This research aimed to clarify the mitigative effect of exogenously applied rare earth element cerium (Ce) on the growth, zinc (Zn) accumulation, and physiological characteristics of wheat (Triticum aestivum L.) seedlings under Zn stress. The wheat variety studied was Bainong307 (BN307), and Zn stress was achieved by growing seedlings in a hydroponic culture experiment with 500 μmol·L-1 Zn2 + added to the culture solution. It was found that Zn stress at 500 μmol·L-1 significantly inhibited the chlorophyll content, photosynthesis, and biomass accumulation of wheat seedlings. Seedling roots became shorter and thicker, and the lateral roots decreased under Zn stress. The Zn stress also increased MDA accumulation and the degree of cell membrane lipid peroxidation and reduced soluble protein contents and the activities of antioxidant enzymes such as superoxide dismutase (SOD), catalase (CAT), and ascorbate peroxidase (APX). On the contrary, exogenous Ce decreased the adsorption and transport of Zn by the root system and alleviated the damage of Zn stress to wheat seedlings. Specifically, the increase in chlorophyll content (chlorophyll a, chlorophyll b, and total chlorophyll) and photosynthetic parameters, the enhancement of antioxidant enzymes activities and soluble protein levels, and the reduction in MDA content and the damage of lipid peroxidation to the cell membrane were all driven by exogenous Ce, which ultimately led to the increase in dry matter biomass of the root system and shoot. In summary, these results provide basic data for the application of exogenous Ce to alleviate Zn toxicity to plants.
Keywords: cerium (Ce); mitigative effect; physiological characteristics; wheat seedlings; zinc (Zn) stress.