Foliar application of preparations as a method of protecting plants from the penetration of lead

Abstract

AbstractDue to the contamination of soil with lead, there is still a danger of lead penetrating into our diet through crops. So far, no method has been developed to reduce the concentration of this toxic element in plants and to prevent it from entering the biological cycle. In this paper, an attempt was made for the first time to reduce lead concentrations in plants by using foliar calcium preparations.This was based on the hypothesis that an increased amount of calcium in the plant would lead to the reduction in the amount of lead as the entry routes of calcium and lead are similar; therefore, an increase in the amount of calcium will result in the saturation of the routes through which lead enters cells (e.g. calcium channels). It should be clarified that the research was experimental. Three crop species (Linum usitatissimumL.,Solanum lycopersicumL.,Cucumis sativusL.) were tested at the organismal level, whereas the epidermis ofAllium cepaL. was used to conduct tests at the cellular level. The InCa calcium transport activator (by Plant Impact) was selected for the test, followed by calcium nitrate. The preparations were administered foliarly. Lead, on the other hand, was applied to roots before adding lead nitrate into the mineral medium. The plants were cultivated hydroponically. The growth and development of seedlings, the concentration of lead in roots and shoots and the microscopic visualisation of lead in plant organisms and cells were studied. Ultimately, the InCa activator administered foliarly was shown to reduce the concentration of lead in plant organs by approximately 44%.Further findings revealed that the mechanism of this process mainly resulted from the supply of calcium nitrate to plant leaves. A commercial calcium foliar fertiliser also showed a similar effect.The potential to reduce the uptake of lead by crops by approximately 44% is a very satisfactory result. In addition, spraying plants with InCA biostimulant and calcium nitrate is environmentally friendly. This is cutting-edge research that was described for the first time in the present paper.