RESUMO
To explore the effect and persistent effect of thiolated montmorillonite (TM) on safe production in cadmium (Cd) contaminated cropland, a two-year field experiment was conducted with different application amounts of TM. By adding to highly contaminated soils containing 2.46-3.81 mg·kg-1 Cd with no replenishment, the impacts of TM on concentrations of Cd in different parts of rice and available Cd in soils were investigated. The results showed that TM could significantly reduce the contents of Cd in brown rice as well as the contents and proportions of available Cd in soils, and its persistent effects on the passivation of Cd were obvious. After applying 0.5% or 1% TM to soils, the contents of Cd in different parts of the rice decreased significantly in the first season compared with that in the control. The contents of Cd in brown rice in the first season decreased to 0.16 mg·kg-1 and 0.08 mg·kg-1, respectively, by 84.0% and 91.9% compared with that of the control (0.98 mg·kg-1). Contents of Cd in brown rice were significantly lower than the maximum allowable amount (0.2 mg·kg-1) set by China (GB 2762-2017). Under the 0.5% and 1% treatments, the contents of Cd in brown rice of the subsequent three seasons under successive planting decreased by 50.2%-67.8% and 56.0%-81.6%, respectively, which were within the allowable amount. The proportions of available Cd in soils in the first season decreased from 48.4% under the control to 27.9% and 18.4%, respectively, which decreased by 20.5% and 29.9% under the 0.5% and 1% treatments. Compared with that in the control, proportions of available Cd in soils of the following three seasons decreased by 10.0%-17.1% and 12.4%-20.8%. There was a significant positive correlation between available Cd contents in soils and Cd contents in various parts of the rice. TM mainly reduced available Cd contents in soils, then reduced the absorption and accumulation of Cd in rice. The results of the two-year field experiment showed significant and continuous effects of TM on inhibiting Cd uptake by rice, which could be applied to the safe production in heavily Cd contaminated cropland.
