Exogenous selenium (cadmium) inhibits the absorption and transportation of cadmium (selenium) in rice

Antagonism between selenium (Se) and cadmium (Cd) has been demonstrated in plants. However, a mutual suppression threshold for Se and Cd has not been identified in previous studies using Cd or Se individually. To fill this knowledge gap, we determined the levels of Se and Cd in various tissues of rice under concentration gradients of Se and Cd with different Se application times via hydroponic experiments. The results showed that the application of exogenous Se or Cd reduced the uptake and transport of the other. When the molar ratio of Se/Cd (R (Se/Cd)) was higher than 1, the concentration and transfer factor of Cd (TF-Cd) in all parts of rice simultaneously reached the lowest values. The minimum Se absorption in rice was obtained at R (Cd/Se) greater than 20, while no inhibition threshold was found for Se transport. In addition, approximately 1:1 R (Se/Cd) was observed in roots and the addition of exogenous Cd or Se promoted the enrichment of the other element in roots. These data suggested a mutual inhibition of Se and Cd in their absorption, transportation and accumulation in rice, which might be related to the formation of insoluble Cd Se complexes in roots. This study provided new insights into a plausible explanation of the interactions between Se and Cd and contributed to the remediation and treatment of combined Se and Cd pollution in farmland systems. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

The study demonstrated that the application of exogenous Se or Cd in rice reduces the uptake and transport of the other element. When the molar ratio of Se/Cd was higher than 1, Cd absorption in rice reached the lowest level, while Se absorption was lowest when Cd/Se ratio was greater than 20. Additionally, a 1:1 Se/Cd ratio was observed in roots, indicating that the addition of exogenous Cd or Se promotes the enrichment of the other element in roots.