Your search keyword '"Levard, Clément"' showing total 6 results

1. Contrasted fate of zinc sulfide nanoparticles in soil revealed by a combination of X-ray absorption spectroscopy, diffusive gradient in thin films and isotope tracing.

Author

Le Bars M, Legros S, Levard C, Chevassus-Rosset C, Montes M, Tella M, Borschneck D, Guihou A, Angeletti B, and Doelsch E

Subjects

Isotopes, Soil, Sulfides, X-Ray Absorption Spectroscopy, Zinc analysis, Zinc Compounds, Nanoparticles, Soil Pollutants analysis

Abstract

Incidental zinc sulfide nanoparticles (nano-ZnS) are spread on soils through organic waste (OW) recycling. Here we performed soil incubations with synthetic nano-ZnS (3 nm crystallite size), representative of the form found in OW. We used an original set of techniques to reveal the fate of nano-ZnS in two soils with different properties. 68 Zn tracing and nano-DGT were combined during soil incubation to discriminate the available natural Zn from the soil, and the available Zn from the dissolved nano- 68 ZnS. This combination was crucial to highlight the dissolution of nano- 68 ZnS as of the third day of incubation. Based on the extended X-ray absorption fine structure, we revealed faster dissolution of nano-ZnS in clayey soil (82% within 1 month) than in sandy soil (2% within 1 month). However, the nano-DGT results showed limited availability of Zn released by nano-ZnS dissolution after 1 month in the clayey soil compared with the sandy soil. These results highlighted: (i) the key role of soil properties for nano-ZnS fate, and (ii) fast dissolution of nano-ZnS in clayey soil. Finally, the higher availability of Zn in the sandy soil despite the lower nano-ZnS dissolution rate is counterintuitive. This study demonstrated that, in addition to nanoparticle dissolution, it is also essential to take the availability of released ions into account when studying the fate of nanoparticles in soil., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

2. X-ray absorption spectroscopy evidence of sulfur-bound cadmium in the Cd-hyperaccumulator Solanum nigrum and the non-accumulator Solanum melongena.

Author

Pons ML, Collin B, Doelsch E, Chaurand P, Fehlauer T, Levard C, Keller C, and Rose J

Subjects

Biodegradation, Environmental, Cadmium analysis, Plant Roots chemistry, Sulfur, X-Ray Absorption Spectroscopy, Soil Pollutants analysis, Solanum melongena, Solanum nigrum

Abstract

It has been proposed that non-protein thiols and organic acids play a major role in cadmium phytoavailability and distribution in plants. In the Cd-hyperaccumulator Solanum nigrum and non-accumulator Solanum melongena, the role of these organic ligands in the accumulation and detoxification mechanisms of Cd are debated. In this study, we used X-ray absorption spectroscopy to investigate Cd speciation in these plants (roots, stem, leaves) and in the soils used for their culture to unravel the plants responses to Cd exposure. The results show that Cd in the 100 mg kg -1 Cd-doped clayey loam soil is sorbed onto iron oxyhydroxides. In both S. nigrum and S. melongena, Cd in roots and fresh leaves is mainly bound to thiol ligands, with a small contribution of inorganic S ligands in S. nigrum leaves. We interpret the Cd binding to sulfur ligands as detoxification mechanisms, possibly involving the sequestration of Cd complexed with glutathione or phytochelatins in the plant vacuoles. In the stems, results show an increase binding of Cd to -O ligands (>50% for S. nigrum). We suggest that Cd is partly complexed by organic acids for transportation in the sap., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

3. Ecotoxicology of silver nanoparticles and their derivatives introduced in soil with or without sewage sludge: A review of effects on microorganisms, plants and animals.

Author

Courtois P, Rorat A, Lemiere S, Guyoneaud R, Attard E, Levard C, and Vandenbulcke F

Subjects

Agriculture, Animals, Biomass, Ecotoxicology, Metal Nanoparticles chemistry, Oligochaeta drug effects, Plants drug effects, Sewage chemistry, Silver Compounds toxicity, Soil chemistry, Soil Microbiology, Soil Pollutants analysis, Wastewater chemistry, Metal Nanoparticles toxicity, Silver toxicity, Soil Pollutants toxicity, Water Pollutants, Chemical toxicity

Abstract

Silver nanoparticles (AgNPs) are widely incorporated in many products, partly due to their antimicrobial properties. The subsequent discharge of this form of silver into wastewater leads to an accumulation of silver species (AgNPs and derivatives resulting from their chemical transformation), in sewage sludge. As a result of the land application of sewage sludge for agricultural or remediation purposes, soils are the primary receiver media of silver contamination. Research on the long-term impact of AgNPs on the environment is ongoing, and this paper is the first review that summarizes the existing state of scientific knowledge on the potential impact of silver species introduced into the soil via sewage sludge, from microorganisms to earthworms and plants. Silver species can easily enter cells through biological membranes and affect the physiology of organisms, resulting in toxic effects. In soils, exposure to AgNPs may change microbial biomass and diversity, decrease plant growth and inhibit soil invertebrate reproduction. Physiological, biochemical and molecular effects have been documented in various soil organisms and microorganisms. Negative effects on organisms of the dominant form of silver in sewage sludge, silver sulfide (Ag 2 S), have been observed, although these effects are attenuated compared to the effects of metallic AgNPs. However, silver toxicity is complex to evaluate and much remains unknown about the ecotoxicology of silver species in soils, especially with respect to the possibility of transfer along the trophic chain via accumulation in plant and animal tissues. Critical points related to the hazards associated with the presence of silver species in the environment are described, and important issues concerning the ecotoxicity of sewage sludge applied to soil are discussed to highlight gaps in existing scientific knowledge and essential research directions for improving risk assessment., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

4. Radical change of Zn speciation in pig slurry amended soil: Key role of nano-sized sulfide particles.

Author

Formentini TA, Legros S, Fernandes CVS, Pinheiro A, Le Bars M, Levard C, Mallmann FJK, da Veiga M, and Doelsch E

Subjects

Agriculture methods, Animals, Metal Nanoparticles analysis, Metal Nanoparticles chemistry, Metals, Heavy analysis, Particle Size, Soil Pollutants analysis, Sulfides analysis, Sus scrofa, Swine, Zinc analysis, Zinc Compounds analysis, Manure, Metals, Heavy chemistry, Soil chemistry, Sulfides chemistry, Zinc chemistry, Zinc Compounds chemistry

Abstract

Spreading livestock manure as fertilizer on farmlands is a widespread practice. It represents the major source of heavy metal(loid)s (HM) input in agricultural soils. Since zinc (Zn) is present at high concentrations in manure, it poses special environmental concerns related to phytotoxicity, groundwater contamination, and introduction in the food chain. Therefore, investigations on the fate and behavior of manure-borne Zn, when it enters the soil environment, are necessary to predict the environmental effects. Nevertheless, long-term field studies assessing Zn speciation in the organic waste matrix, as well as within the soil after manure application, are lacking. This study was designed to fill this gap. Using SEM-EDS and XAS analysis, we reported the following new results: (i) ZnS made up 100% of the Zn speciation in the pig slurry (the highest proportion of ZnS ever observed in organic waste); and (ii) ZnS aggregates were about 1-μm diameter (the smallest particle size ever reported in pig slurry). Moreover, the pig slurry containing ZnS was spread on the soil over an 11-year period, totaling 22 applications, and the resulting Zn speciation within the amended soil was analyzed. Surprisingly, ZnS, i.e. the only species responsible for a nearly 2-fold increase in the Zn concentration within the amended soil, was not detected in this soil. Based on SEM-EDS and XAS observations, we put forward the hypothesis that Zn in the pig slurry consisted of nano-sized ZnS crystallites that further aggregated. The low stability of ZnS nanoparticles within oxic and complex environments such as the studied soil was the key explanation for the radical change in pig slurry-borne Zn speciation after long-term amendments., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

5. Environmental exposure to TiO 2 nanomaterials incorporated in building material.

Author

Bossa N, Chaurand P, Levard C, Borschneck D, Miche H, Vicente J, Geantet C, Aguerre-Chariol O, Michel FM, and Rose J

Subjects

Industrial Waste analysis, Porosity, Rivers chemistry, Water Pollutants, Chemical analysis, Water Pollutants, Chemical chemistry, Construction Materials analysis, Environmental Exposure analysis, Environmental Pollutants analysis, Environmental Pollutants chemistry, Nanostructures analysis, Nanostructures chemistry, Titanium analysis, Titanium chemistry

Abstract

Nanomaterials are increasingly being used to improve the properties and functions of common building materials. A new type of self-cleaning cement incorporating TiO 2 nanomaterials (TiO 2 -NMs) with photocatalytic properties is now marketed. This promising cement might provide air pollution-reducing properties but its environmental impact must be validated. During cement use and aging, an altered surface layer is formed that exhibits increased porosity. The surface layer thickness alteration and porosity increase with the cement degradation rate. The hardened cement paste leaching behavior has been fully documented, but the fate of incorporated TiO 2 -NMs and their state during/after potential release is currently unknown. In this study, photocatalytic cement pastes with increasing initial porosity were leached at a lab-scale to produce a range of degradation rates concerning the altered layer porosity and thickness. No dissolved Ti was released during leaching, only particulate TiO 2 -NM release was detected. The extent of release from this batch test simulating accelerated worst-case scenario was limited and ranged from 18.7 ± 2.1 to 33.5 ± 5.1 mg of Ti/m 2 of cement after 168 h of leaching. TiO 2 -NMs released into neutral aquatic media (simulate pH of surface water) were not associated or coated by cement minerals. The TiO 2 -NM release mechanism is suspected to start from freeing of TiO 2 -NMs in the altered layer pore network due to partial cement paste dissolution followed by diffusion into the bulk pore solution to the surface. The extent of TiO 2 -NM release was not solely related to the cement degradation rate., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

6. Behavior of Ag nanoparticles in soil: effects of particle surface coating, aging and sewage sludge amendment.

Author

Whitley AR, Levard C, Oostveen E, Bertsch PM, Matocha CJ, von der Kammer F, and Unrine JM

Subjects

Metal Nanoparticles analysis, Silver analysis, Soil Pollutants analysis, Waste Disposal, Fluid, Environmental Restoration and Remediation methods, Metal Nanoparticles chemistry, Sewage chemistry, Silver chemistry, Soil chemistry, Soil Pollutants chemistry

Abstract

This study addressed the relative importance of particle coating, sewage sludge amendment, and aging on aggregation and dissolution of manufactured Ag nanoparticles (Ag MNPs) in soil pore water. Ag MNPs with citrate (CIT) or polyvinylpyrrolidone (PVP) coatings were incubated with soil or municipal sewage sludge which was then amended to soil (1% or 3% sludge (w/w)). Pore waters were extracted after 1 week and 2 and 6 months and analyzed for chemical speciation, aggregation state and dissolution. Ag MNP coating had profound effects on aggregation state and partitioning to pore water in the absence of sewage sludge, but pre-incubation with sewage sludge negated these effects. This suggests that Ag MNP coating does not need to be taken into account to understand fate of AgMNPs applied to soil through biosolids amendment. Aging of soil also had profound effects that depended on Ag MNP coating and sludge amendment., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013