特定波长的LED光脉冲改变覆盆子和黑莓果实在采后的维生素C和有机酸含量

Inti Ganganelli, María Celeste Molina Agostini, A. Galatro, G. E. Gergoff Grozeff
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引用次数: 1

摘要

摘要:发光二极管(LED)作为一种无污染、节能的水果采后处理技术已经崭露头角。本研究的目的是评估不同LED光脉冲对覆盆子和黑莓收获后冷藏的影响。在4℃条件下,每2小时将水果暴露在短LED光脉冲(绿色、蓝色、红色和红色+蓝色)下15分钟,分别保存7天和14天。树莓更容易失水。短LED光脉冲减少了覆盆子的内部分解,并且在黑莓中观察到LED处理的轻微影响。冷藏7 d后,绿光、蓝光和红光处理增加了覆盆子奎宁酸和苹果酸的含量,只有绿光和蓝光LED源也增加了抗坏血酸的含量。此外,蓝、绿和蓝+红LED光处理在14 d时表现出较高的柠檬酸水平。在黑莓中,果实的变化主要是由于冷藏。综上所述,短LED光脉冲可以延长覆盆子采后寿命,减少覆盆子内部的破坏,增加抗坏血酸的含量,表明不同覆盆子品种在成熟和光相互作用下具有不同的生理过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Specific wavelength LED light pulses modify vitamin C and organic acids content in raspberry and blackberry fruit during postharvest
ABSTRACT Light-emitting diodes (LED) have emerged as a non-polluting and energy-saving technology in fruit postharvest. The aim of this work was to evaluate the effect of different LED light pulses during raspberries´ and blackberries´ postharvest under cold storage. Fruit was exposed to short LED light pulses (Green, Blue, Red, and Red+Blue) of 15 min every 2 h for 7 and 14 d of storage at 4°C. Raspberries were more susceptible to water loss. Short LED light pulses decreased internal breakdown in raspberries, and minor effects of LED treatments were observed in blackberries. After 7 d of cold storage, in raspberries, Green, Blue, and Red light treatments increased the content of quinic and malic acids, and only Green and Blue LED sources also increased ascorbic acid content. In addition, Blue, Green, and Blue+Red LED light treatments exhibited a higher level of citric acid at 14 d. In blackberries, fruit changes were mainly because of the cold storage. Overall, these results showed that short LED light pulses can extend the postharvest life of raspberries, decreasing internal breakdown and increasing the content of ascorbic acid, suggesting that different Rubus species have distinct physiological processes underlying ripening and light interactions.
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