4.7 Article

Effect of cell size distribution on mechanical properties of strawberry fruit tissue

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FOOD RESEARCH INTERNATIONAL
卷 169, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.foodres.2023.112787

关键词

Absorption coefficient; Cell size; Laser light scattering; Strawberry fruit; Tissue mechanics

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Strawberry fruit, being high value and perishable products, are prone to decay due to their soft texture. A study was conducted to investigate the cell size distribution of strawberry tissue and its relation to fruit tissue mechanics. Results showed a wide range of cell sizes from 30-500 μm, with a peak frequency between 200 and 240 μm. The study also demonstrated that the obtained cell size distribution data were correlated with fruit tissue mechanics, providing a better understanding of stress and damage problems during compression in supply chain processes.
Strawberry fruit are high value, but also perishable products, because of their soft texture. Better insight on the strawberry mechanics are requested for understanding postharvest decay due to bruising. To gain data on the volumetric cell size distribution of strawberry tissue capturing the volume of 10 * 5 * 5 mm, fruit cells were suspended in 0.3 M mannitol solution. Cell size of 'Flair', 'Malwina', and 'Sonata' strawberry fruit, each in three commercially marketed ripeness stages (N = 135), was measured with particle size analyzer based on laser light scattering density analysis (LSD). The strawberry cell size distribution showed a wide range from 30-500 mu m with frequency peak between 200 and 240 mu m. The cell size of 'Flair' and 'Malwina' was smaller compared to 'Sonata' strawberry fruit. The volumetric cell size distribution obtained by LSD was correlated to microscopy results (R2 = 0.97-0.99) obtained on single cells (N = 1215), indicating that LSD can be used for measuring the percentages of different cell size ranges of volumetric fruit sample. The three ripeness stages were classified with Gaussian Naive Bayes approach considering absorption coefficient of anthocyanins at 405 nm (GNBa) and percentage frequency of peak cell size (GNBc). For GNBa classes, ripening stage showed no interaction with failure stress, strain, and elastic modulus. Considering GNBc classes, the failure stress and elastic modulus of strawberry tissue increased with enhanced percentage frequency of peak cell size for all three cultivars. An enhanced percentage frequency of large cells resulted in increased susceptibility of the strawberry tissue. Overall, this study showed that LSD cell size distribution data from a volumetric tissue sample are related to fruit tissue mechanics, which is conducive to a better analysis of the actual stress and damage problems of strawberry fruit tissue specimens during compression in supply chain processes.

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