Abstract
A floating system was established in a heated glass greenhouse in order to investigate whether the effect of amino acids (0.25 or 0.50% of a commercial amino acid (AA) solution Amino16®) during peppermint and spearmint production on plant developmental and nutritional status may be in part attributed to salinity induced osmotic stress. For this reason, in some nutrient solutions, three levels of salinity were induced by adding 0, 10, or 20 mM NaCl. According to the results, it can be concluded that spearmint is mostly favored by the highest amino acid supplement of the nutrient solution (0.50%) in terms of a substantial improvement of the antioxidant nutritional quality (by up to 130%) at the expense of a reduced biomass production (by <30%). Enzymic antioxidant defense mechanism (APX and POD) was efficiently activated, preventing severe lipid peroxidation and the accumulation of reactive oxygen species such as H2O2 and maintaining the proline content at the normal levels. The osmotic stress that was induced by the excessive AA concentration and confirmed by the chlorophyl fluorescence variations was probably related to NH4+ excess supply in the growing media and was not associated with the elevated electrical conductivity in the solution. The absence of any adverse stressful consequences upon the addition of 20 mM NaCl may be attributed to the high salt tolerance of peppermint and spearmint species.
Highlights
Electrical conductivity is an indicator of the ionic balance of the nutrient solution (NS)
Any change that occurs during plant growth leads to alterations in electrical conductivity (EC) values of the nutrient solution
It can be concluded that spearmint is mostly favored by the highest amino acid supplement of the nutrient solution (0.50%) in terms of a substantial improvement in the antioxidant nutritional quality at the expense of a reduced biomass production
Summary
Peppermint (Mentha × piperita L.) and spearmint (Mentha spicata L.) are perennial aromatic herbs that are grown for fresh or dry product or for essential oil extracts to constitute flavor agents in food preparation or even as raw material in herbal medicine production by the pharmaceutical industry [1]. Both mint species are a source of bioactive compounds, rich in antioxidants, phenolics, and other phytonutrients. The commercial cultivation of medicinal plants in a larger scale by implementing innovative hydroponic techniques is necessary in order to fulfill the demand of the medicine industry
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