Organik Şartlarda Yetiştirilen Nanenin (Mentha x piperita L.) Verim, Besin Maddesi ve Uçucu Yağ İçeriği

Yıl 2015, Cilt: 29 Sayı: 1, 29 - 36, 19.12.2015

Bihter Çolak Esetlili Özgür Çobanoğlu Mahmut Tepecik Bintuğ Öztürk Dilek Anaç

Öz

Anahtar Kelimeler

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Organik Şartlarda Yetiştirilen Nanenin (Mentha x piperita L.) Verim, Besin Maddesi ve Uçucu Yağ İçeriği

Öz

Bu çalışmada, nanenin (Mentha x piperita L.) verim, temel besin elementleri (N, P, K, Ca, Na, Fe, Zn, Mn, Cu ve B), uçucu yağ ve bileşenleri üzerine organik tarım sistemi ile yetiştiriciliğin etkisinin belirlenmesi amaçlanmıştır. Sertifikalı farklı organik gübre ve girdi uygulamalarının etkisinin incelendiği denemede, nanenin besin maddesi içeriği belirlenmiştir. Ayrıca farklı parametreler üzerine etkileri de saptanmıştır. Uygulamalara göre taze ve kuru herba verimi istatistiki olarak farklılaşmış ve kemik unu ile potasyumlu feldispat uygulanan parsellerde daha yüksek bulunmuştur. İkincil bitki besin elementi üzerine de kemik unu ve potasyumlu feldispat ile hamfosfat ve zeolit uygulamaları daha ön plana çıkmıştır. Nane uçucu yağ verimi ve bileşenleri üzerine kemik unu uygulamalarının önemli düzeyde etkili olduğu saptanmıştır

Anahtar Kelimeler

Organik gübre ve girdiler, tıbbi bitkiler, Mentha x piperita L., organik tarım, uçucu yağ

Kaynakça

• Acikgoz, N., Akkas, M.E., Moughaddam, A. and K. Ozcan. 1994. TARIST: Statistics and quantitative genetic Package for pc's. Center of Computer Research and Practice. Proceedings of the International Symposium of Computer, October 5-7, 1994, University of Ege, Izmir, Turkey.
• Aflatuni, A. 2005. The yield and essential oil content of mint (Mentha ssp.) in Northern Ostrobothnia. Oulu University Press, Finland, 52 pp.
• Anonymous 1951. Soil survey staff. Handbook 18, Washington.
• Baytop, T., 1984. Treatment with Plants in Turkey. Ist. Arc University, 3255: 75-89.
• Bingham, F. T., 1949. Soil tests for phosphate. Agriculture 3: 11-14.
• Black, C. A., 1965. Methods of soil analysis. Part 2 American Society of Agronomy: Madison, Wisconsin.
• Bremner, J.M., 1965. Total nitrogen. In: C.A. Black (Ed.), Methods of soil analysis, Part 2, American Society of Agronomy, Madison, pp. 1149-1178.
• Ceylan, A., Bayram, E. and Ozay, N. 1994. The effects of N-fertiliser on the yield and quality of Thymus vulgaris in ecological condition of Bornova-Ismir. Turkish J. Agr. and Forestry. 18: 249- 255.
• Clark, R.J. and R.C. Menary. 1979a. The importance of harvest date and plant density on the yield and quality of Tasmanian peppermint oil. J. Amer. Soc. Hort. Sci. 104:702–706.
• Clark, R.J. and R.C. Menary. 1979b. Effects of photoperiod on the yield and composition of peppermint oil. J. Amer. Soc. Hort. Sci. 104:699–702.
• Clark, R.J. and R.C. Menary. 1980. Environmental effects on peppermint (Mentha piperita L.). I. Effect of day length, photon flux density, night temperature and day temperature on the yield and composition of peppermint oil. Aust. J. Plant Physiol. 7:685–692.
• Clark, R.J. and R.C. Menary. 2006. The effect of two harvests per year on the yield and composition of Tasmanian peppermint oil (Mentha piperita L.). J. Sci. Food Agr. 35:1191–1195.
• Çağlar, K.Ö., 1949. Soil science. Ankara University, Agricultural Faculty, Turkey, No:10.
• European Pharmacopoeia 1996. 3. Edition, p:121, Consil of Europa, Strasbourg.
• Harrıs, B., 2006. Menthol: a review of its thermoreceptor interactions and their therapeutic applications. The International Journal of Aromatherapy, Amsterdam,v.16, n.3-4, p.117-131.
• Hornok, L., 1992. The Cultivation of Medicinal Plants. In Hornok L. (ed.). Cultivation and Processing of Medicinal Plants. John Wiley & Sons, Chichester, pp. 187–196.
• ISO 1995. Soil quality, extraction of trace elements soluble in aqua regia, ISO 11466.
• Jeliazkova, E.A., Zheljazkov, V.D., Craker, L.E., Yankov, B. and T. Georgieva. 1999. NPK fertilizer and yields of peppermint, Mentha ×piperita Acta Hort. 502:231–236.
• Kacar, B., 1972. Chemical analysis of plant and soil, II. Plant Analysis. Ankara University Agricultural Faculty Publications. No:453, Ankara, Turkey.
• Kızıl, S., Haşimi, N., Tolan, V., Kılınç, E. and U. Yüksel. 2010. Mineral content, essential oil components and biological activity of two mentha species (M. Piperita L., M. Spicata L.). Turkish Journal of Field Crops, 2010, 15(2): 148-153.
• Kothari, S.K. and U.B. Singh. 1995. The effect of row spacing and nitrogen fertilization on scotch spearmint (Mentha gracilis Sole) J. Essent. Oil Res. 7:287–297.
• Lott, W.L., Nery, J.P., Gall, J.R. and J.C. Medcoff. 1956. Leaf Analysis Techniques in Coffee Research. IBEC Res. Inst. Pub. No: 9.
• Mitchell, A.R. and N.A. Farris. 1996. Peppermint response to nitrogen fertilizer in an arid climate. J. Plant Nutr. 19:955–967.
• Munsı, P.S., 1992. Nitrogen and phosphorus nutrition response in Japanese mint cultivation. Acta Horticulturae, Leuven, v.306, p.436-442.
• Nedkov, N.K. and G.V. Georgiev. 1991. A study of different irrigation practices used for Mentha piperita in Bulgaria. J. Essent. Oil Res. 3:435–440.
• Ozcan M.M. and M. Akbulut. 2007. Estimation of minerals, nitrates and nitrite contents of medicinal and aromatic plants used as spices, condiments and herbal tea. Food Chem. 106:852-858.
• Özgüven, M. and S. Kırıcı. 1999. Research on Yield, Essential Oil, Contents and Components of Mint (Mentha) Species in Different Ecologies. Tr. J. of Agriculture and Forestry 23 (1999) 465-472.
• Piccaglia, R., Dellacecca, V., Marotti, M. and E. Giovanelli. 1993. Agronomic factors affecting the yields and the essential oil composition of the peppermint (Mentha ×pipperota L.) Acta Hort. 344:29–40.
• Pranz, C.H., Ceylan, A., Hölzl, J. and A. Vömel. 1984. Influence of the growing site on the quality Mentha piperita L. oil. Acta Horticulturae, 144: 145-150.
• Pratt, P.F., 1965. Potassium, Edit Black, C. A. Methods of Soil Analysis Part-2. American Society of Agronomy Inc. Publisher Madison, Wisconsin, USA, 1010-1022.
• Ram, M., Ram, R. and S. Singh. 1995. Irrigation and nitrogen requirements of Bergamot mint on a sandy loam soil under sub-tropical conditions. J. Agr. Water Mgt. 27:45–54
• Scavroni, J., Boaro, C.S.F., Marques, M.O.M. and L.C. Ferreira. 2005. Yield and composition of the essential oil of Mentha piperita L. (Lamiaceae) grown with biosolid. Braz. J. Plant Physiol. 17:345–352.
• Singh, V.P., Chatterjee, B.N. and D.V. Singh. 1989. Response of mint species to nitrogen fertilization. J. Agr. Sci. 113:267–271.
• Thomas, G.W., 1982. Exchangeable cations, pp. 159-161. In C.A. Black (ed.). Methods of Soil Analysis, Part 2. Agronomy No. 9. Am. Soc. of Agron. Inc., Madison, WI
• Topalov, V.D., 1962. Mentha , p. 106–153. In: Topalov, V.D. (ed.). Essential oil and medicinal plants. Hr. G. Danov Press, Plovdiv, Bulgaria
• USDA-NASS Crop Report 2007. January 2009. http://www.nass.usda.gov/Statistics_by_State/Oregon/Publications/Field_Crop_Report/crop%2 0reports/01_12cr.pdf>.
• Zheljazkov, V. and A. Margina. 1996. Effect of increasing doses of fertilizer application on quantitative and qualitative characters of mint.Acta Hort. 426:579–584.
• Zheljazkov, V.D., Cantrell, C.L., Astatkie, T. and M.W. Ebelhar. 2010. Peppermint productivity and oil composition as a function of nitrogen, growth stage, and harvest time. Agron. J. 102:124– 128.