Distribution of 137Cs and 60Co in plough layer of farmland: Evidenced from a lysimeter experiment using undisturbed soil columns |
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| Authors: | Wenxiang LIU Yong LI Hanqing YU Surinder SAGGAR Daozhi GONG and Qiong ZHANG |
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| Institution: | 1Institute of Environment and Sustainable Development in Agriculture, Chinese Academy of Agricultural Sciences, Beijing 100081(China);
2Guangxi University, Nanning 530005(China);
3Manaaki Whenua-Landcare Research, Private Bag 11052, Palmerston North 4442(New Zealand);
4Nuclear and Radiation Safety Center, Ministry of Environmental Protection of China, Beijing 100082(China) |
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| Abstract: | Radionuclide fallout during nuclear accidents on the land may impair the atmosphere, contaminate farmland soils and crops, and can even reach the groundwater. Previous research focused on the field distribution of deposited radionuclides in farmland soils, but details of the amounts of radionuclides in the plough layer and the changes in their proportional distribution in the soil profile with time are still inadequate. In this study, a lysimeter experiment was conducted to determine the vertical migration of 137Cs and 60Co in brown and aeolian sandy soils, collected from the farmlands adjoining Shidaowan Nuclear Power Plant (NPP) in eastern China, and to identify the factors influencing their migration depths in soil. At the end of the experiment (800 d), > 96% of added 137Cs and 60Co were retained in the top 0-20 cm soil layer of both soils; very little 137Cs or 60Co initially migrated to 20-30 cm, but their amounts at this depth increased with time. The migration depth of 137Cs was greater in the aeolian sandy soil than in the brown soil during 0-577 d, but at the end of the experiment, 137Cs migrated to the same depth (25 cm) in both soils. Three phases on the vertical migration rate (v) of 60Co in the aeolian sandy soil can be identified:an initial rapid movement (0-355 d, v=219±17 mm year-1), followed by a steady movement (355-577 d, v=150±24 mm year-1) and a very slow movement (577-800 d, v=107±7 mm year-1). In contrast, its migration rate in the brown soil (v=133±17 mm year-1) was steady throughout the 800-d experimental period. The migration of both 137Cs and 60Co in the two soils appears to be regulated by soil clay and silt fractions that provide most of the soil surface area, soil organic carbon (SOC), and soil pH, which were manifested by the solid-liquid distribution coefficient of 137Cs and 60Co. The results of this study suggest that most 137Cs and 60Co remained within the top layer (0-20 cm depth) of farmland soils following a simulated NPP accident, and little reached the subsurface (20-30 cm depth). Fixation of radionuclides onto clay minerals may limit their migration in soil, but some could be laterally distributed by soil erosion and taken up by crops, and migrate into groundwater in a high water table level area after several decades. Remediation measures, therefore, should focus on reducing their impact on the farmland soils, crops, and water. |
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| Keywords: | aeolian sandy soil brown soil deposited radionuclide migration depth radionuclide vertical migration rate |
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