In vitro Nematicidal and fungicidal effects on oil of Origanum syriacum from Palestine against rootknot nematode and Fusarium Solani plant pathogens

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EUROPEAN ACADEMIC RESEARCH, VOL. I, ISSUE 6/ SEPEMBER 2013 ISSN 2286-4822, www.euacademic.org IMPACT FACTOR: 0.485 (GIF) In vitro Nematicidal and fungicidal effects on oil of Origanum syriacum from Palestine against rootknot nematode and Fusarium Solani plant pathogens IFFAT MAHMOOD TALAT MAHMOOD* (Corresponding author) SANA MUSTAFA ANEELA WAHAB Department of Chemistry Federal Urdu University of Arts, Science and Technology Gulshan-e-Iqbal Campus, Karachi Pakistan Abstract: Plant material of Origanum syriacum from Palestine extracted in methanol was fractionated in ethyl acetate n-hexane. n-hexane was oily fraction was tested for in vitro fungicidal and Nematicidal activity n-hexane soluble oily fraction of Origanum syriacum. n-hexane fraction of Origanum syriacum showed anti fungal activity opposed to extremely damaging two plant pathogens Fusarium Solani and Fusarium Oxysporum and formed a zone of inhibition 22mm and 10mm correspondingly. n-hexane fraction also showed Nematicidal activity not in favor of the plant parasitic Nematode, Meloidogyne Javanica and showed 83% mortality at 1mg/ml. Key words: essential oil, Origanum syriacum, Nematicidal activity and fungicidal activity. Introduction: Origanum syriacum belongs to the family Lamiaceae is an aromatic branched perennial herd. It is cultivated in many 1095

places of the world. Growing wild in the Sinai Desert of Egypt (1). Constituents of essential oil of many species have been studied (2-7). In folk medicine it is used as a powerful disinfectant, flavoring, perfumery and scenting soaps (8-10). The oil of the leaves of O. syriacum reportedly possess ovicidal (11), bioherbicidal (12), insecticides (13-14) and anti mycotic activities (15). It was reported that carvacrol and thymol represent the major constituents of the essential oil of Origanum specie (16). Material and Method: Plant parasitic nematodes and root infecting fungi are emerging and posing a serious threat to modern agriculture. They attack root of plants, limit nutrient uptake of plants and destroy the root system of the victim which often result in loss of plant. The Genus Fusarium contains a lot of species that have been renowned for ages as being imperative plant pathogens. The association of Fusarium Oxysporum and Meloidogyne is known to increase disease severity in cotton and in tomatoes. In Vitro Juvenile Mortality Test: The Nematicidal action of bacterial fractions was examined by a customized procedure of Myer et al (1982)(11). The 1mg/ml concentration of n-hexane fraction arranged in particular solvent. In a glass dish, 1ml of each concentration was kept for 24 hours. The aqueous suspension of nematode was added after the evaporation of solvent. The respective solvent in the watch glass served as control. After 48 hours, 10 hands picker 2 nd stage Juvenile of Meloidogyne Javanica were added with 5ml of distilled water to the watch glass, each concentration have 3 replicated. 1096

In vitro test against root-knot infecting Fungi: The fungicidal activity of bacterial fractions was verified by a modified technique of Ara et al (1998)(12). 10 µl of n- hexane fraction was applied directly on uncontaminated filter paper discs and desiccated. On one side of the Petri dished, the loaded discs were placed containing Czepak s Dox agar (ph 7.2). A 5mm disc of vigorously breeding culture of plant pathogens like Fusarium Solani, Fusarium Oxysporum, Rhizoctonia Solani and Macrophomina phasolina were vaccinated at another side of the dish. Respective solvents impregnated on the Discs treated as a control. Every treatment was repeated three times and the plates were incubated at 28 C for five days. Result and Discussion: In the present investigation the anti fungal and Nematicidal activity on the extracted n-hexane fraction has been carried out. The n-hexane oily fractions have been screened. The geographical location of the plant affects the chemical composition to some extent. The essential oil Origanum syriacum originated from Southern Palestine near Al-Khalil city has been screened for activity. Oily fractions of n- hexane examined in vitro against four species of Phyto pathogenic fungi Fusarium Solani, Fusarium Oxysporum, Rhizoctonia Solani and Macrophomina phasolina tested using the agar disc diffusion method, showed anti fungal activity against two species. The largest activity was observed for Fusarium Solani and moderate observed for Fusarium Oxysporum. However, the oil was found to be infective against two fungi i.e. Rhizoctonia Solani and Macrophomina phasolina (Table 1). N-hexane fraction was also evaluated against one specie of root-knot nematode. Showed 28% mortality against M. 1097

Javanica after 24 hours of incubation. However, the mortality significantly increased 83% after 48 hours of exposure (Table 2). Conclusion: The oily fractions of n-hexane extracted of O. syriacum collected from Palestine showed anti fungal and Nematicidal activity. Origanum syriacum showed anti fungal activity against the extremely damaging two plant pathogens Fusarium Solani, Fusarium Oxysporum and produced a zone of inhibition 22mm and 10mm (10 µl/disc) respectively. Fraction also showed Nematicidal activity against the plant parasitic nematode Meloidogyne Javanica and showed 83% mortality. Table 1: Fungicidal activity of the extracted oil of O. syriacum Zone of Inhibition (mm) (10 µl/disc) TREATMENT FS FO MP RS CONTROL 0 0 0 0 OILY FRACTION 20 10 0 0 FS FO MP RS FUSARIUM SOLANI FUSARIUM OXYSPORUM MACROPHOMINA PHASEOLINE RHIZOCTONIA SOLANI Table 2: Nematicidal Activity of the extracted Oil of O. syriacum Mortality of Meloidogyne Javanica Time 24 h 48 h Control 0 0 Oil Fraction 28% 83% BIBLIOGRAPHY: 1. Aftab K. and A. A. Sial. 1999. Phytomedicine: New and old approach. Hamdard Medicus 42(2): 11-15. 1098

2. Zhang X. 1996. Traditional Medicine and WHO. Hamdard Medicus 39 (3); 252-63. 3. Holland B. K. 1996. Prospecting for Drugs in Ancient and Medical European Texts: A scientific Approach. Amsterdam: Hard Academic Publishers. 4. Wilson E. K. 2003. Report on Computational Nanotechnology. Chem. Eng. News 27 29 5. Hugas W. H. 1947. Alexander Fleming and penicillin. London: Priory Press. 6. Pande D., Ali G. & Sirvastara P. S. 1998. Opium poppy a habit forming plant. Hamdard Medicus 41(1) p. 68-89. 7. Hakim M.H. and Siddiqui M. A., Hamdard Medicus 1999, XL11, 15 8. Cragg G. M., Newman D.J., Sander K.M. 1997. Natural Products in Drug Discovery and Development. J. Natural Products. 60: 52-60. 9. Gandilliere B., Bernardell P., Berna P. 2001. Annual Reports in MedicinalCchemistry. San Diego: Academic Press. 10. Nielsen, J.curr. opin.chem. Biol. 2002, 6,297 11. Caspi E. 1980. Acc. Chem. Res. 13: 97-104. 12. Mantto P. and Sammes P. G. 1981. In: Biosynthesis Natural Product, Ellis Horwood Ltd. New York, p 269, 280, 314, 320, 321. 13. Ourisson, G., Rohmer, M. & Poralla, K. 1987. Annu Rev. Microbiol. 41, 301 333. 14. Biellam J.F., 1966. Tetrahedrn Lett. 4803. 15. Tanaka O., Tanaka, N., Ohsawa, T., Litaka Y., and S. Shibata. 1968. Tetahedorn Lett. 4235. 16. Deyer, D.L. 1968. Prog. Chem. Org. Nat. Prod. (L. Zechemeister Ed.). Wien, New York: Springer- Verlag Vol. XXVI. 1099

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