Improved microbial-plant soil bioremediation of PAHs and heavy metal through in silico methods.

Journal of hazardous materials Pub Date : 2024-10-05 Epub Date: 2024-08-14 DOI:10.1016/j.jhazmat.2024.135524
Lei Zhao, Peixuan Sun, Jiaxuan Gao, Yunxiang Li, Qikun Pu, Cong Lyu, Wenjin Zhao
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Abstract

The combined pollution of polycyclic aromatic hydrocarbons (PAHs) and organic cadmium (Cd) in farmland soils, and the field controlling strategy need to be studied urgently. In this study, 5 PAHs, 5 Cd and 11 soil conditioners were selected to explore the co-exposure risk and remediation efficiency. Firstly, a significant combination Fl-alkylalkoxy cadmium was obtained using forward and reverse methods coupling variation coefficient methods (the combined pollution value was 0.173). Secondly, the interaction energy of microbial degradation / plant absorption of Fl under Cd stress, and microbial mineralization / plant absorption of alkylalkoxy cadmium under PAHs stress were characterized using factorial experimental design, molecular docking and molecular dynamics simulation. The combined pollution of alkylalkoxy cadmium and dialkyl cadmium, phenanthrene and Benzo [a] pyrene was significant (synergistic contribution rates were 17.58 % and 19.22 %, respectively). In addition, 6 soil conditioners with significant efficiency were selected to design Taguchi orthogonal experimental schemes, indicating the microbial degradation / mineralization and plant absorption were significantly effective (the maximum increase of remediation efficiency was 93.81 %) under the combinations (i.e., trratone, coumarol, fulvamic acid, potassium fertilizer and others, etc.). Finally, it was found that the soil conditioners affected the hydrophobic groups and forces, and the efficiency was proportional to the highest peak value and minimum distance in the RDF curve. This study identifies the risk characteristics of co-exposure of PAHs and Cd and screens effective soil conditioners, providing theoretical guidance for risk controlling.

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通过硅学方法改进多环芳烃和重金属的微生物-植物土壤生物修复。
农田土壤中多环芳烃(PAHs)和有机镉(Cd)的复合污染及田间控制策略亟待研究。本研究选取了 5 种多环芳烃、5 种镉和 11 种土壤调理剂,探讨其共同暴露风险和修复效率。首先,利用正向和反向耦合变异系数法得到了一个重要的Fl-烷基烷氧基镉组合(综合污染值为0.173)。其次,利用因子实验设计、分子对接和分子动力学模拟表征了镉胁迫下微生物降解/植物吸收 Fl 和多环芳烃胁迫下微生物矿化/植物吸收烷基烷氧基镉的相互作用能。烷基烷氧基镉与二烷基镉、菲和苯并[a]芘的联合污染显著(协同贡献率分别为 17.58 % 和 19.22 %)。此外,通过田口正交试验设计方案,选择了 6 种效果显著的土壤调理剂,结果表明,在三唑酮、香豆素、富乐菌素、钾肥等组合下,微生物降解/矿化和植物吸收效果显著(修复效率最大提高 93.81%)。最后,研究发现土壤改良剂会影响疏水基团和疏水作用力,其效率与 RDF 曲线的最高峰值和最小距离成正比。该研究明确了多环芳烃和镉共同暴露的风险特征,筛选出有效的土壤改良剂,为风险控制提供了理论指导。
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