聚苯乙烯纳米颗粒对土壤微生物群和土壤中酶功能多样性的影响。

Effects of polystyrene nanoparticles on the microbiota and functional diversity of enzymes in soil.

作者信息

Awet T T, Kohl Y, Meier F, Straskraba S, Grün A-L, Ruf T, Jost C, Drexel R, Tunc E, Emmerling C

机构信息

1Depart. Soil Science, Faculty of Regional and Environmental Science, University of Trier, Behringstraße 21, 54296 Trier, Germany.

6Biology Department, Gaziantep University, Üniversite Bulvarı, 27310 Şehitkamil, Gaziantep, Turkey.

出版信息

Environ Sci Eur. 2018;30(1):11. doi: 10.1186/s12302-018-0140-6. Epub 2018 May 4.

DOI:10.1186/s12302-018-0140-6

PMID:29963347

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5937892/

Abstract

BACKGROUND

The increasing production of nanoplastics and the fragmentation of microplastics into smaller particles suggest a plausible yet unclear hazard in the natural environment, such as soil. We investigated the short-term effects (28 days) of polystyrene nanoparticles (PS-NPs) on the activity and biomass of soil microbiota, and the functional diversity of soil enzymes at environmental relevant low levels in an incubation experiment.

RESULTS

Our results showed a significant decrease in microbial biomass in treatments of 100 and 1000 ng PS-NP g DM throughout the incubation period. Dehydrogenase activity and activities of enzymes involved in -(leucine-aminopeptidase), -(alkaline-phosphatase), and C-(β-glucosidase and cellobiohydrolase) cycles in the soil were significantly reduced at day 28 suggesting a broad and detrimental impact of PS-NPs on soil microbiota and enzymes. Leucine-aminopeptidase and alkaline-phosphatase activities tended to decrease consistently, while β-glucosidase and cellobiohydrolase activities increased at high concentrations (e.g., PS-NP-1000) in the beginning of the incubation period, e.g., at day 1. On the other hand, basal respiration and metabolic quotient increased with increasing PS-NP application rate throughout the incubation period possibly due to increased cell death that caused substrate-induced respiration (cryptic growth).

CONCLUSIONS

We herewith demonstrated for the first time the potential antimicrobial activity of PS-NPs in soil, and this may serve as an important resource in environmental risk assessment of PS-NPs in the soil environment.

摘要

背景

纳米塑料产量的增加以及微塑料破碎成更小的颗粒表明，在自然环境（如土壤）中存在一种看似合理但尚不清楚的危害。我们在一项培养实验中，研究了聚苯乙烯纳米颗粒（PS-NPs）在环境相关低水平下对土壤微生物群活性和生物量以及土壤酶功能多样性的短期影响（28天）。

结果

我们的结果表明，在整个培养期间，100和1000 ng PS-NP g DM处理中的微生物生物量显著下降。在第28天，土壤中的脱氢酶活性以及参与 -（亮氨酸氨肽酶）、 -（碱性磷酸酶）和C-（β-葡萄糖苷酶和纤维二糖水解酶）循环的酶活性显著降低，这表明PS-NPs对土壤微生物群和酶具有广泛的有害影响。亮氨酸氨肽酶和碱性磷酸酶活性往往持续下降，而在培养期开始时（例如第1天），高浓度（如PS-NP-1000）下β-葡萄糖苷酶和纤维二糖水解酶活性增加。另一方面，在整个培养期间，基础呼吸和代谢商随着PS-NP施用量的增加而增加，这可能是由于细胞死亡增加导致底物诱导呼吸（隐性生长）。

结论

我们首次证明了PS-NPs在土壤中的潜在抗菌活性，这可能是土壤环境中PS-NPs环境风险评估的重要资源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a024/5937892/543926cc7c67/12302_2018_140_Fig1_HTML.jpg

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聚苯乙烯纳米颗粒对土壤微生物群和土壤中酶功能多样性的影响。

Effects of polystyrene nanoparticles on the microbiota and functional diversity of enzymes in soil.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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