Non-destructive techniques for mitigating losses of fruits and vegetables

A. Silveira, Silvia Rodríguez, R. Kluge, L. F. Palaretti, Carlos Inestroza, V. Escalona
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Abstract

Fruits and vegetables losses and wastage have massive impacts on the economy, as they constitute about half of the 1.3 billion tons of food annually lost; on the environment, because its elimination generates 10%-12% of greenhouse gases, and on society, because one of every four calories produced is not consumed. Losses are generated during production, postharvest, and marketing periods. In developing countries, only in postharvest, losses reach between 40% and 50% depending on the product considered. Losses can be grouped into physical, biological, and physiological, and their reduction constitutes a challenge that countries are attempting to tackle through both individual and collaborative actions. For applying successful mitigation strategies, not only their quantification but also the identification of factors and occasions in which losses occur are of utmost importance. In this sense, the use of non-destructive techniques is especially useful as such techniques facilitate the detection of physical damages before they are visible or the identification of pathogens before they develop. Other aspects include the possibility of monitoring refrigeration conditions during storage and transport, identifying the occurrence of a cold chain break, and making it possible to rectify the same. In this paper, various techniques applicable to the identification and reduction of losses are reviewed.
减轻水果和蔬菜损失的非破坏性技术
水果和蔬菜的损失和浪费对经济产生巨大影响,因为它们占每年损失的13亿吨粮食的一半左右;在环境方面,因为它的消除产生了10%-12%的温室气体;在社会方面,因为生产的每四卡路里中就有一卡路里没有被消耗。损失发生在生产、收获后和销售期间。在发展中国家,仅在采后,根据所考虑的产品,损失可达40%至50%。损失可分为物理损失、生物损失和生理损失,减少损失是各国试图通过单独行动和合作行动来解决的一项挑战。为了成功地实施缓解战略,不仅要对其进行量化,而且要确定发生损失的因素和场合,这一点至关重要。从这个意义上说,使用非破坏性技术特别有用,因为这种技术有助于在物理损伤可见之前发现它们,或在病原体形成之前识别它们。其他方面包括在储存和运输过程中监控制冷条件的可能性,识别冷链断裂的发生,并使其有可能进行纠正。本文综述了用于识别和减少损失的各种技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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