Quantitative evaluation of cucumber fruit texture and shape traits reveals extensive diversity and differentiation

•Fruit texture and shape were evaluated quantitatively by computer-aided analyses.•The methods can be used to distinguish the characteristics of cucumber types.•Differentiation that has occurred in the fruit traits was detected.•The greatest differentiation among cucumber types were observed in fles...

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Bibliographic Details
Published in:Scientia horticulturae 2016-02, Vol.199, p.133-141
Main Authors: Shimomura, Koichiro, Horie, Hideki, Sugiyama, Mitsuhiro, Kawazu, Yoichi, Yoshioka, Yosuke
Format: Article
Language:English
Subjects:
Crispness
cucumbers
Cucumis sativus
cultivars
developmental stages
domestication
EFDs
Elliptic Fourier descriptors
FDK
FDR
Firmness
fruit quality
genetic improvement
hardness
hybrids
PCA
placenta
Principal component analysis
quantitative analysis
texture
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Summary:•Fruit texture and shape were evaluated quantitatively by computer-aided analyses.•The methods can be used to distinguish the characteristics of cucumber types.•Differentiation that has occurred in the fruit traits was detected.•The greatest differentiation among cucumber types were observed in flesh crispness.•Crispness showed the great difference between Japanese F1 and other type cultivars. For many years, cucumber (Cucumis sativus L.) has been genetically improved by breeders to meet consumer demands. A wide variety of cucumber cultivars, differing in fruit qualities such as texture and shape, are grown around the world, and several major cucumber types have been developed in different regions. We used several computer-aided evaluation methods to assess the diversity in fruit texture and shape traits among a wide variety of world cucumber cultivars. Firmness of fruit skin, placenta and flesh and crispness of flesh were evaluated quantitatively and objectively by analysis of puncture-test data (force-deformation curves). Fruit shape was also evaluated quantitatively and objectively by using elliptic Fourier descriptors (EFDs) and principal component analysis (PCA). Fruit firmness and crispness clearly differed among cultivars and growth stages. Flesh crispness scores were significantly higher in Japanese F1 hybrid cultivars, which maintained relatively high crispness even at maturity; in contrast, the crispness of the other type cultivars remained low at all stages. PCA of EFDs detected three major components of fruit shape variation: the ratio of length to diameter, the amount of swelling at the fruit ends and the shape of the stem end. Significant differences were detected in these shape components among cultivars and cucumber types. These results indicate that quantitative differentiation has occurred in the fruit texture and shape traits of cucumber during domestication and subsequent breeding.
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2015.12.033