Mechanism of mercapto-modified palygorskite in reducing soil Cd activity

Mercapto-modified palygorskite (MP) is an efficient novel amendment with superior ability to decrease soil Cd bioavailability, but the unclear immobilization mechanism has become the bottleneck of its performance improvement and precise application. In order to clarify the Cd reducing mechanism of M...

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Bibliographic Details
Published in:The Science of the total environment 2023-01, Vol.857, p.159372-159372, Article 159372
Main Authors: Liu, Jiang, Zhao, Meng, Zhao, Yujie, Zhang, Chuangchuang, Liu, Wenjing, Wang, Zhen, Zhou, Qiwen, Liang, Xuefeng
Format: Article
Language:English
Subjects:
Cadmium
Diffusive gradients in thin-films
Immobilization
Mechanism
Mercapto
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Summary:Mercapto-modified palygorskite (MP) is an efficient novel amendment with superior ability to decrease soil Cd bioavailability, but the unclear immobilization mechanism has become the bottleneck of its performance improvement and precise application. In order to clarify the Cd reducing mechanism of MP, long-term and short-term soil incubation with three types of soils (paddy soil, alluvial soil and yellow mountain soil) and sorption verification experiments were conducted to investigate the dynamic process of soil labile Cd impacted by MP and the synergetic effects on labile Fe, Mn, S and dissolved organic carbon via in-situ diffusive gradients in thin-films and soil solution sampling techniques. MP with four dosages rapidly and continuously decreased soil labile Cd contents by 14.50 % ∼ 89.16 % in long-term incubation, meanwhile low-dosage MP reduced soil labile Fe and Mn contents, but high-dosage MP increased their contents. With MP dosages increased, the effects of Fe-Mn oxides on soil labile Cd content gradually weakened. MP effectively promoted the reduction of Fe adsorbed by clay minerals and enhanced their ability to adsorb Cd. Short-term incubation showed that MP could decline soil labile Cd by 7.17 % ∼ 44.74 %, especially at the dosage 0.4 %. MP was a reduction catalyst to facilitate Fe reduction, which profited for clay minerals adsorbing Cd. The sorption experiments indicated that 0.30 % MP could adsorb 73.34 % Cd2+, promote the release of Fe2+ from the soil, and stimulate the ability of clay minerals to adsorb Cd. The results revealed that MP decreased soil labile Cd content within 2 d, and MP made soil Cd activity change out of the influence of soil Fe/Mn redox system. The mechanism will be beneficial for the large-scale application of MP in safe utilization of Cd contaminated soil. [Display omitted] •Mercapto-modified palygorskite decreased soil labile Cd content within 2 days.•MP made soil Cd activity change out of the influence of soil Fe/Mn redox system.•MP affects soil adsorbing Fe/Cd via promoting soil Fe/Mn reduction.•In-situ DGT characterized soil multi-elements dynamic changes impacted by MP.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.159372