Ana Ürün Koşullarında Bakteri (Rhizobium sp.) ve Azotlu Gübre Uygulamalarının Halisbey Yerfıstığı Çeşidinde Yağ Asitleri Üzerine Etkisi

Bu çalışma Ç.Ü. Ziraat Fakültesi Tarla Bitkileri Bölümü AraştırmaAlan’ında 2015 ve 2016 yıllarında ana ürün yetiştirme sezonundatesadüf blokları deneme desenine göre 3 tekrarlamalı olarakkurulmuştur. Bakteri ve farklı dozlardaki (0 kg/da, 4 kg/da, 8 kg/da,12 kg/da, 16 kg/da, 20 kg/da ve 24 kg/da) azot gübresinin Halisbeyyerfıstığı çeşidi üzerine etkileri incelenmiştir. Bu çalışmada; bakterive farklı azot dozu uygulanan Halisbey yerfıstığı çeşidinin yağ asitleri(palmitik asit, stearik asit, oleik asit, linoleik asit, behenik velignoserik asit) içeriği incelenmiştir. Ana ürün koşullarında, oleik asit24N+B (%53.22) ve 20N+B (%53.18) uygulamalarında çok yüksekbulunmuştur. Linoleik asit ise Kontrol (%30.39) ve 4Nuygulamalarında en yüksek bulunmuştur.

The Effect of Bacteria (Rhizobium sp.) and Nitrogen Fertilizer Applications on Fatty Acids in Halisbey Peanut Variety in Main Product Conditions

This study was conducted at the research area of Field Crops Department in Çukurova University, Agricultural Faculty in 2015 and 2016. The experimental was designed as a Randomized Completed Block design with three replications The objective of this study was to determinate the effect of seven different nitrogen fertilizer doses (0, 40, 80, 120, 160, 200 and 240 kg ha-1) and Rhizobium bacteria inoculation on some agronomic and quality characteristics of Halisbey peanut cultivar. In this study; the content of palmitic acid, stearic acid, oleic acid, linoleic acid, behenic and lignoceric acid of Halisbey peanut variety applied with different nitrogen doses were investigated. Fatty acids (palmitic acid, stearic acid, oleic acid, linoleic acid, behenic acid and lignoceric acid) content of Halisbey peanut variety was investigated. In the main cropped conditions, oleic acid was found very high in 24N+B (53.22%) and 20N+B (53.18%) applications. Linoleic acid gave the highest value in Control (30.39%) and 4N applications.

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Ahmed EM, Young CT 1982. Composition, Quality and Flavor of Peanut. Peanut Science and Technology. (Ed. H.E. Pattee and C. T. Young), pp. 665-688, APRES. Inc. Texas, 825 p.
Andersen PC, Hill K, Gorbet DH, Brodbeck BV 1998. Fatty Acid and Amino Acid Profiles of Selected Peanut Cultivars and Breeding Lines, J. Food Composition and Analysis, 11:100-111.
Andersen PC, Gorbet DW 2002. Influence of Year and Planting Date on Fatty Acid Chemistry of High Oleic Acid and Normal Peanut Genotypes. J. Agric. Food Chem., 50: 1298-1305.
AOCS 2010. Official and recommended methods. American oil Chemists’ Society Press. Champaing, IL, USA.
Ardahanlı T 1997. Farklı Seviyelerde Uygulanan Azotlu Gübrenin Yerfıstığı Bitkisinin Verim Ve Kimi Kalite Ögelerine Etkisi. Ege Ü. Fen Bilimleri Enstitüsü Toprak Anabilim Dalı Yüksek Lisans Tezi, İzmir, 63 s.
Arıoğlu H 2014. Yağ Bitkileri Yetiştirme ve Islahı Ders Kitabı. Ç. Ü. Ziraat Fakültesi Ders Kitapları Yayın No: A-70, Genel Yayın No: 220, Adana, 204 s
Arıoğlu HH, Güllüoğlu L, Bakal H, Kurt C, Onat B 2017. The Effect of Harvesting Times on Oil And Fatty Acid Composition of Peanut Varieties Grown in Main Cropped Condition in Cukurova Region (Mediterranean Area) in Turkey. 3rd International Symposium for Agriculture and Food – ISAF 2017. Journal of Agricultural Food, and Environmental Sciences, September 2018.
Boydak E, Karaaslan D, Türkoğlu H 2010. The Effect of Different Nitrogen and Irrigation Levels on Fatty Acid Composition of Peanut Oils. Turkish Journal of Field Crops, 15(1): 29-33.
Braddock JC, Sims CA, O’keefe SF 1995. Flavor and Oxidative Stability of Roasted High Oleic Acid Peanuts. J. Food Sci. 60:489-493.
Davis JP, Dean LO, Faircloth WH, Sanders TH 2008. Physical and Chemical Characterizations of Normal and High-Oleic Oils from Nine Commercial Cultivars of Peanut. J. Amer. Oil Chem. Soc. 85:235-243.
Dean LL, Davis JP, Sanders TH 2011. Groundnut (Peanut) Oil. Pages 225-239. In: F. D. Gunstone (ed). Vegetable Oils in Food Technology: Composition, Properties and Uses, Second Edition. Wiley-Blackwell, West Sussex, UK. 337 p.
Demurin YA, Skoric D, Veresbaranji I, Jocic S 2000. Inheritance of Increased Oleic Acid Content in Sunflower Seed Oil. HELIA, 23: 87-92.
Dingil M, Şenol S, Öztekin, ME 2008. Çukurova Üniversitesi Kampüs Alanı Topraklarının Coğrafi Bilgi Sistemi (Cbs) Kullanılarak Detaylı Toprak Etüt ve Haritasının Güncellenmesi. Çukurova Üniversitesi Bilimsel Araştırma Projeleri (Sonuç Raporu), Proje No: ZF2005BAP8.
Dwivedi S, Nigam SN, Nageswara R, Singh U, Rao KVS 1996. Effect of Drought on Oil, Fatty Acids and Protein Contents of Groundnut (Arachis hypogaea L.) Seed. Field Crops Research, 48: 125-133. FAO 2017. FAO Statistical Databases. http://www.fao.org
Frink CR, Waggoner PE, Ausubel JH 1999. Nitrogen Fertilizer: Retrospect and Prospect. Proc. Natl. Acad. Sci. USA 96, 1175-1180.
Gök M, Onaç I, 1995. Hilvan ve Baziki Ovalarında Yaygın Toprak Serilerinin Bazı Mikrobiyolojik Özellikleri. İlhan Akalan Toprak ve Çevre Sempozyumu, 2:158-167.
Hassan FU, Ahmad RA, Oadır G 2003. Oil and Fatty Acid Composition of Sunflower in Response to Seasonal Variation. HELIA, 23: 121-8.
Hassan FU, Manaf A, Ejaz M 2005. Determinants of Oil and Fatty Acid Accumulation in Peanut Int. J. Agri. Biol., 7: 895-899.
Holmes MRJ, Bennett D 1979. Effect of Nitrogen Fertilizer on the Fatty Acid Composition of Oil from Low Erucic Acid Rape Varieties. J. Sci. Food Agric., 30: 264-266.
Kacar B 2005. Potasyumun Bitkilerde İşlevleri ve Kalite Üzerine Etkileri. Tarımda Potasyumun Yeri ve Önemi Çalıştayı. 3-4 Ekim 2005, Eskişehir, 20- 30 s.
Maiti R, Ebeling PW 2002. The Peanut (Arachis hypogaea) Crop. Science Publisher, Inc., 376 p.
Patil BN, Lakkineni KC, Bhargava SC 1996. Seed Yield and Yield Contributing Characters as İnfluenced by N Supply in Rapeseed-Mustared. J. Agron. Crop Sci. 177 (3): 197-205.
Shin E-C, Craft BD, Pegg RB, Phillips RD, Eitenmiller RR 2010. Chemometric Approach to Fatty Acid Profiles in Runner Type Peanut Cultivars by Principal Component Analysis (PCA). Food Chem., 119:1262-1270.
TUİK 2018. Türkiye İstatistik Kurumu Bitkisel Üretim İstatistikleri, Ankara http://www.tuik. gov.tr
Uyanık M, Rezaeieh PKA, Delen Y, Gürbüz, B 2011. Baklagillerde Bakteri Aşılaması ve Azot Fiksasyonu. Ziraat Mühendisliği Dergisi, 357: 8-12.
Weiss EA 2000. Oilseed Crops. P. 364. Blackwell Science Ltd. Paris, Tokyo, Berlin, Victoria.
Xiang Z, Xin-You Z, Jia-Wei M, Yu-Ting Z 2011. Effect of Nitrogen Fertilization on Yield and Quality of Different Peanut Cultivars. Plant Nutrition and Fertilizer Science. 17 (6): 1417-1423.
Zhou LY, Li XD, Tang X, Lin YJ, Li ZF 2007. Effects of Different Application Amount of N, P, K Fertilizers on Physiological Characteristics, Yield and Kernel Quality of Peanut. The Journal of Applied Ecology. 18 (11): 2468-2474.