Maryam Hashemvand, Mohammad Sedghi,
Volume 12, Issue 2 (3-2026)
Abstract
Objective: This study aimed to investigate the effects of seed priming with silicon on germination and biochemical responses of maize (Zea mays L. SC 704) under different pH levels of the growth medium.
Method: The experiment was conducted as a factorial arrangement within a completely randomized design (CRD) with three replications. Treatments consisted of four priming levels: control (distilled water) and silicon (as sodium silicate) at concentrations of 50, 100, and 150 mg L-1, and three pH levels of the growth medium (5, 6.5, and 8). The measured traits included germination indices (percentage and rate), seedling growth (fresh weight, vigor weight, and length), ion leakage (relative electrolyte leakage, REL), and biochemical indices (activities of α-amylase and protease, soluble sugar content, total protein, and silicon uptake)
Results: Deviation from the optimal pH (6.5) toward acidic (pH 5) or alkaline (pH 8) conditions significantly reduced germination and growth indices while increasing ion leakage. Seed priming with silicon, particularly at 150 mg L-1, markedly mitigated the adverse effects of pH changes. Under acidic conditions (pH 5), this treatment increased germination percentage by 63.19% compared to the non-silicon control at the same pH, reduced relative electrolyte leakage (REL), and significantly enhanced α-amylase and protease activities, soluble sugar content, total protein, and silicon uptake. The interaction between silicon and pH was significant only for germination rate, highlighting the specific role of silicon in accelerating germination under unfavorable pH conditions.
Conclusions: Seed priming with silicon at 150 mg L-1 effectively enhances germination capability and reinforces the physiological and biochemical status of maize seeds under non-optimal pH conditions, particularly acidic stress. This approach holds significant promise for improving field establishment in soils with suboptimal pH.
Highlights
- Silicon priming improved germination, rate and vigor at all pH levels, especially pH 5.
- Silicon (150 mg L-1) reduced electrolyte leakage and membrane damage under pH stress.
- Silicon enhanced α-amylase, protease, soluble sugars and total protein in seedlings.
- Silicon benefits were pH-independent, ensuring robust stress alleviation during germination.
