Industrial by-products (ferrous sulfate minerals and stone powder) can serve as amendments to remediate Cd-As paddy soil, alleviating Cd-As accumulation in rice

铁质 硫酸盐 环境科学 农学 制浆造纸工业 水稻 废物管理 化学 冶金 生物 工程类 材料科学
作者
Dele Meng,Shuoyu Li,Zegui Li,Zhencheng Li,Peiyi Huang,Yongjun Guo,Huashou Li
出处
期刊:Environmental chemistry and ecotoxicology [Elsevier BV]
卷期号:7: 62-74 被引量:11
标识
DOI:10.1016/j.enceco.2024.10.007
摘要

Our previous research has shown that industrial by-products such as ferrous sulfate mineral and stone powder as amendments can remediate Cadmium (Cd) and arsenic (As) soil. However, their role in the soil-rice system is unknown. Therefore, this article explored the effects of the combined use of industrial by-products and commercial conditioners on the accumulation of Cd-As in weakly alkaline and acidic soil-rice systems. Potted experiments shown that SL (stone powder+ferrous sulfate mineral) and SLW (stone powder+ferrous sulfate mineral+Weidikang conditioner) could reduce the availability of Cd-As in soil by adjusting soil pH and CEC, increase iron film content on the root surface, strengthening the “barrier” for fixing Cd-As. Brown rice Cd was lower than the national food safety standard of 0.20 mg kg −1 (GB2762–2022). 1 % SLW could reduce brown rice As from 1.24 mg kg −1 to 0.83 mg kg −1 . The results of field experiments confirmed the conclusion of pot experiments. SL and SLW not only reduced the accumulation of Cd-As in rice but also significantly increased rice yield by 16.58 % and 11.68 %, respectively. Compared to the two types of conditioning agents sold in the market, the material costs have been reduced by 79.1 % -86.5 % and 12.4 % -43.3 %, respectively. In summary, this study demonstrates that ferrous sulfate minerals and stone powder could efficiently remediate Cd-As pollution in paddy soil under different acid-base conditions, providing an application example for the resource utilization of industrial by-products for the remediation of Cd-As pollution in paddy soil. • Industrial by-products are a soil amendment that uses waste to treat waste. • The composite amendment simultaneously reduced the Cd-As content in the soil-rice system. • Amendments increase the content of iron plaques, becoming a “barrier” for fixing Cd-As. • SL can use as a low-cost amendment for remediation of Cd-As contaminated farmland.
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