Abstract
Alkaline stress as a result of higher pH usually triggers more severe physiological damage to plants than that of saline stress with a neutral pH. In the present study, we demonstrated that silicon (Si) priming of alfalfa (Medicago sativa L.) seedlings increased their tolerance to high alkaline stress situations. Gongnong No. 1 seedlings were subjected to alkaline stress simulated by 25 mM Na2CO3 (pH 11.2). Alkaline stress greatly decreased the biomass and caused severe lodging or wilting of alfalfa seedlings. In contrast, the application of Si to alfalfa seedlings 36 h prior to the alkaline treatment significantly alleviated the damage symptoms and greatly increased the biomass and chlorophyll content. Because of being concomitant with increasing photosynthesis and water use efficiency, decreasing membrane injury and malondialdehyde content, and increasing peroxidase and catalase ascorbate activities in alfalfa leaves, thereby alleviating the triggered oxidative damage by alkaline stress to the plant. Furthermore, Si priming significantly decreased the accumulation of protein and proline content in alfalfa, thus reducing photosynthetic feedback repression. Si priming significantly accumulated more Na in the roots, but led to a decrease of Na accumulation and an increase of K accumulation in the leaves under alkaline stress. Meanwhile, Si priming decreased the accumulation of metal ions such as Mg, Fe, Mn, and Zn in the roots of alfalfa seedlings under alkaline stress. Collectively, these results suggested that Si is involved in the metabolic or physiological changes and has a potent priming effect on the alkaline tolerance of alfalfa seedlings. The present study indicated that Si priming is a new approach to improve the alkaline tolerance in alfalfa and provides increasing information for further exploration of the alkaline stress response at the molecular level in alfalfa.
Highlights
Salinity-alkalinity stress is an adverse obstacle in the production of agricultural crops and severely affects the growth of plants
When alfalfa seedlings with Si pretreatment were cultured in the 25 mM Na2CO3 solution, did not exhibit apparent lodging compared to the treatment without Si pretreatment, and the aboveground biomass of alfalfa seedlings were significantly increased (Figures 1C,D)
Si priming led to significant increase in root dry weight (DW) (74.2%) and average root diameter (20.2%) under alkaline stress compared to the alkaline stress treatment without Si priming (Table 1)
Summary
Salinity-alkalinity stress is an adverse obstacle in the production of agricultural crops and severely affects the growth of plants. It has been estimated that approximately 3.97 × 108 ha of land is affected by salt and 4.34 × 108 ha is alkaline (Martinez-Beltran and Manzur, 2005). Alkaline soils (high pH from 8.5 to 11) endanger crop production more than soils containing excess. Silicon Increased Alfalfa Alkaline Tolerance salt (Guo et al, 2017; Wei et al, 2017). Fewer studies have examined alkaline stress (Lv et al, 2015; Guo et al, 2017; Zhang et al, 2017). Understanding how plants respond to alkaline stress is essential for improving the alkaline tolerance of plants
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