Contact toxicities of oxygenated monoterpenes to different populations of colorado potato beetle, Leptinotarsa decemlineata say (Coleoptera: Chrysomelidae)

• Autorzy: Mahdi S.K. , Sasan J. , Sara K.

Warianty tytułu

PL

Kontaktowa toksyczność utlenionych monoterpenów dla różnych populacji stonki ziemniaczanej Leptinotarsa decemlineata say (Coleoptera: Chrysomelidae)

• Języki publikacji: EN

Abstrakty

EN

In the present study, 12 pure oxygenated monoterpenes at 2 different doses were tested for their toxicity against second and third instar larvae and adults of three different populations of Colorado potato beetle (Leptinotarsa decemlineata Say). Some of tested compounds were found to be toxic to larvae and adults, but the degree of toxicity was variable. The mortality range was 20-100%. In general, fenchone, linalool, citronella and menthone showed a strong toxicity against the tested developmental stages; camphor, carvone and linalyl acetate showed moderate toxicity against larvae and adults of Colorado potato beetle and some compounds like fenchol, isomenthol, menthol, nerol and neryl acetate showed the least or no toxicity against the tested developmental stages of L. decemlineata. Another important result was that although the tested populations of Colorado potato beetle showed some resistance to Endosulfan (50% WP), there was no resistance to tested oxygenated monoterpenes. The present results indicate that some of these compounds can be used as potential control agents against both larvae and adults of Colorado potato beetle.

PL

Przedstawiono ocenę toksyczności 12 czystych, utlenionych monoterpenów zastosowanych w dwóch dawkach, przeciwko drugiemu i trzeciemu pokoleniu larwalnemu oraz dorosłym osobnikom trzech różnych populacji stonki ziemniaczanej (Leptinotarsa decemlineata Say). Niektóre z zastosowanych związków wykazywały toksyczność w stosunku do larw i osobników dorosłych, a stopień ich toksyczności był zróżnicowany. Procent śmiertelności szkodnika wahał się w granicach 20-100%. Związki monoterpenowe, takie jak: fenchon, linalol, citronella i menton naogół wykazywały silną toksyczność dla testowanych rozwojowych stadiów szkodnika; kamfora karwon i octan linalolu charakteryzowały się umiarkowaną toksycznością, natomiast takie związki, jak: fenchol, izomentol, mentol, nerol i octan nerylu, wykazywały słabą toksyczność lub jej brak względem testowanych stadiów rozwojowych L. decemlineata. Warto podkreślić, że testowane populacje stonki ziemniaczanej charakteryzowały się pewnym stopniem odporności na syntetyczny insektycyd Endosulfan (50% WP). W przypadku testowanych utlenionych monoterpenów nie stwierdzano zjawiska odporności.

• Wydawca: -
• Czasopismo: Journal of Plant Protection Research
• Rocznik: 2011
• Tom: 51
• Numer: 3
• Opis fizyczny: p.225-233,ref.

Twórcy

autor

Mahdi S.K.

• Faculty of Plant and Environmental Science, Gothenburg University, Carl Skottsberg Gata 22B, 40530 Gothenburg, Sweden

autor

Sasan J.

autor

Sara K.

Bibliografia

• Aslan I., Ozbek H., Kordali S., Calmasur O., Cakir A. 2004. Toxicity of essential oil vapors obtained from Pistacia spp. to the granary weevil, Sitophilus granaries (L.) (Coleoptera: Circulionidae). J. Plant Dis. Protect. 111 (4): 400-407.
• Caprio M.A. 1998. Evaluating resistance management strategies for multiple toxins in the presence of external refuges. J. Econ. Entomol. 91 (5): 1021-1031.
• Carriere Y., Tabashnik B.E. 2001. Reversing insect adaption to transgenic insecticidal plants. Proc. Royal Society of London Series (B) 268: 1475-1480.
• Dayan F.E., Cantrell C.L., Duke S.O. 2009. Natural products in crop protection. Bioorgan. Med. Chem. 17 (12): 4022-4034.
• Don-pedro K.N. 1996. Investigation of single and joint fumigant insecticidal action of citrus peel oil components. Pest. Sci. 46 (1): 79-84.
• Gonzalez-Coloma A., Guadano A., Gutierrez C., Cabrera R., Ia Pena E., Fuente G., Reina M. 1998. Antifeedant Delphinium diterpenoid alkaloids. Structure-activity relationships. J. Agric. Food Chem. 46 (1): 286-290.
• Gonzalez-Coloma A., Valencia F., Martin N., Hoffman J.J., Hutter L., Marco J.A., Reina M. 2002. Silphinene sesquiterpenes as model insect antifeedants. J. Chem. Ecol. 28 (1): 117-129.
• Gonzalez-Coloma A., Reina M., Guadano A., Martinez-Diaz R., Diaz J.G., Garcla-Rodriguez J., Alva A., Grandez M. 2004. Antifeedant C20 diterpene alkaloids. Chem. Biodiversity 1 (9): 1327-1335.
• Hagstrum D.W., Subramanyam B. 1996. Integrated Management of Insects in stored products. Marcel Dekker, Inc, New York, 426 pp.
• Hoffmann M.P., Frodsham A.C. 1993. Natural Enemies of Vegetable Insect Pests. Comel University Press, Ithica, 63 pp.
• Isman M.B., Wan A.J., Passreiter C.M. 2001. Insectical activity of essential oils to the tobacco cutworm, Spodoptera litura. Fitoterapia 72 (1): 65-68.
• Karabelas A.J., Plakas K.V., Solomou E.S., Drossou V., Ssarigiannis D.A. 2009. Impact of European legislation on marketed pesticides - a review from the standpoint of health impact assessment studies. Environ. Int. 35 (7): 1096-1107.
• Kaushik G., Satya S., Naik S.N. 2009. Food processing a tool to pesticide residue dissipation - a review. Food. Res. Int. 42 (1): 26-40.
• Kim D.H., Ahn Y.J. 2001. Contact and fumigant activities of constituents of Foeniculum vulgare fruit against three coleopteran stored- product insects. Pest Manage. Sci. 57 (3): 301-306.
• Kordali S., Aslan I., Calmasur O., Cakir A. 2006. Toxicity of essential oils isolated from three Artemisia species and some of their major components to granary weevil, Sitophilus granaries (L.) (Coleoptera: Curculionidae). Ind. Crop Prod. 23 (2): 162-170.
• Lawrence P.K., Koundal K.R. 2002. Plant protease inhibitors in control of phytophagous insect. Electron. J. Biotech. 5 (1): 93-109.
• Lee S., Tsao R., Peterson C., Coast J.R. 1997. Insecticidal activity of monoterpenoids to western corn rootworm (Coleoptera: Chrysomelidae), twospotted spider mite (Acari: Tetranychidae), and house fly (Diptera: Muscidae). J. Econ. Entomol. 90 (4): 883-892.
• Lee S., Peterson C.J., Coats J.R. 2003. Fumigation toxicity of monoterpenoids to several stored product insects. J. Stored Prod. Res. 39 (1): 77-85.
• McGaughe D.E., Reilly L.M. 1984. Sperm storage and sperm precedence in he milkweed beetle Teraopes tetraphthalmus (Forster) (Coleoptera: Cerambycidae). Ann. Entomol. Soc. America. 77: 526-530.
• Mirsa G., Pavlostathis S.G. 1997. Biodegradation kinetics of monoterpenes in liquid and soil-slurry systems. Appl. Microb. Biotech. 47 (5): 572-577.
• Papachristos D.P., Karamanoli K.I., Staopoulos D.C., Menkissoglu-Spiroudi U. 2004. The relationship between the chemical composition of three essential oils and their insecticidal activity against Acanthoscelides obtectus (Say). Pest Manage. Sci. 60 (5): 514-520.
• Park I.K., Lee S.G., Choi D.H., Park J.D., Ahn Y.J. 2003. Insecticidal activities of constituents identified in the essential oil from leave of Chamaecyparis obtuse against Callosobruches chinensis (L.) and Sitophilus oryzae (L.). J. Stored Prod. Res. 39 (4): 375-384.
• Pavela R. 2007a. Possibilities of botanical insecticide exploitation in plant protection. Pest Tech. 1: 47-52.
• Pavela R. 2007b. The feeding effects of polyphenolic compounds on the colorado potato beetle (Leptinotarsa decemlineata Say). Pest Tech. 1: 81-84.
• Prates H.T., Santos J.P., Waquil J.M., Fabris J.D., Oliveira A.B., Foster J.E. 1998. Insecticidal activity of monoterpenes against Rhyzophera dominica (F.) and Tribolium castaneum (Herbst). J. Stored Prod. Res. 34 (4): 243-249.
• Scott I.M., Jensen H., Scott J.G., Isman M.B., Arnason J.T., Philogene B.J.R. 2003. Botanical insecticides for controlling agricultural pests: piperamides and the colorado potato beetle, Leptinotarsa decemlineata Say (Coleoptera: Chrysomelidae). Arc. Insect. Biochem. 54 (4): 212-225.
• Scott I.M., Jensen H., Nicol R., Lesage L., Bradbury R., Sanchez-Vindas P., Poveda L., Amason J.T., Philogene B.J.R. 2004. Efficacy of piper (Pipeaceae) extracts for control of common home and garden insect pests. J. Econ. Entomol. 97 (4): 1390-1403.
• Tabashnik B.E. 1994. Evaluation of resistance to Bacillus thuringiensis. Ann. Rev. Entomol. 39: 47-79.
• Zolotar R.M., Bykhovets A.L., Kashkan Z.N., Chernov Y.G., Kovganko N.V. 2002. Structure-activity relationship of insecticidal steroids. VII. C-7-oxidized beta-sitosterol and stigmasterols. Chem. Nat. Comp. 38 (4): 171-174.

Uwagi

Rekord w opracowaniu