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Effects of Carbon Nanotubes and Derivatives of Graphene Oxide on Soil Bacterial Diversity

Effects of Carbon Nanotubes and Derivatives of Graphene Oxide on Soil Bacterial Diversity

Christian Forstner, Thomas G Orton, Peng Wang, Peter M Kopittke, Paul G Dennis

Sci Total Environ. 2019 Sep 10;682:356-363.

PMID: 31125749

Abstract:

Carbon nanotubes (CNTs), reduced graphene oxide (rGO) and ammonia-functionalized graphene oxide (aGO), are nanomaterials with useful properties, such as high tensile strength, elasticity and thermal conductivity. However, following their use, their release into the environment is inevitable. While CNTs have been shown to influence soil bacterial diversity, albeit only at concentrations far exceeding predicted rates of release, the effects of rGO have only been examined using pure bacterial cultures, and those of aGO are unknown. Here, we investigated the effects of CNTs, rGO and aGO, at three time points (7, 14 and 30days), and over a range of concentrations (1ng, 1μg and 1mgkg dry soil-1), on soil bacterial diversity using 16S rRNA amplicon sequencing. Graphite was included to facilitate comparisons with a similar and naturally occurring carbon material, while the inclusion of GO allowed the effects of GO modification to be isolated. Bacterial community composition, but not alpha diversity, was altered by all treatments except the low GO, low rGO and high aGO treatments on day 14 only. In all cases, the nanomaterials led to shifts in community composition that were of similar magnitude to those induced by graphite and GO, albeit with differences in the taxa affected. Our study highlights that carbon nanomaterials can induce changes in soil bacterial diversity, even at doses that are environmentally realistic.

Chemicals Related in the Paper:

Catalog Number	Product Name	Structure	CAS Number	Price
LS71738	Graphene oxide, ammonia functionalized			Price

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