The Effect of Silicon Nanoparticles on the Seed Germination and Seedling Growth of Moso Bamboo (Phyllostachys edulis) under Cadmium Stress

In the current study, the impact of silicon nanoparticles on germination characteristics and key growth parameters was investigated in Moso bamboo seedlings under cadmium (Cd) stress. The seeds were germinated at a concentration of 100 mu M Cd alone and in combination with two levels of SiO2 NPs (100 and 200 mu M), and the results were compared with those from a control treatment. The results indicated that SiO2 NPs significantly improved germination characteristics (GP, GR, and GI) under Cd toxicity but also led to increased mean germination time (MGT). On the other hand, the results indicated that the seedling growth indexes, seedling biomass and vigor indexes of Moso bamboo improved under a combination of 100 mu M Cd and silicon nanoparticles. We concluded that SiO2 NPs could ameliorate cadmium toxicity during seed germination and that the enhanced germination parameters improved seedling growth in Moso bamboo under Cd toxicity. We also found that SiO2 NPs at 200 mu M rather than 100 mu M had a greater beneficial impact on the seed germination and the seedling growth under the Cd stress of 100 mu M. Thus, the use of SiO2 NPs may help in controlling Cd toxicity at the stages of seed germination and seedling growth in Moso bamboo (Phyllostachys edulis).

Automated summary

The study found that silicon nanoparticles can improve germination characteristics of Moso bamboo seeds under cadmium stress and promote seedling growth. The combination treatment of 100 μM Cd with silicon nanoparticles benefited the seedling growth indexes and biomass of Moso bamboo seedlings.