Abstract
The study explored the impact of water management on rice cultivation in mercury-contaminated paddy soil. The objective was to analyze the characteristics of mercury translocation by converting flooded soils to dry farming (non-flooded) to alleviate mercury accumulation in rice grains. The experiment was conducted over three consecutive rice-growing seasons, employing two distinct water management models: a continuously flooded rice cultivation mode and a flooded rice planting mode in the first season, followed by a non-flooded rice farming mode in the second and third seasons. The results showed that the change from flooded to non-flooded rice cultivation patterns presented extremely excellent environmental potential for inhibiting the uptake of both methylmercury and total mercury in rice. When transitioning from flooded cultivation to dry farming, the concentration of methylmercury and total mercury in the grains of non-flooded rice decreased by 87.15 % and 9.57 %, respectively, compared to that in the grains of flooded rice. In the third season, the methylmercury and total mercury in the grains of non-flooded rice decreased further by 95.03 % and 69.45 %, respectively. This study verified that the conversion of rice cultivation from flooded to non-flooded is an efficient strategy for suppressing the accumulation of methylmercury in rice grains, and it might offer a promising solution for managing soil mercury risks and ensuring the safety of rice for human consumption. Copyright © 2024 The Authors. Published by Elsevier Inc.
Original language | English |
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Article number | 116817 |
Journal | Ecotoxicology and Environmental Safety |
Volume | 283 |
Early online date | Jul 2024 |
DOIs | |
Publication status | Published - 2024 |
Citation
Liang, H., Wang, S., Xu, P., Wang, M., Liang, P., Wu, S., Zhang, J., & Wong, M. H. (2024). Converting flooded rice to dry farming can alleviate MeHg accumulation in grains. Ecotoxicology and Environmental Safety, 283, Article 116817. https://doi.org/10.1016/j.ecoenv.2024.116817Keywords
- Methylmercury
- Moisture regulation
- Aerobic rice cultivation
- Mercury methylating bacteria
- Rice rotation