State Key Laboratory of Crop Stress Biology in Arid Areas, Shaanxi Key Laboratory of Agricultural and Environmental Microbiology, College of Life Sciences, Northwest A&F University, Yangling 712100, Shaanxi, PR China.
School of Environmental Science and Engineering, Shaanxi University of Science & Technology, Xi'an 710021, Shaanxi, PR China.
Sci Total Environ. 2022 Mar 1;810:151270. doi: 10.1016/j.scitotenv.2021.151270. Epub 2021 Oct 28.
The widespread application of metal-based nanoparticle (MNPs)/reduced graphene oxide (rGO) composites inevitably leads to their release into soils. However, we lack a detailed understanding of the bacterial community response to MNPs-rGO exposure in farmland soils. Here, we conducted a soil microcosm experiment to analyze the potential impact of MNPs-rGO on bacterial communities in two field soils via high-throughput sequencing. The change in alpha diversity of bacterial communities was more susceptible to Ag-rGO and ZnO-rGO treatments than CuO-rGO. In both soils, MNPs-rGO significantly changed the bacterial community structure even at a low dose (1 mg kg). The bacterial community structure was most strongly affected by Ag-rGO at 30 days, but the greatest changes occurred in ZnO-rGO at 60 days. The differences in soil properties could shape bacterial communities to MNPs-rGO exposure. Distance-based redundancy analysis and functional annotation of prokaryotic taxa showed that some bacterial species associated with nitrogen cycling were greatly influenced by Ag-rGO and ZnO-rGO exposure. In sum, Ag-rGO and ZnO-rGO may potentially affect bacterial communities and nitrogen turnover under long-term realistic field exposure. These findings present a perspective on the response of bacterial communities to MNPs-rGO and provide a fundamental basis for estimating the ecological behavior of MNPs-rGO.
金属基纳米粒子(MNPs)/还原氧化石墨烯(rGO)复合材料的广泛应用不可避免地导致其释放到土壤中。然而,我们对农田土壤中细菌群落对 MNPs-rGO 暴露的反应缺乏详细的了解。在这里,我们通过高通量测序进行了土壤微宇宙实验,以分析 MNPs-rGO 对两种田间土壤中细菌群落的潜在影响。与 CuO-rGO 相比,Ag-rGO 和 ZnO-rGO 处理更易导致细菌群落 alpha 多样性发生变化。在两种土壤中,即使在低剂量(1mg/kg)下,MNPs-rGO 也显著改变了细菌群落结构。Ag-rGO 在 30 天时对细菌群落结构的影响最大,但在 60 天时 ZnO-rGO 引起的变化最大。土壤性质的差异可能会影响细菌群落对 MNPs-rGO 的暴露。基于距离的冗余分析和原核分类群的功能注释表明,一些与氮循环有关的细菌物种受到 Ag-rGO 和 ZnO-rGO 暴露的极大影响。总之,Ag-rGO 和 ZnO-rGO 可能会在长期实际田间暴露下对细菌群落和氮转化产生潜在影响。这些发现为细菌群落对 MNPs-rGO 的反应提供了一个视角,并为估计 MNPs-rGO 的生态行为提供了一个基本依据。
