摘要:
Rice (Oryza sativa L.) farmers face challenges with metal accumulation in grain, with nickel (Ni) recently emerging as a concern due to its potential to exceed legal limits, alongside cadmium (Cd). Information on Ni behaviour and its interaction with Cd remains limited. Selenium (Se) is commonly used for rice biofortification and can reduce the accumulation of toxic metals in plants. Therefore, this study explores how Ni and Cd influence mutual accumulation in rice and examines the impact of different Se forms on these interactions. Plants were grown hydroponically with various combinations of Cd (5 or 20 μmol/L), Ni (20 μmol/L), and Se (5 μmol/L) as selenate (Se6+) or selenite (Se4+) for 7 d. Plant growth, lipid peroxidation, and element accumulation were measured, and the distribution of Se and Ni in tissues was assayed using synchrotron µXRF 2D imaging. Cd and Ni were found to be toxic to rice, reducing leaf and root biomass by 40%‒50% and inducing oxidative stress. However, their combined presence did not further exacerbate leaf growth reduction. Cd reduced root Ni accumulation by approximately 50% at equimolar concentrations, likely due to competitive inhibition at shared transport sites. Se promoted root growth in the presence of Ni and low Cd, suggesting an antioxidant role in mitigating metal-induced stress. However, high doses of Ni and Cd together significantly reduced Se accumulation (by 60% and 77% for Se4+ in roots and Se6+ in leaves, respectively) and caused severe oxidative stress in the presence of Se4+. The effectiveness of Se biofortification varied depending on the Se form: Se6+ was more effective at reducing Ni accumulation, while Se4+ effectively reduced Cd accumulation (by 45%‒75%) at low concentration and Ni accumulation in the absence of Cd (by 50%). In conclusion, this study highlights that Se can mitigate Cd and Ni accumulation in rice. However, the co-presence of Cd and Ni may compromise Se enrichment in rice, highlighting the complexity of their interactions.
