LED-enhanced dietary and organoleptic qualities in postharvest tomato fruit

•One hour of LED light exposure increased the lycopene.•Effect of light strong depending on varieties.•LED light with a high red:far red show more lycopene than white LED light. Tomato fruit possess high lycopene concentrations, which increases after reaching the breaker stage of ripeness. Light emi...

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Bibliographic Details
Published in:Postharvest biology and technology 2018-11, Vol.145, p.151-156
Main Authors: Nájera, Cinthia, Guil-Guerrero, José Luis, Enríquez, Lorenzo Jarquín, Álvaro, Juan Eugenio, Urrestarazu, Miguel
Format: Article
Language:English
Subjects:
Acidity
Cherry tomato
Colour
Cultivars
Darkness
Diet
Dietary supplements
Exposure
Far red light
Firmness
Fruits
Horticulture
Light emitting diodes
Light spectrum
Lighting
Lycopene
Organoleptic properties
Parameters
Product quality
Redondo tomato
Solanum lycopersicum
Tomatoes
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Summary:•One hour of LED light exposure increased the lycopene.•Effect of light strong depending on varieties.•LED light with a high red:far red show more lycopene than white LED light. Tomato fruit possess high lycopene concentrations, which increases after reaching the breaker stage of ripeness. Light emitting diode (LED) systems have emerged as a clean and efficient artificial lighting technique for use in horticulture. The objective of this research was to examine the effect of LEDs on postharvest and lycopene quality parameters. The effects on quality parameters were significantly different depending on the tomato fruit cultivar. The commercial and organoleptic quality parameters most affected were firmness and titratable acidity. The lycopene concentration in all tomato cultivars increased between 30% and 60% when they were exposed to LED light compared with dark-exposed fruit. One hour of LED light exposure per day during the postharvest phase of fruit increased commercial and organoleptic parameters, and increased the lycopene concentration. Fruit exposed to LED light with a high red:far red (R:FR) light ratio had increased firmness compared with those exposed to other types of white LED light. The highest R:FR ratio used in this study resulted in fruit with higher titratable acidity than those exposed to lower R:FR ratios. Overall, the results of this study demonstrated that the postharvest exposure of tomato fruit to LED light with a high R:FR ratio induces lycopene synthesis, with lycopene concentrations being 41% higher in comparison with exposure to darkness and 24% higher in comparison with exposure to other LED lighting conditions.
ISSN:0925-5214
1873-2356
DOI:10.1016/j.postharvbio.2018.07.008