Advancing fruit preservation: ecofriendly treatments for controlling fruit softening

Date published

2024-08-26

Free to read from

2024-09-30

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Volume Title

Publisher

MDPI

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Article

ISSN

2311-7524

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Citation

Mthembu SS, Magwaza LS, Tesfay SZ, Mditshwa A. (2024) Advancing fruit preservation: ecofriendly treatments for controlling fruit softening. Horticulturae, Volume 10, Issue 9, August 2024, Article number 904

Abstract

Textural softening is a major factor that limits the storage potential of fruit. Fresh produce markets incur severe financial losses due to excessive fruit softening. The application of preservation strategies aimed at mitigating fruit softening is crucial for optimising the marketability of fruit. Proposed preservation strategies include ecofriendly treatments, namely, hexanal, edible coatings, heat treatments, ozone and UV-C irradiation. These treatments optimise firmness retention by targeting the factors that affect fruit softening, such as ethylene, respiration rates, enzymes and pathogens. This review discusses the mechanisms by which ecofriendly treatments inhibit fruit softening, providing insights into their effect on ethylene biosynthesis, cell wall metabolism and disease resistance. Although ecofriendly treatments offer a promising and sustainable approach for delaying fruit softening, the optimisation of treatment application protocols is needed to improve their efficacy in retaining fruit firmness. Studies reporting on the molecular mechanisms by which ecofriendly treatments inhibit fruit softening are limited. Future studies should prioritise proteomic and transcriptome analyses to advance our understanding of the underlying molecular mechanisms by which ecofriendly treatments delay the fruit-softening process.

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Software Description

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Github

Keywords

30 Agricultural, Veterinary and Food Sciences, 3008 Horticultural Production, 30 Agricultural, veterinary and food sciences, ethylene biosynthesis, cell wall metabolism, gene expression, firmness, lignin synthesis

DOI

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Attribution 4.0 International

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Funder/s

This research was funded by the National Research Foundation of South Africa (Grant numbers: SFH220123657394 and CSRP2205046155).