Physical, compositional and sensory differences in nuts among pistachio (Pistachia vera L.) varieties

Abstract Differences in some physical, compositional and sensory characteristics among eight varieties of pistachio nuts (Aegina, Pontikis, Bronte, Cerasola, Joley, Kerman, Mumtaz and Sirora) from different origins were studied. The evaluated varieties were cultivated under the same field conditions and the dried nuts were utilised. The percentage of split nuts ranged from 93.8% (Sirora) to 80.2% (Aegina), the 10-nut weight from 15.23 g (Kerman) to 9.7 g (Cerasola), the kernel/nut percentage from 57.24% (w/w) (Pontikis) to 47.08% (w/w) (Kerman) and the ratio of length/width of nut from 1.81 (Aegina and Joley) to 1.56 (Mumtaz). Colour measurements showed the highest shell L* (80.26) for Kerman, the lowest shell h° (81.19) for Mumtaz, the lowest kernel membrane h° (24.43) for Cerasola, and the highest h° (107.23) on the inner kernel of Aegina. Crude protein content varied between 21.87 (Cerasola) and 18.99% d.w. (Joley), and the fat between 57.62 (Joley) and 49.79% d.w. (Cerasola). Among the major fatty acids in kernel oil, oleic ranged from 67.86% in Cerasola to 51.6% in Kerman, linoleic from 27.03% in Kerman to 11.56% in Pontikis and palmitic from 10.24% in Kerman to 8.54% in Cerasola. Linolenic acid was highest in Kerman (0.5%). Myristic, palmitoleic, stearic, vaccenic, arachidic and gondoic acids were also found in all samples. Negative and significant linear correlations were found between oleic and linoleic, and between mono- and poly-unsaturated fatty acids. Most of the physical and compositional characteristics measured were affected significantly by variety. Panelists preferred nuts of big size with a naturally yellowish shell colour. Visual differences in kernels were not significant, whereas Kerman, Sirora and Cerasola gained the panelists’ overall flavour preference among the varieties evaluated.

[1]  E. Küçüköner,et al.  Some chemical characteristics of Pistacia vera varieties produced in Turkey , 2003 .

[2]  W. Horwitz Official Methods of Analysis , 1980 .

[3]  J. Boatella,et al.  Nuts: source of energy and macronutrients , 2006, British Journal of Nutrition.

[4]  M. Maskan Storage stability of whole-split pistachio nuts (Pistachia vera L.) at various conditions , 1999 .

[5]  H. G. Seferoğlu,et al.  Biochemical composition influenced by different locations in Uzun pistachio cv. (Pistacia vera L.) grown in Turkey , 2006 .

[6]  B. Fallico,et al.  Anthocyanins, chlorophylls and xanthophylls in pistachio nuts (Pistacia vera) of different geographic origin , 2007 .

[7]  L. G. Tabil,et al.  Effect of Drying Methods on Quality of Pistachio Nuts , 2003 .

[8]  R. Schothorst,et al.  Results of analysis of the 1994 Dutch duplicate 24-hour diet samples: fatty acids , 2000 .

[9]  Ö. F. Gamli,et al.  The effect of the different packaging and storage conditions on the quality of pistachio nut paste , 2007 .

[10]  R. Singh,et al.  PHYSICAL AND THERMAL PROPERTIES OF PISTACHIOS , 1991 .

[11]  R. G. Mcguire,et al.  Reporting of Objective Color Measurements , 1992 .

[12]  B. Fallico,et al.  Distribution of fatty acids and phytosterols as a criterion to discriminate geographic origin of pistachio seeds , 2007 .

[13]  James F. Thompson,et al.  MAINTAINING QUALITY OF BULK-HANDLED, UNHULLED PISTACHIO NUTS , 1997 .

[14]  J. Folch,et al.  A simple method for the isolation and purification of total lipides from animal tissues. , 1957, The Journal of biological chemistry.

[15]  K. Başer,et al.  Fatty Acid Composition of Pistachio Nuts in Turkey , 2003, Chemistry of Natural Compounds.

[16]  S. Minaei,et al.  Influence of Temperature and Air Velocity on Drying Time and Quality Parameters of Pistachio (Pistacia vera L.) , 2005 .

[17]  L. Ferguson,et al.  BLENDED DRAINAGE WATER IRRIGATION OF PISTACHIOS, CV âKERMANâ, ON FOUR ROOTSTOCKS IN THE SOUTHERN SAN JOAQUIN VALLEY OF CALIFORNIA , 1998 .

[18]  Dan E. Parfitt,et al.  New pistachio varieties show promise for California cultivation , 2009 .

[19]  Valerio Cristofori,et al.  Nut and kernel traits and chemical composition of hazelnut (Corylus avellana L.) cultivars , 2008 .

[20]  S. Kafkas,et al.  Variation in kernel chlorophyll content of different pistachio varieties grown in six countries , 1998 .

[21]  A. Maguire,et al.  Fatty acid profile, tocopherol, squalene and phytosterol content of brazil, pecan, pine, pistachio and cashew nuts , 2006, International journal of food sciences and nutrition.

[22]  F. Sottile,et al.  GENETIC AND PHENOTYPIC DIVERSITY IN PISTACHIO (P. VERA L.) GERMPLASM COLLECTED IN MEDITERRANEAN COUNTRIES , 1998 .

[23]  B. Luh,et al.  Effect of processing on some chemical constituents of pistachio nuts. , 1982 .

[24]  S. Kays,et al.  GENETIC, ENVIRONMENTAL, AND MATURITY EFFECTS ON PECAN KERNEL LIPID, FATTY ACID, TOCOPHEROL, AND PROTEIN COMPOSITION , 1992 .

[25]  S. Kafkas,et al.  LIPID CHARACTERISTICS OF TURKISH AND IRANIAN PISTACHIO KERNELS , 1998 .

[26]  S. Razavi,et al.  The physical properties of pistachio nut and its kernel as a function of moisture content and variety: Part I. Geometrical properties , 2007 .

[27]  E. H. Shokraii CHEMICAL COMPOSITION OF THE PISTACHIO NUTS (Pistacia vera L.) OF KERMAN, IRAN , 1977 .

[28]  S. Sathe,et al.  Chemical composition of selected edible nut seeds. , 2006, Journal of agricultural and food chemistry.

[29]  F. Shahidi,et al.  LIPID CLASS COMPOSITIONS, TOCOPHEROLS AND STEROLS OF TREE NUT OILS EXTRACTED WITH DIFFERENT SOLVENTS , 2008 .

[30]  R. Liu,et al.  Antioxidant and antiproliferative activities of common edible nut seeds , 2009 .