Abstract
A mild salinity stress (eustress) may modulate the induction of the plant defense system in horticultural crops and the synthesis of phytochemical components able to enhance plant resilience, post-harvest performance, and the nutraceutical quality of produce. However, the choice of the correct eustress type and dose to induce the synthesis of these protective phytochemicals is pivotal to avoid potential interference with plant growth and productivity. In order to study how green and red lettuce (Lactuca sativa L.) plants equilibrate the nutritional and nutraceutical components of quality with yield components, we applied iso-osmotic concentrations of three different salts (20 mM NaCl, 20 mM KCl, and 13.3 mM CaCl2, with a final total ionic concentration of 40 mM) in combination with two successive harvests in a floating raft system. The biometric parameters, mineral composition, bioactive compounds, and antioxidant activity of both cultivars were analyzed. The green cultivar had a superior response concerning biometric traits and productivity compared to the red one during the first cut but lower phytochemical content (e.g., ascorbic acid). The effect of cut order, independently of cultivar and salinity treatments, demonstrated that at the first harvest plants could redirect metabolism by increasing the lipophilic antioxidant content (LAA) at the expense of plant yield, therefore increasing plant resilience and post-harvest nutraceutical quality; whereas, at the second harvest, plants reverted principally to tissue expansion. The treatments with iso-osmotic salt concentrations did not affect K and Mg ion contents but further increased LAA and resulted only in a moderate decrease of fresh yield. The lettuce nitrate content was reduced during the second cut only when lettuce plants were treated with NaCl and especially CaCl2.
Highlights
IntroductionThe global leafy greens market size is expected to have a compound annual growth rate of 3.8% in the period 2020 to 2025, ranging from USD 643.1 million in 2019 to USD
Carillo, et al [8] showed that this feature could depend on a higher intrinsic water use efficiency (WUEi ) and stomatal conductance, which implied a greater availability of CO2 and a faster and more efficient photosynthetic electron transport chain, which may lead to a lower production of harmful reactive oxygen species (ROS) [50]
It is necessary to expertly administer the right dose of stress/eustress in order to avoid that the activation of the defence system, and the synthesis of these new protective metabolites could affect plant growth and yield
Summary
The global leafy greens market size is expected to have a compound annual growth rate of 3.8% in the period 2020 to 2025, ranging from USD 643.1 million in 2019 to USD. In particular, can provide minerals, dietary fibers, vitamins, and many other antioxidant metabolites essential for a balanced diet that reduces the risk of oxidative stress-related aging and degenerative diseases while promoting psychophysical well-being [2,3,4,5]. Among the most cultivated leafy greens worldwide for the minimally processed market, baby lettuce (Lactuca sativa L.) has the biggest success because of its optimal size (leaves with a petiole ≈ 8–12 cm long), low calorific value, and high nutraceutical content, in particular vitamins C, E, and B9 , and polyphenols [5,10,11,12,13,14]
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