Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-27T11:44:03.287Z Has data issue: false hasContentIssue false

Vapour toxicity and repellency of some oils and terpenoids to the termite, Odontotermes brunneus

Published online by Cambridge University Press:  19 September 2011

R. N. Sharma
Affiliation:
Entomology, National Chemical Laboratory, Pune-411008, India
V. B. Tungikar
Affiliation:
Entomology, National Chemical Laboratory, Pune-411008, India
P. V. Pawar
Affiliation:
Entomology, National Chemical Laboratory, Pune-411008, India
P. H. Vartak
Affiliation:
Entomology, National Chemical Laboratory, Pune-411008, India
Get access

Abstract

Several terpenoids and oils were screened for vapour toxicity and repellency against the termite, Odontotermes brunneus. In toxicity tests, knockdown time KT50 and KT90 values were derived at 5 mg/cm2. For repellency screening, a new experimental setup was designed and effective time ET50 and ET90 values were determined at 2 mg/cm2. Among the compounds screened, eucalyptus oil produced the fastest knockdown (KT50 24.8 min) while β-ionone was found to be the least effective (KT50 536.0 min). Terpeneol (anhydrous) afforded maximum persistence of 338.0 min, whereas the least persistence was obtained from linalool (78.9 min) which prevented 50% of the population from crossing over the treated barrier (ET50).

Résumé

Plusiers terpenoïdes et huiles ont été passés au crible pour la toxicité de leurs vapeurs et le pouvoir répulsif contre le termite Odontotermes brunneus. Dans les essais de toxicité, les valeurs pour le temps knockdown KT50 et KT90 ont été déduites à 5 mg/cm2. Pour le test de répulsivité, un nouveau dispositif expérimental a été conçu et les valeurs de période d'efficacité ET50 et ET90 ont été déterminés à 2 mg/cm2. Parmi les composés passés au crible, l'huile d'eucalyptus a produit le knockdown le plus rapide (KT50 24,8 min) tandis que β-ionone s'est revélée la moins efficace (KT50 536,0 min). Le terpenol (anhydre) a donné une persistence maximale de 338,0 min, tandis que la plus faible persistence a été obtenue avec le linalool (78,9 min), lequel a empêché 50% de la population de franchir la barrière traitée (ET50).

Type
Research Articles
Copyright
Copyright © ICIPE 1994

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

Edwards, R. and Mill, A. F. (1986) Termites in Buildings. Rentokil Ltd., East Grinstead, UK.Google Scholar
Howick, C. D. and Creffield, J. W. (1975) The development of a standard laboratory bioassay technique with Mastotermes darconiensis Froggatt (Isoptera: Mastotermitidae). Z. Angew. Entomol. 78, 126138.CrossRefGoogle Scholar
Lewis, D. L., Michaels, G. E., Hays, D. B., Campbell, W. and Smith, V. (1978) Evaluation of the antitermite activity of hydroxy quinoline and naphthol derivative formulations using Reticulitermes in laboratory and field experiments. J. Econ. Entomol. 71, 818821.CrossRefGoogle Scholar
Osmun, J. V. (1956) The response of the eastern subterranean termite, Reticulitermes flavipes Kollar, to certain insecticides. Ph.D. Thesis, Univ. III., Urbana, III. 131 pp.Google Scholar
Rogers, J. A. (1981) Oils essential. In Encyclopedia of Chemical Technology (Edited by Grayson, M.), p. 1319. John Wiley and Sons, New York.Google Scholar
Rudman, P. and Gay, F. J. (1967) Wood quality in trees of teak: Assessment of decay and termite resistance. Silvae Generica 16, 102105.Google Scholar
Saeiki, I., Sumimoto, M. and Kondo, T. (1977) The role of essential oil in resistance of coniferous wood to termite attack. Holzforschung 25, 5760.CrossRefGoogle Scholar
Sharma, R. N. (1993) A watershed in termite control. Current Science 64, 208.Google Scholar
Smith, V. K. (1979) Improved techniques designed for screening candidate termiticides on soil in the laboratory. J. Econ. Entomol. 72, 877879.CrossRefGoogle Scholar
Vartak, P. H. and Sharma, R. N. (1993) Vapour toxicity and repellence of some essential oils and terpenoids to adults of Aedes aegypti (L.) (Diptera: Culicidae). Ind. J. Med. Res. 97, 122127.Google ScholarPubMed
Venugopal, R., Varma, R., Reghunandanan, V. R. and Ambika, B. (1981) Response of the subterranean termite Odontotermes guptai (Isoptera: Termitidae) to extracts of eucalypt root and certain other plant materials. KFRI Res. Rep. No. 6, Kerala For. Res. Inst. Peechi, Kerala, India. 284288.Google Scholar
Wood, T. G. (1979) Food and feeding habits of termites. In Production Ecology of Ants and Termites (Edited by Brian, M. V.), pp. 5580. Cambridge Univ. Press, London.Google Scholar
Zaheer, K., Iqbal, H. and Rehman, L. (1987) Isolation and characterization of termite repellents from the needles off. roxburgii. Int. Pest Control. 29, 8789.Google Scholar