Abstract
The potential impact of increased levels of potassium (K+) in hydroponic solution on the production of bioactive compounds, which provide added value to products, is relevant for local economy and human health. This research pursues assessing different levels of K+ on the nutrition of basil, an important aromatic crop in the arid region of La Laguna, northern México, where water scarcity demands the conversion from open-field agriculture to hydroponics. A randomized complete block design with a factorial arrangement (3 × 4) was used to determine the content of nutraceutical components, including polyphenolic compounds, flavonoids, anthocyanins, vitamin C, chlorophylls, and the antioxidant capacity of three varieties of hydroponic basil, with four doses of K+ in the nutrient solution, 7, 9, 11 and 13 mmol L−1. The analysis of variance showed significant differences (p ≤ 0.001) in most of the response variables, caused by the genotype and doses of K+. The antioxidant capacity of assessed cultivars was improved when doses of K+ were increased in the nutrient solution. Furthermore, the antioxidant capacity was positively correlated to the content of flavonoids (r = 0.621), anthocyanins (r = 0.655) and total phenolic compounds (r = 0.549). In conclusion, the nutraceutical content was increased in basil when controlling K+ in the nutrient solution.
Highlights
The need to increase nutrients in crops to avoid deficiencies, which may affect yield, must motivate to ensure the development of feasible strategies for sustainable production [1]
The aim of this study was to determine a potential increase of the contents of nutraceutical compounds and antioxidant capacity of the basil cultivars “Sweet Lemon”, “Red Rubin” and “Cinnamon”, produced under hydroponic system with increased doses of K+
A hydroponic system was designed for the production of nutraceuticals, as an alternative option for suitable use of resources, to create value-added, which is important in semiarid regions
Summary
The need to increase nutrients in crops to avoid deficiencies, which may affect yield, must motivate to ensure the development of feasible strategies for sustainable production [1]. In regard to plant matrices, it is important to propose protocols based in biological systems to increase the content of nutrients in plants, specifying the proper use of resources and external inputs to reduce as far as possible the effects caused to the environment. In this sense, some authors have suggested that hydroponics system have practical. Hydroponic systems production conditions provide reproducibility by uniform growth patterns and better homogeneity in the supply of nutrients to plants [6].
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