Responses of soil microbiome to copper-based materials (nano and bulk) for agricultural applications: An indoor-mesocosm experiment

IF 4.7 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES NanoImpact Pub Date : 2024-04-01 DOI:10.1016/j.impact.2024.100506
Sara Peixoto , Rui G. Morgado , Marija Prodana , Diogo N. Cardoso , Catarina Malheiro , Joana Neves , Cátia Santos , Zahra Khodaparast , Maria D. Pavlaki , Sandra Rodrigues , Sónia M. Rodrigues , Isabel Henriques , Susana Loureiro
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Abstract

The foreseen increasing application of copper-based nanomaterials (Cu-NMs), replacing or complementing existing Cu-agrochemicals, may negatively impact the soil microbiome. Thus, we studied the effects on soil microbiome function and composition of nano copper oxide (nCuO) or copper hydroxide NMs in a commercial (Kocide®3000) or a lab-synthetized formulation (nCu(OH)2) or bulk copper hydroxide (Cu(OH)2-B), at the commonly recommended Cu dose of 50 mg(Cu)kg−1 soil. Microbial responses were studied over 28 days in a designed indoor mesocosm. On day-28, in comparison to non-treated soil (CT), all Cu-treatments led to a reduction in dehydrogenase (95% to 68%), arylsulfatase (41% to 27%), and urease (40% to 20%) activity. There was a 32% increase in the utilization of carbon substrates in the nCuO-treatment and an increased abundance of viable bacteria in the nCu(OH)2-treatment (75% of heterotrophic and 69% of P-solubilizing bacteria). The relative abundance of Acidobacteria [Kocide®3000, nCuO, and Cu(OH)2-B treatments] and Flavobacteriia [nCu(OH)2-treatment] was negatively affected by Cu exposure. The abundance of Cu-tolerant bacteria increased in soils treated with Kocide®3000 (Clostridia) and nCu(OH)2 (Gemmatimonadetes). All Cu-treated soils exhibited a reduced abundance of denitrification-related genes (0.05% of nosZ gene). The DTPA-extractable pool of ionic Cu(II) varied among treatments: Cu(OH)2-B > Kocide®3000 ∼ nCuO>nCu(OH)2, which may explain changes on the soil microbiome composition, at the genera and OTU levels. Thus, our study revealed that Cu-materials (nano and bulk) influence the soil microbiome with implications on its ecological role. It highlights the importance of assessing the impact of Cu-materials under dynamic and complex exposure scenarios and emphasizes the need for specific regulatory frameworks for NMs.

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土壤微生物群对用于农业的铜基材料(纳米和块状)的反应:室内模拟实验
预计铜基纳米材料(Cu-NMs)的应用将不断增加,以取代或补充现有的铜农用化学品,这可能会对土壤微生物群产生负面影响。因此,我们研究了商用纳米氧化铜(nCuO)或氢氧化铜纳米材料(Kocide®3000)或实验室合成制剂(nCu(OH)2)或散装氢氧化铜(Cu(OH)2-B)对土壤微生物组功能和组成的影响,铜的常用推荐剂量为 50 mg(Cu)kg-1 土壤。在一个设计好的室内中观模型中,对微生物的反应进行了 28 天的研究。第 28 天,与未处理土壤(CT)相比,所有铜处理都导致脱氢酶(95% 至 68%)、芳基硫酸酶(41% 至 27%)和脲酶(40% 至 20%)活性降低。在 nCuO 处理中,碳底物的利用率提高了 32%,而在 nCu(OH)2 处理中,可存活细菌的数量也有所增加(异养菌占 75%,酚溶菌占 69%)。酸细菌[Kocide®3000、nCuO 和 Cu(OH)2-B 处理]和黄杆菌[nCu(OH)2 处理]的相对丰度受到铜暴露的负面影响。经 Kocide®3000 处理的土壤(梭菌属)和 nCu(OH)2 处理的土壤(黄杆菌属)中耐铜细菌的数量有所增加。所有经铜处理的土壤中,反硝化相关基因的丰度都有所降低(nosZ 基因的丰度为 0.05%)。不同处理中可提取的 DTPA 离子铜(II)池各不相同:Cu(OH)2-B > Kocide®3000 ∼ nCuO>nCu(OH)2,这可能解释了土壤微生物群组成在属和 OTU 水平上的变化。因此,我们的研究表明,铜材料(纳米和块状)会影响土壤微生物组,并对其生态作用产生影响。该研究强调了在动态和复杂的暴露情景下评估铜材料影响的重要性,并强调需要针对非金属制定具体的监管框架。
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来源期刊
NanoImpact
NanoImpact Social Sciences-Safety Research
CiteScore
11.00
自引率
6.10%
发文量
69
审稿时长
23 days
期刊介绍: NanoImpact is a multidisciplinary journal that focuses on nanosafety research and areas related to the impacts of manufactured nanomaterials on human and environmental systems and the behavior of nanomaterials in these systems.
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