INFLUENCE OF TEA LEAVES Camelia sinensis L. PHENOLIC CONTENT AS PREFERENCE FACTOR OF EMPOASCA SP. (Homoptera : Cicadellidae)
Saiful Saiful(1*), Sudarsono Sudarsono(2)
(1) Faculty of Agricultural, Universitas Muhammadiyah Palu
(2) Faculty of Pharmacy, Universitas Gadjah Mada
(*) Corresponding Author
Abstract
Phenolic compounds are secondary metabolites found in all parts of the plants aree.g.:fruits, barks, roots, and leaves of plants serve as chemical defenses as repellent against insects and herbivorous detterent. On tea leaves, the results of research gallocatechin (a derivate of catechin) was functioning known as mechanism of resistance to Empoasca sp. (Homoptera: Cicadelliadae). The aim of this research was to know the total phenolic content of the young tea leaf (Camelia sinensis L.) and it was to found out the effect of the phenolic compounds of preference Empoasca sp. The results obtained that the clone of “Pasir Sarongge” (PS) had total phenol content (polyphenol average ± SD) 25,69 ± 0,1 higher than Kiara clone 18,47 ± 0,13. The higher the polyphenol in the young tea leaf bud could be act as Empoasca sp. Detterent.
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Adeyemi, M. M., Adebote D. A., Amupitan J.O., Oyewale A.O., and Agbaji A.S. 2010. Antifeedant Activity of Quercetin Isolated from the Stem Bark of Bobgunnia madagascariensis (Desv.) J.H.Kirkbr & Wiersema. (Caesalpiniaceae). Australian Journal of Basic and Applied Sciences, 4(8): 3342-3346
Alumniits, 2009. Teh dan Khasiatnya Bagi Kesehatan. http://www.alumniits.com (25 April 2010)
Berlin L. C and Hibbs E. J. 1963. Digestive System Morphology and Salivary Enzymes of The Potato Leafhopper, Empoasca fabae (Harris). Lowa Acad. Sci. 527-540
Bernays E. A., and Chapman R. F. 1994. Host-Plant Selection By Phytophagous Insect. Text Book. Chapman and Hall. ATP an International Thomson Publishing Company
Dharmadi, A. 1999. Empoasca sp. Hama Baru di Perkebunan Teh. Pusat Penelitian Teh dan Kina. Bandung
Direktorat Jenderal Perkebunan. 2006. Statistika Perkebunan Indonesia: Teh 2003 - 2006. Direktorat Jenderal Bina Produksi. Perkebunan. Departemen Pertanian. Jakarta
Dowd P.F and Vega F.E., 1996. Enzimatic Oxidation Products Of Allelochemical as a Basis For Resistance Against Insect : Effects On The Corn Leafhopper Dalbulus maidis
Graham H. 1992. Green Tea Composition, Consumption, and Polyphenol Chemistry. PrevMed (1992);21:334-50
Hori K. 1992. Insect Secretions and Their Effect on Plant Growth, with Special Reference to Hemipterans. In Biology of Insect-Induced Galls, ed. JD Shorthouse, O Rohfritsh, pp. 157–70. New York: Oxford Univ. Press
Lakhanpal, P., and Rai, D. K. 2007. Quercetin: A Versatile Flavonoid. Departe-ment of Pharmacology, SSR Medical College. Internet Journal of Medical Update 2007 Jul-Dec;2(2):22-37
Lin S., and Mullin C. A. 1999. Lipid, Polyamide and Flavonol Phagostimulants for The Adult Western Corn Rootworm from Sunflower Pollen. Journal of Agriculture and Food Chemistry (in press)
Miketova P, Schram K, Whitney J,. 1998. Mass Spectrometry of Selected Components of Biological Interest in Green Tea Extracts. J Nat Prod 1998;61(4):461–7
Miles PW. 1972. The Saliva of Hemiptera. Adv. Insect Physiology. 183-255
Miles PW, dan Peng Z. 1989. Studies On The Salivary Physiology Of Plant Bugs : Detoxification Of Phytochemical By The Salivary Peroxidase Of Aphids. J Insect Physiol 35:865-872
Nault L. R. and Rodriguez J. G. 1985. The Leafhopper And Planthopper. A Wiley-Interscience Publication. John Wiley and Son
Pachrudin, Witjaksono, Wijonarko A,. 2007. Perkembangan Populasi Empoasca sp. (Homoptera: cicadelidae) di Kebun Teh Pagilaran. Publikasi Ilmiah. Jurusan Hama dan Penyakit Tumbuhan. Fakultas Pertanian. Universitas Gadjah Mada
Pollard D. G., 1968. Stylet Penetration and Feeding Damage of Eupteryx mellisue Curtis (Hemiptera : cicadellidae) on Sage. Bull. Entomol. Res. 58. 55-71
Shafer T. N. and Lukehfar M. J. (1969). Effect of Flavonoid Pigments and Gossypol on Growth and Development of the Boll-worm, Tobacco Budworm and Pinkbolworm. J Econ Entomol 62:643-646
Smith, C. M. 2005. Plant Resistance to Arthropods. Molecular and Conventional ApproachesSpringer.Kansas University. Manhattan, KS. U S A
Sogawa K. 1982. The Rice Brown Planthopper : Feeding Physiology and Host Plant Interaction Annual. Rev. Entomol. 27, 49-73
Suparno, T. 2002. Biokimia Serangga. Lembaga Penerbitan Fakultas Pertanian Universitas Brawijaya. Malang
Schneider G., 1985, Pharmazeutische Biologie, BI-Wissenschaftsverlag, Mann-heim
Winkel, B. S. 2001. Flavonoid Biosynthesis. A Colourful Model for Genetics, Bio-chemistry, Cell Biology and Biotechnology. Plant Physiology, 126: 485-493
Yin-xin M., Zou W. X., LIN N. 2009. Comparison of the Population Dynamics of Empoasca vitis on Six Tea Varieties and Their Resistance to Pests. (Abstract) Journal of Huazhong Agricultural University
DOI: https://doi.org/10.22146/tradmedj.8033
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Faculty of Pharmacy
Universitas Gadjah Mada