期刊
CHEMOSPHERE
卷 307, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2022.135805
关键词
Cadmium; Salinity; Paddy soil; Kinetics
资金
- National Natural Science Foundation of China [42030702]
- China Postdoctoral Science Foundation [2021M700888, 2021M701561]
- Guangdong Foundation for Program of Science and Technology Research [2019B121201004]
- Guangdong Basic and Applied Basic Reuter Foundation [2019A1515011033]
Seawater intrusion can pose environmental risks to paddy soils around estuaries, with the impacts on the availability of heavy metals still being unclear. This study found that increasing salinity levels led to higher release of Cd from soils, indicating that Cd competition by cations and complexation by anions dominated the release rather than pH. Additionally, the availability of Cd in paddy soil was found to be enhanced with increasing salinity levels, especially during drainage, indicating the importance of high salinity in influencing Cd availability in paddy soil.
Seawater intrusion can cause environmental risks to paddy soils around estuaries, but the impacts on the availability of heavy metals are still unclear. River water and sea water were collected along the river of an estuary. A stirred-flow experiment was conducted to examine the Cd desorption behavior in Cd-contaminated paddy soil. While the pH increased with increasing salinity levels, more Cd was released with increasing salinity, suggesting that Cd competition by cations and complexation by anions, but not pH, dominated the release of Cd from soils. Moreover, paddy soil was incubated at different salinities under alternating redox conditions. The availability of Cd, as indicated by the diffusive gradients in thin film (DGT), became relatively high with increasing salinity levels during the initial anaerobic and later aerobic stages. The available Cd fractions substantially decreased under anaerobic condition, and then rapidly increased under aerobic condition. When oxygen was introduced into the system, Cd associated with organic matter and Fe-Mn oxides were released, and oxidative dissolution of Cd sulfides was observed, especially in the high salinity treatment. Seawater intrusion affects biogeochemical cycles and can promote rapid export of NH4+, Fe2+, and SO42- in paddy soils, especially in soils with high salinity. Our findings demonstrated that the high salinity content in paddy soil significantly enhanced the availability of Cd, especially during the drainage stage.
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