Abstract
In this study, berry dimensions and shape traits, which are important for the design of the grape processing system and the classification of 10 different grape varieties grown in same ecological conditions (‘Ata Sarısı’, ‘Barış’, ‘Dımışkı’, ‘Hatun Parmağı’, ‘Helvani’, ‘Horoz Karası’, ‘Hönüsü’, ‘İtalia’, ‘Mevlana Sarısı’, and ‘Red Globe’) were determined; differences between the varieties were identified with the use of discriminant analysis. The largest grape varieties were identified as ‘Ata Sarısı’ and ‘Red Globe’. The ‘Red Globe’ and ‘Helvani’ varieties had geometrically sphere-like shape. The ‘Barış’ variety had the lowest size averages. According to elliptic Fourier analysis, the primary source of shape variation was ellipse and sphere-looking varieties. However, shape variation was seen due to the existence of a small number of drop-like varieties. According to discriminant analysis, shape differences of the varieties were defined by two discriminant functions. Based on these discriminant functions, the greatest classification performance was achieved for ‘Mevlana Sarısı’ and ‘Dımışkı’. In scatter plots, three shape definitions (sphere, ellipse, and drop) were made for grape varieties. Cluster analysis revealed 4 sub-groups. The first sub-group included the ‘Mevlana Sarısı’ variety; the second sub-group included the ‘Hönüsü’, ‘Hatun Parmağı’, ‘Dımışkı’, and ‘Horoz Karası’ varieties; the third sub-group included the ‘Ata Sarısı’ variety; the fourth sub-group included the ‘Barış’, ‘Helvani’, ‘İtalia’, and ‘Red Globe’ varieties. The variety in the first group had a geometrically ellipse-like shape, the largest length, and the smallest width. The size data were the smallest for the second sub-group. The third sub-group, with the ellipse-like shape, had the large size data. The grape varieties the closest to the sphere were classified in the fourth group, and these varieties had the large sizes.
Highlights
Horticulture sector, including viticulture, constitute an enormous income source for millions of farmers worldwide
One promising method to describe fruit shape is based on elliptic Fourier descriptors (EFDs)
Image files of 40 berries of each variety were used in elliptic Fourier analysis (EFA) was conducted in 4 stages with the use of SHAPE software [39]
Summary
Horticulture sector, including viticulture, constitute an enormous income source for millions of farmers worldwide. Shape is important in the variety identification of horticultural crops as morphologically [5,7,8]. One promising method to describe fruit shape is based on elliptic Fourier descriptors (EFDs). To characterize shapes in grape varieties, some other techniques have been conducted These methods include the use of elliptic Fourier analysis (EFA) (that analyzes closed contours, immaterial of the size and configuration). Elliptic Fourier descriptors were used to put forth morphological differences, define shape geometries, and identify variations in the shape geometries of the grape varieties. There are no reports on the application of image-based techniques, EFA, to systematically establish shape descriptor states in Turkish main grape samples
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