The contamination and transfer of potentially toxic elements and their relations with iron, vanadium and titanium in the soil-rice system from Suzhou region, China

摘要

A regional scale investigation was performed to study the contamination and transfer of Ni, Cr, Co, Al, Cd and Hg and their relations with Fe, V and Ti in the soil-rice system under actual field conditions from a typical developed industrial area. Thirty-two pairs of rice and soil samples were collected in Suzhou region, China. The results show that the transfer abilities of potentially toxic elements (PTEs) were generally in the order of Cd > Hg > Co > Ni > Cr > Al from soil to root, Hg > Cr > Al > Ni > Cd > Co from root to straw and Ni > Hg > Cr > Cd > Al > Co from straw to grain. Compared with the relevant criterion, the major pollutants in rice grains were Al and Ni. 18.8 and 12.5 of grain samples were contaminated by Al and Ni, respectively. Besides the increased soil PTEs concentrations, the enhanced transfer of Ni and Al from rice root to grain via straw may play another crucial role in Ni and Al contamination of rice grain. The relatively weaker transfer ability of Co in the rice plant may be conducive to the rice grain keeping an uncontaminated level of Co. Additionally, Al, Ni, Cr and Co showed high correlations with each other, and they also had a close association with Fe, V and Ti in soil and rice. These correlations imply that Fe, V and Ti may play an important role in the transfer, accumulation and speciation of Al, Ni, Cr and Co in the soil-rice system.