Comparison of the Insecticidal Characteristics of Commercially Available Plant Essential Oils Against Aedes aegypti and Anopheles gambiae (Diptera: Culicidae)

Journal of Medical Entomology

Volumn 52, Issue 5, 2015, Pages 993-1002

  Norris, Edmund J ^a   Gross, Aaron D ^a,b   Dunphy, Brendan M ^a   Bessette, Steven ^d   Bartholomay, Lyric ^a,c   Coats, Joel R ^a  

^a IOWA STATE UNIVERSITY   (United States)

^b UNIVERSITY OF FLORIDA   (United States)

^c UNIVERSITY OF WISCONSIN MADISON   (United States)

^d EcoSMART Technologies Inc   (United States)

Author keywords

Aedes aegypti; Anopheles gambiae; plant essential oil; synthetic pyrethroid; terpene

Indexed keywords

ESSENTIAL OIL; INSECTICIDE; VEGETABLE OIL;

AEDES; ANIMAL; ANOPHELES GAMBIAE; COMPARATIVE STUDY; FEMALE; LD50; MASS FRAGMENTOGRAPHY;

AEDES; ANIMALS; ANOPHELES GAMBIAE; FEMALE; GAS CHROMATOGRAPHY-MASS SPECTROMETRY; INSECTICIDES; LETHAL DOSE 50; OILS, VOLATILE; PLANT OILS;

EID: 84944239075     PISSN: 00222585     EISSN: 19382928     Source Type: Journal    
DOI: 10.1093/jme/tjv090     Document Type: Article

References (50)

1. Amorati,R. M. Foti, and L. Valgimigli. 2013. Antioxidant activity of essential oils. J. Agric. Food Chem. 61: 10835-10847.
2. Anderson, J. A., andJ. R. Coats.2012. Acetylcholinesterase inhibition by nootkatone and carvacrol in arthropods. Pestic. Biochem. Physiol. 102: 124-128.
3. Berge, J. B., R. Feyereisen, and M. Amichot. 1998. Cytochrome p450 monooxygenases and insecticide resistance in insects. Philos. Trans. R. Soc. B. Biol. Sci. 353: 1701-1705.
4. Briggs, G. G., M. Elliott, A. W. Farnham, and N. F. Janes. 1974. Structural aspects of the knockdown of pyrethroids. Pest Manage. Sci. 5: 643-649.
5. Casida, J. E. 1980. Pyrethrum flowers and pyrethroid insecticides. Environ. Health Perspect. 34: 189-202
6. Chang, C.P., and F. W. Plapp. 1983. DDT and pyrethroids: Receptor binding in relation to knockdown resistance (kdr) in the house fly. Pestic. Biochem. Physiol. 20: 86-91.
7. Cheng, S., J. Liu, C. Huang, Y. Hsui, W. Chen, and S. Chang. 2008. Insecticidal activities of leaf essential oils from Cinnamomum osmophloeum against three mosquito species. Bioresour. Technol. 100: 457-464.
8. Cheng, S., J. Liu, K. Tsai, W. Chen, and S. Chang. 2004. Chemical composition and mosquito larvacidal activity of essential oils from leaves of different Cinnamomom osmophloeum provenances. J. Agric. Food Chem. 52: 4395-4400.
9. Cheng, S. S., H. T. Chang, S. T. Chang,K. H. Tsai, andW. J. Chen. 2003. Bioactivity of selected plant essential oils against the yellow fever mosquito Aedes aegypti larvae. Bioresourc. Technol. 89: 99-102.
10. Davies, T.G.E., A. O. O'Reilly, L. M. Field, B. A. Wallace, and M. S. Williamson. 2008. Perspective: Knockdown resistance to DDTand pyrethroids: From target-site mutations to molecularmodelling. PestManage. Sci. 64:1126-1130.
11. Didry,N., L. Dubreuli, andM. Pinkas. 1994. Activity of thymol, carvacrol, cinnamaldehyde and eugenol on oral bacteria. Pharm. Acta Helv. 69: 25-28.
12. Djarri, L., K.Medjroubi, S. Akkal, A. Elomri, E. Seguin, M. Groult, and P. Vérité . 2008. Variability of two essential oils of Kundmannia sicula (L.) DC., a traditional Algerianmedicinal plant.Molecules 13: 812-817.
13. Elliott, M. 1980. Established pyrethroid insecticides. Pestic. Sci. 11: 119-28
14. Elliot,M.A.W. Farnham. N. F. Janes, P. H. Needham, and D. A. Pulman. 1973. A photostable pyrethroid. Nature 246: 169-170.
15. Elliott, M., and N. F. Janes. 1978. Synthetic pyrethroids-A new class of insecticide. Chem. Soc. Rev. 7: 473-505.
16. Essam, E. 2001. Insecticidal activity of essential oils: Octopaminergic sites of action. Comp. Biochem. Physiol. C Toxicol. Pharmacol. 130: 325-337.
17. Essam, E. 2005. Molecular and pharmacological analysis of an octopamine receptor from American cockroach and fruit fly in response to plant essential oils. Insect Biochem. Physiol. 59: 161-171.
18. Feyereisen, R., J. F. Andersen, F. A. Carino, M. B. Cohen, and J. F. Koener. 1995. Cytochrome P450 in the house fly: Structure, catalytic activity and regulation of expression in an insecticide-resistant strain. Pestic. Sci. 43: 233-239.
19. Ffrench-Constant, R. H. 2013. The molecular genetics of insecticide resistance. Genetics 194: 807-815.
20. Finney,D. J. 1971. Probit analysis. Cambridge University Press, Cambridge, United Kingdom.
21. Grant, D. F., and B. D. Hammock. 1992. Genetic and molecular evidence for a trans-acting regulatory locus controlling glutathione S-transferase-2 expression in Aedes aegypti. Mol. Gen. Genet. 234: 169-176.
22. Hardstone,M.C., C. A. Leichter, J. G. Scott. 2009. Multiplicative interaction between the two major mechanisms of permethrin resistance, kdr and cytochrome P450-monooxygenase detoxification, in mosquitoes. J. Evol. Biol. 22: 416-423.
23. Harrewijn, P.,A.Minks, andC.Mollema. 1994. Evolution of plant volatile production in insect-plant relationships. Chemoecology 6: 55-73.
24. Hemingway, J., and H. Ranson. 2000. Insecticide resistance in insect vectors of human disease. Annu. Rev. Entomol. 45: 371-379.
25. Isman, M. 2000. Plant essential oils for pest and disease management. Crop Prot. 19: 603-608.
26. Isman, M., and C. M. Machial. 2006. Pesticides based on plant essential oils: From traditional practice to commercialization, pp. 29-44. In Rai, and Carpinella (eds.), Naturally occurring bioactive compounds. Elsevier B.V., Amsterdam, Netherlands.
27. Lopes-Lutz, D., D. Alviano, C. S. Alviano, and P. P. Kolodzieczyk. 2008. Screening of chemical composition, antimicrobial and antioxidant activities of Artemisia essential oils. Phytochemistry 69: 1732-1738.
28. Lee, S., C. J. Peterson, and J. R. Coats. 2003. Fumigation toxicity of monoterpenoids to several stored product insects. J. Stored Prod. Res. 39: 77-85.
29. Maia, F. M. and S. J.Moore. 2011. Plant-based insect repellents: A review of their efficacy, development and testing. Malaria J. 10: S11
30. McLaughlin,G. A. 1973. History of pyrethrum, pp. 3-15. In J. E. Casida (ed.), Pyrethrum-The natural insecticide. Academic, New York, NY.
31. Moore, S. J., A. Lenglet, and N. Hill. 2007. Plant-based insect repellents. In M. Debboun, S. P. Frances, and D. Strickman (eds.), Insect repellents, vol. 14. CRC Press. Boca Raton, FL.
32. Oppenoorth, F.J. 1984. Biochemistry of insecticide resistance. Pestic. Biochem. Physiol. 22: 187-193.
33. Paluch, G., J. Grodnitzky, L. Bartholomay, and J. R. Coats. 2009. Quantitative structure-activity relationship of botanical sesquiterpenes: Spatial and contact repellency to the yellow fever mosquito, Aedes aegypti. J. Agric. Food Chem. 57: 7618-7625.
34. Pampana, E. J., and P. F. Russell. 1955. Malaria-A world problem.WHOChron.Geneva, Page 4. Pampana, E. J. 1963. A textbook of malaria eradication. Oxford University Press, London, England.
35. Poelman, E. H., M. Bruinsma, F. Zhu, B. T. Weldegergis, A. E. Boursault, Y. Jongema, and J.J.A. Loon. 2012. Hyperparasitoids use herbivore-induced plant volatiles to locate their parasitoid host. PLoS ONE. 10: 1-13.
36. Porter, N. G., P. E. Smale, M. A. Nelson, A. J. Hay, J. W. Klink, and C. M. Dean. 2010. Variability in essential oil chemistry and plant morphology within a Leptospermum scopariumpopulation. N. Z. J. Bot. 36: 125-133.
37. Ranson, H., R. N'Guessan, J. Lines, N. Moiroux, Z. Nkuni, and V. Corbel. 2011. Pyrethroid resistance in African anopheline mosquitoes:What are the implications for malaria control? Trends Parasitol. 27: 91-98.
38. Ruigt, G.S.F. 1985. Pyrethroids, pp. 183-261. In G. A. Kerkut, and L. I. Gilbert (eds.), Comprehensive insect physiology, biochemistry and pharmacology, vol. 12, Pergamon,Oxford.
39. Sangwan,N. S., A.H.A. Farooqi, F. Shabih, and R. S. Sangwan. 2001. Regulation of essential oil production. Plant Growth Regul. 34: 3-21.
40. Santolamazza, F.,M.Calzetta, J. Etang, E.Barrese, I. Dia, A. Caccone, M. J. Donnelly, V. Petrarca, F. Simard, J. Pinto, et al. 2008. Distribution of knock-down resistance mutations in Anopheles gambiae molecular forms in west and west-central Africa. Malaria J. 7: 74.
41. Service, M. 2012. Introduction to mosquitoes (Culicidae), pp. 2-34. In Medical entomology for students, 5th ed. Cambridge University Press, New York, NY.
42. Stamopoulos, D. C., P. Damos, and G. Karagianidou. 2007. Bioactivity of fivemonoterpenoid vapours to Tribolium confusum (du Val) (Coleoptera: Tenebrionidae). J. Stored Prod. Res. 43: 571-577.
43. Tattersfield, F., R. P. Hobson, and C. T. Gimingham. 1929. Pyrethrin I and II: Their insecticidal value and estimation in pyrethrum (Chrysanthemum cinerariaefolium). J. Agric. Sci. 19: 266-296.
44. Tong, F., and J. R. Coats. 2010. Effects of monoterpenoid insecticides on [3H]-TBOB binding in house fly GABA receptor and 36Cluptake in American cockroach ventral nerve cord. Pest Biochem. Physiol. 98: 317-324.
45. Tong, F., A. D. Gross, M. C. Dolan, and J. R. Coats. 2012. The phenolic monoterpenoid carvacrol inhibitis the binding of nicotine to the housefly nicotinic acetylcholine receptor. Pest Manage. Sci. 69: 775-780.
46. Vallejo, I., L. Rebordinos, I. G. Collado, J. M., Cantoral and Fernandez. 2001. Differential behavior of mycelial growth of several botrytis cinerea strains on either patchoulol-or globulol-amended media. J. Phytopath. 149: 113-118.
47. (WHO) Insecticide resistance and vector control. 1970. Seventeenth report of the WHO Expert Committee on Insecticides. WHO Technical Report Series no. 443. World Health Organization,Geneva, Switzerland.
48. (WHO) World Health Organization. 2013. Foreword. World Malaria Report.WHO, Geneva.
49. (WHOPES) World Health Organization Pesticide Evaluation Scheme. 2006. Guidelines for testing mosquito adulticides for indoor residual spraying and treatment of mosquito nets. Control of neglected tropical diseases: WHO Pesticide Evaluation Scheme, Geneva.
50. Yanagawa, A., F. Yokohari, and S. Shimizu. 2010. Influence of fungal odor on grooming behavior of the termite, Coptotermes formosanus. J. Insect Sci. 10: 141.