4.7 Article

Nutrient and Nutraceutical Quality of Rocket as a Function of Greenhouse Cover Film, Nitrogen Dose and Biostimulant Application

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AGRONOMY-BASEL
卷 13, 期 3, 页码 -

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MDPI
DOI: 10.3390/agronomy13030638

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Diplotaxis tenuifolia L; mineral composition; antioxidant capacity; ascorbic acid; chlorophyll; carotenoids

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The quality of greenhouse wild rocket is influenced by light environment and nitrogen fertilization. The effects of two cover materials (a diffuse light film and a traditional clear film) and three nitrogen regimes, in combination with a biostimulant, on the nutrient composition and antioxidant properties of rocket plants were investigated. The results showed that the leaf concentration of minerals was higher under the diffuse light film, and nitrogen supply and biostimulant enhanced mineral uptake. The diffuse light film had higher hydrophilic antioxidant activity in some harvests, while nitrogen fertilization reduced phenols and ascorbic acid content.
The nutrient and nutraceutical quality of greenhouse wild rocket is strongly influenced by the light environment and nitrogen fertilization. We investigated the effects of two cover materials, a diffuse light film (Film1) and a traditional clear film (Film2), and three nitrogen regimes, no N supply (N0) and sub-optimal (N1) and optimal (N2) doses, also in combination with a biostimulant (Stimolo Mo), on the mineral composition, antioxidant properties and chlorophyll and carotenoid content of rocket plants grown in the autumn-spring cycle. The leaf concentration of most of the minerals was higher under Film1 compared to Film2. In general, K, Ca, Mg and Na were higher, and S was lower in the presence of N supply, and the addition of the biostimulant promoted the mineral uptake. Under Film1, the hydrophilic antioxidant activity (HAA) was higher in some harvests, and the ABTS antioxidant activity (ABTS AA) in the first one, while always lower afterward, than under Film2. Nitrogen fertilization did not affect the antioxidant activity, while it reduced the content of total phenols and ascorbic acid. The biostimulant application increased ABTS AA at the optimal N dose and reduced total phenols in unfertilized plants. Both the diffuse light and the N supply inhibited the synthesis of ascorbic acid, while N fertilization and the biostimulant promoted the synthesis of chlorophylls. The experimental treatments exerted variable effects over time and significant interactions with the harvest period were found for many of the investigated parameters.

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