Probiotics, Proline and Calcium Induced Protective Responses of Triticum aestivum under Drought Stress.
Rima MockevičiūtėSigita JurkonienėVaidevutis ŠveikauskasMariam ZareyanElžbieta Jankovska-BortkevičJurga JankauskienėLiudmyla KozekoVirgilija GavelienėPublished in: Plants (Basel, Switzerland) (2023)
In order to increase plants tolerance to drought, the idea of treating them with stress-protecting compounds exogenously is being considered. In this study, we aimed to evaluate and compare the impact of exogenous calcium, proline, and plant probiotics on the response of winter wheat to drought stress. The research was carried out under controlled conditions, simulating a prolonged drought from 6 to 18 days. Seedlings were treated with ProbioHumus 2 µL g -1 for seed priming, 1 mL 100 mL -1 for seedling spraying, and proline 1 mM according to the scheme. 70 g m -2 CaCO 3 was added to the soil. All tested compounds improved the prolonged drought tolerance of winter wheat. ProbioHumus, ProbioHumus + Ca had the greatest effect on maintaining the relative leaf water content (RWC) and in maintaining growth parameters close to those of irrigated plants. They delayed and reduced the stimulation of ethylene emission in drought-stressed leaves. Seedlings treated with ProbioHumus and ProbioHumus + Ca had a significantly lower degree of membrane damage induced by ROS. Molecular studies of drought-responsive genes revealed substantially lower expression of Ca and Probiotics + Ca treated plants vs. drought control. The results of this study showed that the use of probiotics in combination with Ca can activate defense reactions that can compensate for the adverse effects of drought stress.