9/21/2023 0 Comments Si element developmentsativus when compared to the concentrations from TE-mix treatment which are up to fivefold higher. ![]() Treating the plants with Si+ at both low and high concentrations resulted in low Ca concentration in B. mays) decreased with the increasing concentration of the TE application. The effect of Si on the biomass of Si accumulators (C. Results: Treatment with 10 μM TE-mix and Si+ showed a decrease in biomass on the biomass of B. After harvest, the concentration of Ca, Mn, Fe, P, Al, Cd and REE were determined using IC-PMS. The solution concentrations were varied between 10 and 100 μM, to investigate the effect of Si. The plants were treated with a variation between a solution made of a trace element mix (Al, Cd, Mn and REE) without Si (further denoted TE-mix) and a similar mix with Si- fertilizer as silicic acid (further denoted Si+). mays, both Si accumulators), were cultivated on a semi hydroponic substrate under greenhouse conditions. ![]() ![]() albus, an excluder), Cucumis sativus, and Zea mays (C. napus, a hyperaccumulator), Lupinus albus (L. The presence of Si, is, however, known to extend several benefits to plants, which include increased biomass production and tolerance against both biotic and abiotic stressors, furthermore, it improves plant rigidity.Aim: This study represents a greenhouse experiment that was designed to explore the effects of Si accumulation and its relationship with the uptake of essential and nonessential elements while alleviating toxicity in plants with different nutrition strategies.Methods: Four plant species, Brassica napus (B. Background: Silicon (Si) is one of the elements whose role in plant nutrition and development is not fully defined and has become of great interest as of recent.
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