Abstract: To explore the alleviation effect of silicon on wheat growth under copper stress, cultivar Aikang 58 was chosen as the experimental material. The growth, root activities and root tip ultrastructures of wheat seedlings, which were cultured in Hoagland nutrient solution with five different treatments (control, 15 mg·L^-1 Cu²⁺, 30 mg·L^-1 Cu²⁺, 15 mg·L^-1 Cu²⁺ and 50 mg·L^-1 silicon, 30 mg·L^-1 Cu²⁺ and 50 mg·L^-1 silicon), were fully analyzed. The results showed that root length, plant height and root activities of wheat seedlings were significantly restrained under the copper treatments compared with the control (P<0.01), while these restraining effects were alleviated after adding silicon to copperstress Hoagland nutrient solution. Under copper stress, the cell wall and cell membrane of wheat seedling root tips suffered to varying degrees of destruction, which caused the increase of intercellular space and the disappearance of some organelles. After adding silicon, the cell structure was maintained intact, although some cells and organelles were still slightly deformed compared with the control. In conclusion, exogenous silicon could  alleviate the copper stress damages on wheat seedlings and cellular components to some extent.