外源铁的施用改变了水稻（L.）的微生物群落结构并减少了镉和砷的积累。

Application of Exogenous Iron Alters the Microbial Community Structure and Reduces the Accumulation of Cadmium and Arsenic in Rice ( L.).

作者信息

Li Tingting, Li Jiayuan, Zhan Xin, Wang Xueli, He Bing, Cao Feishu, Liao Changjun, Yu Yuefeng, Zhang Zengyu, Zhang Junhui, Li Bei, Chen Jiancheng, Li Hong, Zhu Zhiqiang, Wei Yanyan, Hu Junming

机构信息

State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, Cultivation Base of Guangxi Key Laboratory for Agro-Environment and Agro-Products Safety, College of Agriculture, Guangxi University, Nanning 530004, China.

Agricultural Resources and Environment Research Insititute, Guangxi Academy of Agricultural Sciences, Nanning 530007, China.

出版信息

Nanomaterials (Basel). 2022 Apr 11;12(8):1311. doi: 10.3390/nano12081311.

DOI:10.3390/nano12081311

PMID:35458019

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9028164/

Abstract

Cadmium (Cd) and arsenic (As) contamination of soil has been a public concern due to their potential accumulation risk through the food chain. This study was conducted to investigate the performance of ferrous sulfate (FeSO4) and ferric oxide (Fe2O3) nanoparticle (Nano-Fe) to stabilize the concentrations of Cd and As in paddy soil. Both Fe treatments led to low extractable Cd and the contents of specifically sorbed As contents, increased (p < 0.05) the Shannon index and decreased (p < 0.05) the Simpson diversity indices compared with the control. Nano-Fe increased the relative abundances of Firmicutes and Proteobacteria and decreased the abundances of Acidobacteria and Chloroflexi. Moreover, the addition of both forms of Fe promoted the formation of Fe plaque and decreased the translocation factor index (TFs) root/soil, TFs shoot/root, and TFs grain/shoot of Cd and As. These results suggest that exogenous Fe may modify the microbial community and decrease the soil available Cd and As contents, inhibit the absorption of Cd and As by the roots and decrease the transport of Cd and As in rice grains and the risk intake in humans. These findings demonstrate that soil amendment with exogenous Fe, particularly Nano-Fe, is a potential approach to simultaneously remediate the accumulation of Cd and As from the soil to rice grain systems.

摘要

土壤中的镉（Cd）和砷（As）污染因其通过食物链潜在的累积风险而备受公众关注。本研究旨在探究硫酸亚铁（FeSO4）和氧化铁（Fe2O3）纳米颗粒（纳米铁）对水稻土中Cd和As浓度的稳定作用。与对照相比，两种铁处理均导致可提取Cd含量降低以及特异性吸附As含量降低，香农指数升高（p < 0.05），辛普森多样性指数降低（p < 0.05）。纳米铁增加了厚壁菌门和变形菌门的相对丰度，降低了酸杆菌门和绿弯菌门的丰度。此外，两种形式的铁添加均促进了铁膜的形成，并降低了Cd和As的根/土转运因子指数（TFs）、地上部/根转运因子指数以及籽粒/地上部转运因子指数。这些结果表明，外源铁可能改变微生物群落，降低土壤中有效Cd和As含量，抑制根系对Cd和As的吸收，并减少Cd和As在水稻籽粒中的转运以及人体的摄入风险。这些发现表明，用外源铁，特别是纳米铁改良土壤，是一种同时修复从土壤到水稻籽粒系统中Cd和As累积的潜在方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6421/9028164/72274e93c1d6/nanomaterials-12-01311-g001.jpg

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外源铁的施用改变了水稻（L.）的微生物群落结构并减少了镉和砷的积累。

Application of Exogenous Iron Alters the Microbial Community Structure and Reduces the Accumulation of Cadmium and Arsenic in Rice ( L.).

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