Abstract
One of the challenges for agriculture in the coming years will be producing more food avoiding reducing the nutritional values of fruits and vegetables, sources of nutraceutical compounds. It has been demonstrated that light-emitting diodes (LEDs) used as a supplementary light (SL) technology improve tomato yield in Mediterranean greenhouses, but few data have been reported about SL effects on fruit physio-chemical parameters. In this study, three tomato hybrid (F1) cultivars were grown for year-round production in a commercial semi-closed glasshouse in Southern Italy: red cherry type (“Sorentyno”), red plum type (“Solarino”), and yellow plum type (“Maggino”). From 120 to 243 days after transplant (DAT), Red/White/Blue LEDs were used as SL. The fruits harvested 180 DAT were analyzed and those obtained under LEDs had 3% more dry weight, 15% more total soluble solids, and 16% higher titratable acidity than fruits grown only under natural light. Generally, the antioxidant activity and the mineral profile of the fruits were not negatively influenced by SL. Lycopene content was unchanged and vitamin C content of “Sorentyno” even increased by 15% under LEDs. Overall, LEDs used as SL technology could be one of the tools used by agriculture in Mediterranean basin to produce more food maintaining high quality production.
Highlights
The relative (%) amount of daily light integral (DLI) supplied from light-emitting diodes (LEDs) (DLISL ) decreased from 48%, between 121 and 150 days after transplant (DAT), to 8% between 211 and 243 DAT
After the results obtained about yield, in this experiment we investigated if LEDs supplementary light source-maintained tomato fruit quality in Mediterranean greenhouse climatic conditions
Our results indicate that the supplemental light technology could be used as an alternative and innovative method for producing tomato fruits biofortified with Ca2+
Summary
Sustainable agriculture and food systems play a central role in ensuring the ( utopic) aims of ending hunger and malnutrition; in this context, greenhouse horticulture sector is continually improving its technological level to increase yield and nutritional content of products. The technological developments of greenhouse sector do not necessarily solve hunger and malnutrition, especially for the areas where hunger and malnutrition are an everyday problem, but it aims to reduce the environmental impact of horticulture and to increase the healthy properties of vegetables. Based on the United Nations sustainable development goals, high-tech greenhouses will remain the most efficient systems for food production [1]
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