Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-10T17:48:11.445Z Has data issue: false hasContentIssue false
  • English
  • Français

Repellent and insecticidal activities of Hyptis suaveolens (Lamiaceae) leaf essential oil against four stored-grain coleopteran pests

Published online by Cambridge University Press:  16 December 2009

A.K. Tripathi  and
Shikha Upadhyay
A.K. Tripathi*
Affiliation:
Central Institute of Medicinal and Aromatic Plants, P.O. CIMAP, Lucknow226015, India
Shikha Upadhyay
Affiliation:
Central Institute of Medicinal and Aromatic Plants, P.O. CIMAP, Lucknow226015, India
*
*E-mail: dr.arunktripathi@rediffmail.com; arunktripathi@yahoo.co.in
Get access

Abstract

We evaluated the contact toxicity, fumigant toxicity and repellency of the essential oil of Hyptis suaveolens (L.) leaves against adults of four stored-product coleopteran pests, namely Callosobruchus maculatus (Bruchidae), Rhyzopertha dominica (Bostrychidae), Sitophilus oryzae (Curculionidae) and Tribolium castaneum (Tenebrionidae). Four major compounds were identified in the oil by gas chromatography: sabinene (41.0%), terpinen-4-ol (12.31%), β-pinene (10.0%) and β-caryophyllene (8.0%). Oil concentrations of 0.05–2.0% were tested on adult coleopterans for contact toxicity by topical application. Repellency was evaluated at 0.4–18.3 mg/cm2 concentrations using an area preference test, whereas fumigant toxicity of the oil was tested both in air and admixed with grain at 1–50 μl/l air and 25–100 μl/l, respectively. Persistence of the oil admixed with grain was tested at 0.1–2.5% concentrations for a period of 40 days. Percentage repellence ranged from 20.0 to 94.7% at 5 h against the test insects at the highest dose tested (18.3 mg/cm2). Adults of C. maculatus were the most susceptible in both contact and fumigant toxicity assays, with an LD50 value of 57.0 μg/mg weight of insect and an LC50 value of 4.7 mg/l air, respectively. The oil had low persistence. H. suaveolens leaf essential oil may have potential as an alternative to the synthetic pesticides used in the treatment of grain in storage.

Keywords

stored graincoleopteran pestsHyptis suaveolens essential oilcontact toxicityfumigant toxicityrepellence
Type
Research Paper
Information
International Journal of Tropical Insect Science , Volume 29 , Issue 4 , December 2009 , pp. 219 - 228
Copyright
Copyright © ICIPE 2009

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

Abbott, W. S. (1925) A method of computing the effectiveness of an insecticide. Journal of Economic Entomology 18, 265267.CrossRefGoogle Scholar
Aggarwal, K. K., Tripathi, A. K., Ahmad, A., Prajapati, V., Verma, N. and Kumar, S. (2001) Toxicity of l-menthol and its derivative against four storage insects. Insect Science and Its Application 21, 229235.Google Scholar
Aguirre, C., Silvia, V. R., Guillermo, M. H., Arturo, R. D. and Alejandro, B. L. (2004) A novel 8.7 kDa protease inhibitor from chan seeds (Hyptis suaveolens L.) inhibits proteases from the larger grain borer Prostephanus truncatus (Coleoptera: Bostrichidae). Comparative Biochemistry and Physiology Part B 138, 8189.CrossRefGoogle ScholarPubMed
Ao Eta, S., Jean, C. V., Schmit, P., Ramaswamy, S. and Belanger, A. (2000) Effect of various essential oils on Callosobruchus maculatus (F.) (Coleoptera: Bruchidae). Journal of Stored Product Research 36, 355364.Google Scholar
Azhari, H. N., Elhussein, S. A., Osman, N. A. and Abduelrahman, H. N. (2009) Repellent activities of the essential oils of four Sudanese accessions of basil (Ocimum basilicum L.) against mosquito. Journal of Applied Sciences 9, 26452648.Google Scholar
Bell, C. H. and Wilson, S. M. (1995) Phosphine tolerance and resistance in Trogoderma granarium Everts (Coleoptera: Dermestidae). Journal of Stored Products Research 31, 199205.CrossRefGoogle Scholar
Busvine, J. R. (1980) Recommended methods for measurement of pest resistance to pesticides. FAO Plant Protection Paper 21. www.fao.org/docrep/x5048E/x5048E0m.htmS.Google Scholar
Chang, C. L., Cho, I. K. and Li, Q. X. (2009) Insecticidal activity of basil oil, trans anethole, estragole and linalool to adult fruit flies of Ceratitis capitata, Bactrocera dorsalis and Bactrocera cucurbitae. Journal of Economic Entomology 102, 203209.CrossRefGoogle ScholarPubMed
Donald, L. P., Garg, M. L. and George, S. K. Jr (1982) Introduction to Organic Laboratory Techniques: A Contemporary Approach. 2nd edn.Saunders, Philadelphia, Pennsylvania. 56 pp.Google Scholar
Fatope, M. O., Nuhu, A. M., Mann, A. and Takeda, Y. (1995) Cowpea weevil bioassay: a simple prescreen for plants with grain protectant effects. International Journal of Pest Management 41, 8486.CrossRefGoogle Scholar
Finney, D. J. (1971) Probit Analysis. Cambridge University Press, London. 139 pp.Google Scholar
Gleiser, R. M. and Zygadlo, J. A. (2007) Insecticidal properties of essential oils from Lippia turbinata and Lippia polystachya (Verbenaceae) against Culex quinquefasciatus (Diptera: Culicidae). Parasitology Research 101, 13491354.CrossRefGoogle ScholarPubMed
Hac, L. V., Khai, T. T. and Dung, N. X. (1996) A new chemotype of Hyptis suaveolens (L.) Poit. from the Nghe su Province, Vietnam. Journal of Essential Oil Research 8, 315318.Google Scholar
Hickey, M. and King, C. (1988) 100 Families of Flowering Plants. Cambridge University Press, Cambridge. 126 pp.Google Scholar
Huang, Y. and Ho, S. H. (1998) Toxicity and antifeedant activities of cinnamaldehyde against the grain storage insects Tribolium castaneum (Herbst) and Sitophilus zeamais Motsch. Journal of Stored Products Research 34, 1117.CrossRefGoogle Scholar
Keita, S. M., Vincent, C., Schmit, J. P., Arnason, J. T. and Belanger, A. (2001) Efficacy of essential oil of Ocimum basilicum L. and O. gratissimum L. applied as an insecticidal fumigant and powder to control Callosobruchus maculatus (Fab.) (Coleoptera: Bruchidae). Journal of Stored Products Research 37, 339349.CrossRefGoogle Scholar
Keita, S. S., Umoetok, B. A. and Smith, J. G. (2006) The insecticidal activity of petroleum ether extract of Hyptis suaveolens Poit. (Labiatae) seeds on Plutella xylostella (L.) (Lepidoptera: Yponomeutidae). Agricultural Journal 1, 1113.Google Scholar
Kim, S. I., Roh, J. Y. and Kim, D. H. (2002) Insecticidal activities of aromatic plant extracts and essential oils against Sitophilus oryzae and Callosobruchus chinensis. Journal of Stored Products Research 38, 102303.Google Scholar
Kim, S. I., Roh, J. Y., Kim, D. H., Lee, H. S. and Ahn, Y. J. (2003) Insecticidal activities of aromatic plant extracts and essential oils against Sitophilus oryzae and Callosobruchus chinensis. Journal of Stored Products Research 39, 293303.CrossRefGoogle Scholar
Ko, Ko, Juntarajumnong, W. and Chandrapatya, A. (2009) Repellency, fumigant and contact toxicities of Litsea cubeba (Lour.) Persoon against Sitophilus zeamais Motschulsky and Tribolium castaneum (Herbst). Kasetsart Journal (Natural Sciences) 43, 5663.Google Scholar
Kuhnt, M., Probstie, A., Rimpler, H., Bauer, R. and Heinrich, M. (1995) Biological and pharmacological activities and further constituents of Hyptis verticillata. Planta Medica 6, 227232.CrossRefGoogle Scholar
Lee, B. H., Annis, P. C. and Tumaalii, F. (2003) The potential of 1,8-cineole as a fumigant for stored wheat, pp. 230234. In Stored Grain in Australia 2003. Proceedings of the Australian Postharvest Technical Conference, 25–27 June 2003, Canberra (edited by Wright, E.J., Webb, M.C. and Highley, E). CSIRO Stored Grain Research Laboratory, Canberra.Google Scholar
Lee, B. H., Choi, W. S., Lee, S. E. and Park, B. S. (2001) Fumigant toxicity of essential oils and their constituent compounds towards the rice weevil Sitophilus oryzae (L.). Crop Protection 20, 317320.CrossRefGoogle Scholar
Liu, Z. L. and Ho, S. H. (1999) Bioactivity of the essential oil extracted from Evodia rutaecarpa Hook f.et Thomas against storage insects Sitophilus zeamais Motsch. and Tribolium castaneum (Herbst). Journal of Stored Products Research 35, 317328.CrossRefGoogle Scholar
McDonald, L. L., Guy, R. H. and Speirs, R. D (1970) Preliminary Evaluation of New Candidate Materials as Toxicants, Repellents and Attractants Against Stored Product Insects – I. Marketing Research Report No. 882. Agricultural Research Service, U.S. Department of Agriculture, Washington, District of Columbia. 8 pp.Google Scholar
Mishra, R. C., Masih, D. B. and Gupta, P. R. (1981) Mint oil as fumigant against Callosobruchus chinensis Linn. Bulletin of Grain Technology 19, 1215.Google Scholar
Mudgal, V., Hanna, K. K. and Hazra, P. K. (1997) Flora of Madhya Pradesh II. Botanical Survey of India, 403404.Google Scholar
Mukharjee, K. S., Mukharjee, R. K. and Gosh, P. K. (1984) Chemistry of Hyptis suaveolens: a pentacyclic triterpene. Journal of Natural Products 47, 377381.CrossRefGoogle Scholar
Naghibi, F., Mosaddegh, M., Mohammadi Motamed, S. and Ghorbani, A. (2005) Labiatae family in folk medicine in Iran: from ethnobotany to pharmacology. Iranian Journal of Pharmaceutical Research 2, 6379.Google Scholar
Negahban, M., Moharramipour, S. and Sefidkon, F. (2007) Fumigant toxicity of essential oil from Artemisia sieberi Besser against three stored product insects. Journal of Stored Products Research 43, 123128.CrossRefGoogle Scholar
Ngamo, T. L. S., Goudoum, A., Ngassoum, M. B., Mapongmestsen, P. M., Kouninki, H. and Hance, T. (2004) Persistence of the insecticidal activity of five essential oils on the maize weevil Sitophilus zeamais (Motsch.) (Coleoptera: Curculionidae). Communication in Agriculture and Applied Biological Sciences 69, 145147.Google Scholar
Ngamo, T. L. S., Ngassoum, M. B., Jirovertz, L., Ousman, A., Nukenine, E. and Moukala, O. E. (2001) Protection of stored maize against Sitophilus zeamais (Motsch.) by use of essential oil of species from Cameroon. Med. Fac. Landouww. Univ. Gent. 66, 473478.Google ScholarPubMed
Ngamo, T. S. L., Noudjou, W. F., Ngassoum, M. B. and Mapongmestsen, P. M. (2007) Investigations on both chemical composition and insecticidal activities of essential oils of Vepris heterophylla (Rutaceae) from two localities of northern Cameroon towards Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae). Research Journal of Biological Sciences 2, 5761.Google Scholar
Ngassoum, M. B., Jirovetz, L. and Buchbauer, G. (1999) Essential oil and head space from Hyptis suaveolens (L.) Poit. leaves and flowers from Cameroon. Journal of Essential Oil Research 11, 283288.CrossRefGoogle Scholar
Novelo, M., Cruz, J. G., Hernandez, L., Pereda-Miranda, R., Chai, H. Y., Mar, W. and Pezzuto, J. M. (1993) Cytotoxic constituents from Hyptis verticillata. Journal of Natural Products 56, 17281736.CrossRefGoogle ScholarPubMed
Obeng-Ofori, D., Reichmuth, C., Bekele, J. and Hassanali, A. (1997) Biological activity of 1,8-cineole, a major component of essential oil of Ocimum kenyense (Ayobangira) against stored products beetles. Journal of Applied Entomology 121, 237243.CrossRefGoogle Scholar
Odeyemi, O. O., Masika, P. and Afolayan, A. J. (2008) Insecticidal activities of essential oil from the leaves of Mentha longifolia L. subsp. Capensis against Sitophilus zeamais (Motschulsky) (Coleoptera: Curculionidae). African Entomology 16, 220225.CrossRefGoogle Scholar
Ogendo, J. O., Kostjukovsky, M., Ravid, U., Matasyoh, J. C., Deng, A. L., Omolo, E. O., Kariuki, S. T. and Shaaya, E. (2008) Bioactivity of Ocimum gratissimum L. oil and two of its constituents against five insect pests attacking stored food products. Journal of Stored Products Research 44, 328334.CrossRefGoogle Scholar
Pant, A. K., Singh, A. K. and Mathela, C. S. (1992) Essential oil from Hyptis suaveolens Poit. Journal of Essential Oil Research 4, 913.CrossRefGoogle Scholar
Paulson, K. and Jaenson, T. G. T. (1999) Comparison of plant products and pyrethroid-treated bed nets for protection against mosquitoes (Diptera: Culicidae) in Guinea Bissau, West Africa. Journal of Medical Entomology 36, 144148.CrossRefGoogle Scholar
Popovic, Z., Kostic, M., Popovic, S. and Skoric, S. (2006) Bioactivities of essential oils from basil and sage to Sitophilus oryzae L. Biotechnology and Biotechnological Equipments 20, 3640.CrossRefGoogle Scholar
Porter, R. B. R., Reese, P. B., Williams, L. A. D. and Williams, D. J. (1995) Acaricidal and insecticidal activities of cadina-4, 10 (15) diene-3-one. Phytochemistry 40, 735738.CrossRefGoogle Scholar
Priestley, C. M., Burgess, I. F. and Williamson, E. M. (2006) Lethality of essential oil constituents towards human louse, Pediculus humanus, and its eggs. Fitoterapia 77, 303309.CrossRefGoogle ScholarPubMed
Raja, N., Albert, S., Ignacimuthu, S. and Dorn, S. (2001) Effect of plant volatile oils in protecting stored cowpea Vigna unguiculata (L.) Walpers against Callosobruchus maculatus (F.) (Coleoptera: Bruchidae) infestation. Journal of Stored Products Research 37, 127132.CrossRefGoogle ScholarPubMed
Raja, N., Jeyasankar, A., Venkatesan, S. J. and Ignacimuthu, S. (2005) Efficacy of Hyptis suaveolens against lepidopteran pests. Current Science 88, 220222.Google Scholar
Rajendran, S. and Sriranjini, V. (2008) Plant products as fumigants for stored product insect control. Journal of Stored Products Research 44, 126135.CrossRefGoogle Scholar
Regnault-Roger, C., Philogene, B. J. and Vincent, C. (2002) Biopesticides d'origines vegetales. Tech & Doc Eds, Paris. 337 pp.Google Scholar
Ross, G. J. S. (1987) Maximum Likelihood Program. The Numerical Algorithms Group, Oxford. pp. 129136.Google Scholar
Rozman, V., Kalinovic, I. and Korunic, Z. (2007) Toxicity of naturally occurring compounds of Lamiaceae and Lauraceae to three stored product insects. Journal of Stored Products Research 43, 349355.CrossRefGoogle Scholar
Saluja, S. K. and Santini, D. D. (1981) Antifertility activity of Hyptis suaveolens Poit. Indian Drugs 19, 127.Google Scholar
Saluja, S. K., Santini, D. D. and Singh, J. D. (1981) A short note on chemical constituents of Hyptis suaveolens Poit. Indian Drugs 19, 84.Google Scholar
Shaaya, E. and Kostjukovsky, M. (2009) The potential of biofumigants as alternatives to methyl bromide for the control of pest infestation in grain and dry food products, Recent Advances in Plant Biotechnology, Part 4, 389403.CrossRefGoogle Scholar
Shaaya, E., Kostjukovsky, M., Eilberg, J. and Sukprakarn, C. (1997) Plant oils as fumigants and contact insecticides for the control of stored-product insects. Journal of Stored Products Research 33, 715.CrossRefGoogle Scholar
Stamapoulos, D. C., Damos, P. and Karagianidou, G. (2007) Bioactivity of five monoterpenoid vapours to Tribolium castaneum (du Val) (Coleoptera: Tenebrionidae). Journal of Stored Products Research 43, 571577.CrossRefGoogle Scholar
Talukder, F. A. and Howse, P. E. (1993) Deterrent and insecticidal effects of extracts of pithraj, Aphanamixis polystachya (Malvaceae) against Tribolium castaneum in storage. Journal of Chemical Ecology 19, 24632471.CrossRefGoogle Scholar
Talukder, F. A. and Howse, P. E. (1995) Evaluation of Aphanamixis polystachya as a source of repellents, antifeedants, toxicants and protectants in storage against Tribolium castaneum (Herbst). Journal of Stored Products Research 31, 5561.CrossRefGoogle Scholar
Tanprasit, P. and Indrapichate, K. (2004) Biological control of yellow fever mosquito (Aedes aegypti Linn.) using leaf extract of Chan (Hyptis suaveolens L. Poit.) and hedge flower (Lantana camara Linn.). The 10th World Congress on Clinical Nutrition, November 30–December 3. Abstract no. P2.23, p. 177. Puket, Thailand.Google Scholar
Tripathi, A. K., Prajapati, V., Aggarwal, K. K., Khanuja, S. P. S. and Kumar, S. (2000 a) Repellency and toxicity of oil from Artemisia annua to certain stored product beetles. Journal of Economic Entomology 93, 4347.CrossRefGoogle ScholarPubMed
Tripathi, A. K., Prajapati, V., Aggarwal, K. K., Khanuja, S. P. S. and Kumar, S. (2001) Toxicity of fractionated essential oil from Anethum sowa seed towards Tribolium castaneum Herbst. Journal of Medicinal and Aromatic Plant Sciences 23, 146150.Google Scholar
Tripathi, A. K., Prajapati, V., Aggarwal, K. K. and Kumar, S. (2000 b) Effect of volatile oil constituents of Mentha species against the stored grain pest, Callosobruchus maculatus and Tribolium castaneum. Journal of Medicinal and Aromatic Plant Sciences 22, 549556.Google Scholar
Tripathi, A. K., Prajapati, V., Gupta, R. and Kumar, S. (1999) Herbal materials for the insect-pest management in stored grains under tropical conditions. Journal of Medicinal and Aromatic Plant Sciences 21, 408430.Google Scholar
Weaver, D. K., Philipes, T. W., Dunkel, F. V., Weaver, T., Grubb, R. T. and Nance, E. L. (1995) Dried leaves from Rocky Mountain plants decrease infestation by stored product beetles. Journal of Chemical Ecology 21, 127142.CrossRefGoogle ScholarPubMed
Willis, J. C. (1973) Dictionary of Flowering Plants and Ferns (Rev. by A.K. Shaw). Cambridge University Press, London. 587 pp.Google Scholar
Yoganarasimhan, S. N. (2000) Medicinal Plants of India (edited by Srinivasan, V. and Kosalram, N.). Cyber Media, Bangalore. 282 pp.Google Scholar