wood in an arid tropical environment. Oecologia (Berlin) 51:379384.CrossRefGoogle Scholar
Collins, N. M. 1981. The role of termites in the decomposition of wood and leaf litter in the southern Guinea savanna of Nigeria. Oecologia (Berlin) 51:389399.CrossRefGoogle ScholarPubMed
Craig, H. 1957. Isotopic standards for carbon and oxygen and correction factors lor mass spectrometric analysis of carbon dioxide. Geochimica et Cosmochimica Acta 12:133149.CrossRefGoogle Scholar
De Niro, M. & Epstein, S. 1978. Influence of diet on the distribution of carbon isotopes in animals. Geochimica et Cosmochimica Acta 42:495506.CrossRefGoogle Scholar
Grasse, P. P. 1978. Sur la véritable nature et le rôle des meules á champignons construites par les termites Macrotermitinae. Comptes Rendus de l'Académie des Sciences (Paris) 287:12231226.Google Scholar
Josens, G. 1971. Le renouvellement des meules á champignons construites par quatre Macrotermitinae (Isoptères) des savanes de Lamto-Pacobo (Côte d'Ivoire). Comptes-Rendus de l'Académie des Sciences, Paris, 272:33293332.Google Scholar
Josens, G. 1974. Les termites de la savane de Lamto. In Analyse d'un écosystème tropical humide: la savane de Lamto (Côte d'Ivoire). V. Les organismes endogés. Bulletin de Liaison des Chercheurs de Lamto, no. spécial 5:91131.Google Scholar
Lepage, M. 1972. Recherches écologiques sur une savane sahélienne du Ferlo septentrional, Sénégal: données préliminaires sur l'écologie des termites. La Terre et la Vie 26:383409.Google Scholar
McConnaughey, T. & MacRoy, C. 1979. Food-web structure and the fractionation of carbon isotopes in the Bering Sea. Marine Biology 53:257262.CrossRefGoogle Scholar
Medina, E., Montes, G., Cuevas, E. & Rokzandic, Z. 1986. Profiles of CO2 concentration and δ13C values in tropical rain forests of the upper Rio Negro Basin, Venezuela. Journal of Tropical Ecology 2:207217.CrossRefGoogle Scholar
Menaut, J. C. & Cesar, J. 1979. Structure and primary productivity of Lamto savannas, Ivory Coast. Ecology 60:11971210.CrossRefGoogle Scholar
Monnier, Y. 1981. La poussière et la cendre. Paris, Agence de Coopération Culturelle et Technique, 252 pp.Google Scholar
Ohiagu, C. E. & Wood, T. G. 1979. Grass production and decomposition in Southern Guinea savanna, Nigeria. Oecologia (Berlin) 40:155165.CrossRefGoogle ScholarPubMed
Rohrmann, G. F. & Rossman, A. Y. 1980. Nutrient strategies of Macrotermes ukuzii (Isoptera: Termitidae). Pedobiologia 20:6173.CrossRefGoogle Scholar
Rouland, C., Lenoir, F. & Lepage, M. 1991. The role of the symbiotic fungus in the digestive metabolism of several species of fungus-growing termites. Comparative Biochemistry and Physiology, 99A:657663.CrossRefGoogle Scholar
Siegel, S. 1956. Nonparametric statistics for the behavioral sciences. Tokyo, MacGraw-Hill Kogakusha, 312 pp.Google Scholar
Smith, B. & Epstein, S. 1971. Two categories of 13C/12C ratios for higher plants. Plant Physiology 47:380384.CrossRefGoogle Scholar
Smith, B. N. & Brown, W. B. 1973. The Kranz syndrome in the Gramineae as indicated by carbon isotopic ratios. American Journal of Botany 60:505513.CrossRefGoogle Scholar
Tieszen, L. L., Hein, D., Qvortrup, S. A., Troughton, J. H. & Imbamba, S. K. 1979. Use of δ13C values to determine vegetation selectivity in East African herbivores. Oecologia (Berlin) 37:351359.CrossRefGoogle ScholarPubMed
Troughton, J. H. & Card, K. A. 1975. Temperature effects on the carbon-isotope ratio of C3, C4 and crassulacean-acid-metabolism (CAM) plants. Planta (Berlin) 123:185190.CrossRefGoogle ScholarPubMed