Litcius/Paper detail

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

Dele Meng, Shuoyu Li, Zegui Li, Zhencheng Li, Peiyi Huang, Yongjun Guo, Huashou Li

2024Environmental Chemistry and Ecotoxicology12 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

FerrousSulfateEnvironmental scienceAgronomyPulp and paper industryRice plantWaste managementChemistryMetallurgyBiologyEngineeringMaterials scienceHeavy metals in environmentCoal and Its By-productsArsenic contamination and mitigation