Hostname: page-component-78c5997874-mlc7c Total loading time: 0 Render date: 2024-11-15T03:27:19.810Z Has data issue: false hasContentIssue false

Carbohydrases in the alimentary canal of Amitermes evuncifer Silvestri (Isoptera: Termitidae: Termitinae)

Published online by Cambridge University Press:  19 September 2011

S. L. O. Malaka
Affiliation:
Department of Biological Sciences, University of Lagos, Akoka, Lagos, Nigeria
Get access

Abstract

Amylase, sucrase and cellulase were detected in the alimentary canals of workers and soldiers of Amitermes evuncifer Silvestri, but only sucrase and cellulase were found in the alimentary canal of the alates. Enzyme activities varied in different parts of the alimentary canal. That high enzyme activities were observed in the guts of the workers (than those of the soldiers) is due to the fact that the workers forage for food which they digest partially before feeding other members of the colony through trophallaxis. The presence of enzymes in the alimentary canals of alates and soldiers indicates that the partially digested food, from the workers, undergoes further digestion in their systems.

Résumé

On à decouvert dans le tube digestif des ouvriers at des soldats du genre Amitermes evuncifer Silvestri l'amylase, la sucrase et la cellulase; toutefois on n'a trouve que la sucrase et la cellulase dans les organes des ailés. Des effets de diastase se sont constates per différents endroits du tube digestif. Une forte proportion de sucrase et de cellulase par example a été constatée en plein milieu du boyau de l'ouvrier.

Qu'on à pu decouvrir des effets de diastase plus prononces dans le boyau des ouvriers qui'il n'en est chéz les soldats s'explique par le fait que les ouvriers fourragent l'aliment qui'il digerent en partie avant de nourrir d'autress membres de la colonie par trophallaxie. La presence de diastases dans le tube digestif des ailes et des soldats indique que l'aliment partiellement digère par les ouvriers est sounis a nouveau a la digestion dans leur système.

Type
Research Articles
Copyright
Copyright © ICIPE 1986

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

REFERENCES

Cleveland, L. R. (1923) Correlation between the food and morphology of termites and the presence of intestinal protozoa. Am. J. Hyg. 3, 444461.Google Scholar
Hestrin, S., Feingold, D. S. and Schramm, D. (1955) Hexeside hydrolases. In Methods in Enzymology (Edited by Colowick, S. P. and Kaplan, N.), Vol. 2, pp. 231257. Academic Press, New York.CrossRefGoogle Scholar
Hewitt, R. H., Retief, L. W. and Nel, J. J. C. (1974) Aryl-β-glycosidases in the heads of workers of the termite, Trinervitermes trimervoides. Insect Biochem. 4, 197203.CrossRefGoogle Scholar
Hungate, R. (1943) Further experiments on cellulose digestion by the protozoa in the rumen of cattle. Biol. Bull. 84, 157163.CrossRefGoogle Scholar
Kirby, H. (1932) Flagellates of the genus Trichonympha in termites. Biol. Bull. 37, 349–75.Google Scholar
Lee, K. E. and Wood, T. G. (1971) Termites and Soils. Academic Press, London.Google Scholar
Malaka, S. L. O. (1973a) Studies on some aspects of the biology and control of Nigerian termites with special reference to Amitermes evuncifer Silvestri (Isoptera, Termitidae, Amitermitinae). M.Phil. thesis.Google Scholar
Malaka, S. L. O. (1973b) Observations on termites in Nigeria. Nig. Fld J. 38, 2240.Google Scholar
Malaka, S. L. O. (1977a) A study of the chemistry and hydraulic conductivity of mound materials and soils from different habitats of some Nigeria termites. Aust. J. Soil Res. 15, 8791.CrossRefGoogle Scholar
Malaka, S. L. O. (1977b) A note on bulk density of termite mounds. Aust. J. Soil Res. 15, 9394.CrossRefGoogle Scholar
Malaka, S. L. O. (1980a) The reaction of Amitermes evuncifer Silvestri (Isoptera, Termitidae, Amitermitinae) towards the bodies of different insect species and their extracts. J. nat. Hist. 14, 339350.Google Scholar
Malaka, S. L. O. (1980b) Foraging behaviour of Amitermes evuncifer Silvestri (Isoptera, Termitidae, Amitermitinae). J. nat. Hist. 14, 351361.CrossRefGoogle Scholar
Malaka, S. L. O. (1983) Economic importance of termites: six case studies in Nigeria and Ghana. Nig. Fld J. 47, 222230.Google Scholar
Martin, M. M. and Martin, J. S. (1978) Cellulose digestion in the midgut of the fungus-growing termite Macrotermes natalensis. The role of acquired digestive enzymes. Science 199, 14531455.CrossRefGoogle ScholarPubMed
Noirot, C. H. and Noirot-Timothee, C. (1969) The digestive system. In Biology of Termites (Edited by Krishna, K. and Weesner, F. M.), Vol. I, pp. 4988. Academic Press, New York.CrossRefGoogle Scholar
Potts, R. C. and Hewitt, P. H. (1972) Some properties of an aryl-β−glucosidase from the harvester termite, Trinervitermes terinervoides. Insect Biochem. 2, 400408.CrossRefGoogle Scholar
Rao, K. P. (1962) Occurrence of enzymes for protein digestion in the termite Heterotermes indicola. In Proceedings of the New Delhi Symposium on Termites in the Humid Tropics, pp. 7177. UNESCO.Google Scholar
Retief, L. W. and Hewitt, P. H. (1973a) Digestive carbohydrases of the harvester termite Hodotermes mossambicus—X. Glucosidases. J. Insect Physiol. 19, 105113.CrossRefGoogle Scholar
Retief, L. W. and Hewitt, P. H. (1973b) Digestive β−glycosidases of the harvester termite, Hodotermes mossambicus: properties and distribution. J. Insect Physiol. 19, 18371847.CrossRefGoogle Scholar