Özet:

Objective: This research was carried out to determine the variation of color values, which is one of the important quality criteria in nut and kernel in hazelnut, according to different parts of the fruit, and the relations between them by correlation and principal component analysis. Materials and Methods: The research was carried out on 'Tombul', 'Palaz', 'Çakıldak', 'Kara Fındık', 'Kuş', 'Sivri', and 'Yuvarlak Badem' cultivars grown in Gülyalı district (Ordu, Türkiye). L, a, b, Chroma (C) and hue (h) color measurements of dried fruits were made at the equatorial, base and tip of the nut, and in testa, core and flour in kernel. Measurements were made at five different points on each part of the fruit. Correlation and principal component analysis were applied to the data obtained from the measurements. Results: In the 30 color values determined for a total of six parts of the fruit, the highest variation was seen in the tip a, flour a and core a, the lowest variation in the base h, testa h, flour h and core L values. The highest relations between L, a, b, C and h color values were between core C-b, flour C-b, equatorial C-b, base C-b, tip C-b, equatorial h-L, tip C-a, testa C-b, base C-a and equatorial h-b, respectively positively correlated. In principal component analysis, 2/3 of the total variation in the color characteristics of different parts of hazelnut fruits was reached in the first five components (69.68%). The highest contributions to the first principal component were made by flour b, core a, flour C, core C, core b, flour a, base a, base C and base b positively, and testa L and flour L properties were negatively, respectively. Conclusion: The highest variation in the color values of the different parts of the nut and kernel was observed in the a, the lowest h values. The highest correlations between color values in each part were between C and b values, positively. It can be said that there are significant correlations between the color values of the nut and the kernel, and between the testa and the other parts of the kernels. In addition, according to principal component analysis, it can be said that the variables in the 1st and 2nd principal components may be sufficient to distinguish varieties according to colors.