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Original Article

Toxicity of TiO2 nanoparticles on soil nitrification at environmentally relevant concentrations: Lack of classical dose–response relationships

, , , , &
Pages 247-255 | Received 17 Dec 2016, Accepted 26 Jan 2017, Published online: 20 Feb 2017
 

Abstract

Titanium-dioxide nanoparticles (TiO2-NPs) are increasingly released in agricultural soils through, e.g. biosolids, irrigation or nanoagrochemicals. Soils are submitted to a wide range of concentrations of TiO2-NPs depending on the type of exposure. However, most studies have assessed the effects of unrealistically high concentrations, and the dose–response relationships are not well characterized for soil microbial communities. Here, using soil microcosms, we assessed the impact of TiO2-NPs at concentrations ranging from 0.05 to 500 mg kg−1 dry-soil, on the activity and abundance of ammonia-oxidizing archaea (AOA) and bacteria (AOB), and nitrite-oxidizing bacteria (Nitrobacter and Nitrospira). In addition, aggregation and oxidative potential of TiO2-NPs were measured in the spiking suspensions, as they can be important drivers of TiO2-NPs toxicity. After 90 days of exposure, non-classical dose–response relationships were observed for nitrifier abundance or activity, making threshold concentrations impossible to compute. Indeed, AOA abundance was reduced by 40% by TiO2-NPs whatever the concentration, while Nitrospira was never affected. Moreover, AOB and Nitrobacter abundances were decreased mainly at intermediate concentrations nitrification was reduced by 25% at the lowest (0.05 mg kg−1) and the highest (100 and 500 mg kg−1) TiO2-NPs concentrations. Path analyses indicated that TiO2-NPs affected nitrification through an effect on the specific activity of nitrifiers, in addition to indirect effects on nitrifier abundances. Altogether these results point out the need to include very low concentrations of NPs in soil toxicological studies, and the lack of relevance of classical dose–response tests and ecotoxicological dose metrics (EC50, IC50…) for TiO2-NPs impact on soil microorganisms.

Acknowledgments

Marie Simonin was supported by a Ph.D. grant from Rhône-Alpes Region – ARC Environment. This work was funded by a grant from the French National Program ‘Microbien’ EC2CO-CNRS. The authors thank the lab assistance of Mathilde Graillat, Sungeun Lee and Erwann Vince. Nitrification measurements were performed at the AME platform (Microbial Ecology UMR5557-USC1364, Lyon) and quantitative PCR at the DTAMB platform (IFR 41, University Lyon 1).

Disclosure statement

The authors declare to have no conflict of interest.

Additional information

Funding

Marie Simonin was supported by a Ph.D. grant from Rhône-Alpes Region – ARC Environment. This work was funded by a grant from the French National Program ‘Microbien’ EC2CO-CNRS.

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