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1.
Sci Total Environ ; 692: 233-239, 2019 Nov 20.
Article in English | MEDLINE | ID: mdl-31349164

ABSTRACT

Because of their biocide properties, silver nanoparticles (AgNPs) are present in numerous consumer products. The biocidal properties of AgNPs are due to both the interactions between AgNP and cell membranes and the release of dissolved silver (Ag+). Recent studies emphasized the role of different nanoparticle coatings in complexing and storing Ag+. In this study, the availability of dissolved silver in the presence of algae was assessed for three AgNPs with different silver contents (59%, 34% and 7% of total Ag), silver core sizes and casein shell thicknesses. The impact of ionic silver on the photosynthetic yield of Chlamydomonas reinhardtii was used as a proxy to estimate the amount of ionic silver toxically active during in vivo assays. The results showed that cysteine, a strong silver ligand, mitigated the toxicity of AgNPs in all cases, demonstrating the key role of Ag+ in this toxicity. The results showed that the AgNPs presenting an intermediate level of silver (34%) were 10 times more effective in terms of total mass (EC50 ten times smaller) than those presenting more (59%) or less (7%) silver. The higher toxicity was due to the higher release of Ag+ under biotic conditions due to the high surface/mass ratio of the nanoparticle silver core. Protein shells played a minor role in altering the availability of Ag+, probably acting as intermediate reservoirs. This study highlighted the utility of a very sensitive biological endpoint (i.e., algal photosynthesis) for the optimization of ionic silver delivery by nanomaterials.


Subject(s)
Chlamydomonas reinhardtii/drug effects , Metal Nanoparticles/adverse effects , Photosynthesis/drug effects , Silver/adverse effects , Biological Availability , Chlamydomonas reinhardtii/metabolism , Cysteine/administration & dosage , Dose-Response Relationship, Drug , Ions/adverse effects , Protective Agents/administration & dosage
2.
Environ Pollut ; 226: 1-11, 2017 Jul.
Article in English | MEDLINE | ID: mdl-28395184

ABSTRACT

Nanoparticles, such as silver (Ag-NP) and zinc oxide (ZnO-NP), are increasingly used in many consumer products. These nanoparticles (NPs) will likely be exposed to the aquatic environment (rain, river, lake water) and to light (visible and UV) in the products where they are applied, or after those products are discharged. Dissolution of Ag-NP and ZnO-NP is an important process because the dissolved Ag+ and Zn2+ are readily available and toxic for aquatic organisms. The objective of this study was to investigate the role of daylight (UV and visible) for the fate of engineered Ag-NP and ZnO-NPs in different types of natural waters. Ag-NP and ZnO-NP were exposed to rainwater, river Rhine, and lake waters (Greifen, Lucerne, Cristallina, Gruère) under different light conditions (no light, UV 300-400 nm and visible light 400-700 nm) for up to 8 days. Stronger agglomeration of Ag-NP was observed in the waters with higher ionic strength in comparison to those with lower ionic strength. Visible light tended to increase the dissolution of Ag-NP under most natural water conditions in comparison to dark conditions, whereas UV-light led to decreased dissolved Ag+ after longer exposure time. These effects illustrate the dynamic interactions of Ag-NP with light, which may lead both to increased oxidation and to increased reduction of Ag+ by organic compounds under UV-light. In the case of ZnO-NP, agglomeration occurred at higher ionic strength, but the effects of pH were predominant for dissolution, which occurred up to concentrations close to the solubility limit of ZnO(s) at pH around 8.2 and to nearly complete dissolution of ZnO-NP at lower pH (pH 4.8-6.5), with both visible and UV-light facilitating dissolution. This study thus shows that light conditions play an important role in the dissolution processes of nanoparticles.


Subject(s)
Environmental Monitoring , Metal Nanoparticles/analysis , Silver/analysis , Water Pollutants, Chemical/analysis , Zinc Oxide/analysis , Aquatic Organisms , Fresh Water , Light , Metal Nanoparticles/toxicity , Nanoparticles/chemistry , Osmolar Concentration , Silver/chemistry , Solubility , Ultraviolet Rays , Water , Zinc Oxide/chemistry
3.
Environ Pollut ; 216: 689-699, 2016 Sep.
Article in English | MEDLINE | ID: mdl-27357482

ABSTRACT

Engineered nanoparticles (NPs) have realistic potential of reaching natural waterbodies and of exerting toxicity to freshwater organisms. The toxicity may be influenced by the composition of natural waters as crucial NP properties are influenced by water constituents. To tackle this issue, a case study was set up in the framework of EU FP7 NanoValid project, performing an interlaboratory hazard evaluation of NPs in natural freshwater. Ag and CuO NPs were selected as model NPs because of their potentially high toxicity in the freshwater. Daphnia magna (OECD202) and Danio rerio embryo (OECD236) assays were used to evaluate NP toxicity in natural water, sampled from Lake Greifen and Lake Lucerne (Switzerland). Dissolution of the NPs was evaluated by ultrafiltration, ultracentrifugation and metal specific sensor bacteria. Ag NP size was stable in natural water while CuO NPs agglomerated and settled rapidly. Ag NP suspensions contained a large fraction of Ag(+) ions and CuO NP suspensions had low concentration of Cu(2+) ions. Ag NPs were very toxic (48 h EC50 1-5.5 µg Ag/L) to D. magna as well as to D. rerio embryos (96 h EC50 8.8-61 µg Ag/L) in both standard media and natural waters with results in good agreement between laboratories. CuO NP toxicity to D. magna differed significantly between the laboratories with 48 h EC50 0.9-11 mg Cu/L in standard media, 5.7-75 mg Cu/L in Lake Greifen and 5.5-26 mg Cu/L in Lake Lucerne. No toxicity of CuO NP to zebrafish embryos was detected up to 100 mg/L independent of the medium used. The results show that Ag and CuO NP toxicity may be higher in natural water than in the standard media due to differences in composition. NP environmental hazard evaluation can and should be carried out in natural water to obtain more realistic estimates on the toxicity.


Subject(s)
Copper/toxicity , Daphnia/drug effects , Hazardous Substances/analysis , Metal Nanoparticles/toxicity , Silver/toxicity , Water Pollutants, Chemical/toxicity , Zebrafish , Animals , Copper/analysis , Copper/chemistry , Hazardous Substances/chemistry , Hazardous Substances/toxicity , Lakes , Metal Nanoparticles/analysis , Metal Nanoparticles/chemistry , Silver/analysis , Silver/chemistry , Switzerland , Toxicity Tests , Water Pollutants, Chemical/analysis , Water Pollutants, Chemical/chemistry
4.
Environ Sci Technol ; 49(13): 8041-7, 2015 Jul 07.
Article in English | MEDLINE | ID: mdl-26018638

ABSTRACT

Various factors have been invoked to explain the toxicity of silver nanoparticles (AgNP) to microorganisms including particle size and the nature of stabilizing coatings as well as the amount of dissolved silver occurring in AgNP suspensions. In this study we have assessed the effects of nine differently coated AgNP (chitosan, lactate, polyvinylpyrrolidone, polyethelene glycol, gelatin, sodium dodecylbenzenesulfonate, citrate, dexpanthenol, and carbonate) and AgNO3 on the photosynthesis of the freshwater algae Chlamydomonas reinhardtii. We have thus examined how AgNP effects on algae relate to particle size, measured dissolved silver (Agd), and bioavailable silver (Agbioav). Agbioav was indirectly estimated in toxicity experiments by cysteine-silver complexation at the EC50. The EC50 calculated as a function of measured Agd concentrations showed for some coatings values similar to that of dissolved Ag, whereas other coated AgNP displayed lower EC50 values. In all cases, excess cysteine completely prevented effects on photosynthetic yield, confirming the role of Agd as a cause of the observed effect on the photosynthesis. Toxicity was related neither to particle size nor to the coatings. For all differently coated AgNP suspensions, the EC50 values calculated as a function of Agbioav were comparable to the value of AgNO3. Depending on the coatings Agbioav was comparable to or higher than measured Agd.


Subject(s)
Chlamydomonas reinhardtii/drug effects , Metal Nanoparticles/chemistry , Metal Nanoparticles/toxicity , Photosynthesis/drug effects , Silver/toxicity , Benzenesulfonates/chemistry , Benzenesulfonates/toxicity , Carbonates/chemistry , Carbonates/toxicity , Chitosan/chemistry , Chitosan/toxicity , Chlamydomonas reinhardtii/physiology , Citrates/chemistry , Citrates/toxicity , Cysteine/pharmacology , Cysteine/toxicity , Gelatin/chemistry , Gelatin/toxicity , Lactates/chemistry , Lactates/toxicity , Pantothenic Acid/analogs & derivatives , Pantothenic Acid/chemistry , Pantothenic Acid/toxicity , Particle Size , Polyethylene Glycols/chemistry , Polyethylene Glycols/toxicity , Povidone/toxicity , Silver/pharmacokinetics , Silver Nitrate/pharmacokinetics , Toxicity Tests/methods
5.
Environ Pollut ; 191: 132-8, 2014 Aug.
Article in English | MEDLINE | ID: mdl-24832924

ABSTRACT

The dissolution of Ag (citrate, gelatin, polyvinylpyrrolidone and chitosan coated), ZnO, CuO and carbon coated Cu nanoparticles (with two nominal sizes each) has been studied in artificial aqueous media, similar in chemistry to environmental waters, for up to 19 days. The dissolved fraction was determined using DGT (Diffusion Gradients in Thin films), dialysis membrane (DM) and ultrafiltration (UF). Relatively small fractions of Ag nanoparticles dissolved, whereas ZnO dissolved nearly completely within few hours. Cu and CuO dissolved as a function of pH. Using DGT, less dissolved Ag was measured compared to UF and DM, likely due to differences in diffusion of organic complexes. Similar dissolved metal concentrations of ZnO, Cu and CuO nanoparticles were determined using DGT and UF, but lower using DM. The results indicate that there is a need to apply complementary techniques to precisely determine dissolution of nanoparticles in aqueous media.


Subject(s)
Copper/chemistry , Metal Nanoparticles/chemistry , Water/chemistry , Zinc Oxide/chemistry , Carbon/chemistry , Chitosan/chemistry , Citrates/chemistry , Copper/analysis , Diffusion , Gelatin/chemistry , Povidone/chemistry , Silver/analysis , Silver/chemistry , Solubility , Ultrafiltration , Water Pollutants, Chemical/analysis , Water Pollutants, Chemical/chemistry
6.
Chimia (Aarau) ; 68(11): 806-11, 2014 Nov.
Article in English | MEDLINE | ID: mdl-26508489

ABSTRACT

Nanoecotoxicology strives to understand the processes and mechanisms by which engineered nanoparticles (ENP) may exert toxic effects on aquatic organisms. Detailed knowledge of the chemical reactions of nanoparticles in the media and of their interactions with organisms is required to understand these effects. The processes of agglomeration of nanoparticles, of dissolution and release of toxic metal ions, and of production of reactive oxygen species (ROS) are considered in this article. Important questions concern the role of uptake of nanoparticles in various organisms, in contrast to uptake of ions released from nanoparticles and to nanoparticle attachment to organism surfaces. These interactions are illustrated for effects of silver nanoparticles (AgNP), cerium oxide (CeO2 NP) and titanium dioxide (TiO2 NP), on aquatic organisms, including algae, biofilms, fish cells and fish embryos.


Subject(s)
Metal Nanoparticles/toxicity , Water Pollutants, Chemical/toxicity , Animals , Aquatic Organisms , Cerium , Ecotoxicology , Metal Nanoparticles/chemistry , Particle Size , Silver/chemistry , Titanium
7.
Environ Toxicol Chem ; 28(10): 2108-16, 2009 Oct.
Article in English | MEDLINE | ID: mdl-19432503

ABSTRACT

The aim of the present study was to investigate the kinetics of cadmium (Cd) accumulation (total and intracellular) in periphyton under freshwater conditions in a short-term microcosm experiment. Periphyton was precolonized in artificial flow-through channels supplied with natural freshwater and then exposed for 26.4 h to nominal Cd concentrations of 5 and 20 nM added to natural freshwater. Labile Cd in water determined with diffusion gradient in thin films was 60 to 69% of total dissolved Cd in the exposure channels and 11% in the control channel. Intracellular Cd concentrations in periphyton increased rapidly and linearly during the first 71 min. Initial intracellular uptake rates were 0.05 and 0.18 nmol of Cd/g of dry weight x min in the 5 nM and 20 nM exposures, respectively. The subsequent intracellular uptake was slower, approaching steady state at the end of Cd exposure. Uptake kinetics of Cd was slower when compared to experiments with planktonic algal cultures, probably due to diffusion limitations. Intracellular Cd uptake during the entire exposure was modeled with a nonlinear, one-compartment model from which uptake and clearance rate constants, as well as bioconcentration factors, were obtained. The release of Cd from periphyton after the end of Cd exposure was slow when compared to the initial uptake rates.


Subject(s)
Cadmium/metabolism , Eukaryota/metabolism , Fresh Water , Water Pollutants, Chemical/metabolism , Cadmium/analysis , Cadmium/pharmacokinetics , Kinetics , Time Factors , Water Pollutants, Chemical/analysis , Water Pollutants, Chemical/pharmacokinetics
8.
Environ Sci Technol ; 42(23): 8959-64, 2008 Dec 01.
Article in English | MEDLINE | ID: mdl-19192825

ABSTRACT

Silver nanoparticles (AgNP) are likely to enter the aquatic environment because of their multiple uses. We have examined the short-term toxicity of AgNP and ionic silver (Ag+) to photosynthesis in Chlamydomonas reinhardtii using fluorometry. AgNP ranged in size from 10 to 200 nm with most particles around 25 nm. As determined by DGT (diffusive gradients in thin films), by ion-selective electrode, and by centrifugal ulrafiltration, about 1% of the AgNP was present as Ag+ ions. Based on total Ag concentration, toxicity was 18 times higher for AgNO3 than for AgNP (in terms of EC50). However, when compared as a function of the Ag+ concentration,toxicity of AgNP appeared to be much higher than that of AgNO3. The ionic Ag+ measured in the AgNP suspensions could not fully explain the observed toxicity. Cysteine, a strong Ag+ ligand, abolished the inhibitory effects on photosynthesis of both AgNP and Ag+. Together, the results indicate that the interaction of these particles with algae influences the toxicity of AgNP, which is mediated by Ag+. Particles contributed to the toxicity as a source of Ag+ which is formed in presence of algae.


Subject(s)
Chlamydomonas reinhardtii/drug effects , Nanoparticles/toxicity , Silver/toxicity , Toxicity Tests , Animals , Cysteine/pharmacology , Nanoparticles/ultrastructure , Photosynthesis/drug effects , Silver/analysis , Silver Nitrate/toxicity
9.
Environ Sci Technol ; 40(6): 1934-41, 2006 Mar 15.
Article in English | MEDLINE | ID: mdl-16570618

ABSTRACT

Several techniques for speciation analysis of Cu, Zn, Cd, Pb, and Ni are used in freshwater systems and compared with respect to their performance and to the metal species detected. The analytical techniques comprise the following: (i) diffusion gradients in thin-film gels (DGT); (ii) gel integrated microelectrodes combined to voltammetric in situ profiling system (GIME-VIP); (iii) stripping chronopotentiometry (SCP); (iv) flow-through and hollow fiber permeation liquid membranes (FTPLM and HFPLM); (v) Donnan membrane technique (DMT); (vi) competitive ligand-exchange/stripping voltammetry (CLE-SV). All methods could be used both under hardwater and under softwater conditions, although in some cases problems with detection limits were encountered at the low total concentrations. The detected Cu, Cd, and Pb concentrations decreased in the order DGT > or = GIME-VIP > or = FTPLM > or = HFPLM approximately = DMT (>CLE-SV for Cd), detected Zn decreased as DGT > or = GIME-VIP and Ni as DGT > DMT, in agreement with the known dynamic features of these techniques. Techniques involving in situ measurements (GIME-VIP) or in situ exposure (DGT, DMT, and HFPLM) appear to be appropriate in avoiding artifacts which may occur during sampling and sample handling.


Subject(s)
Environmental Monitoring/methods , Fresh Water/analysis , Trace Elements/analysis , Water Pollutants, Chemical/analysis , Artifacts , Denmark , Environmental Monitoring/instrumentation , Reproducibility of Results , Sensitivity and Specificity , Time Factors
10.
Environ Sci Technol ; 40(6): 1942-9, 2006 Mar 15.
Article in English | MEDLINE | ID: mdl-16570619

ABSTRACT

Measurements of trace metal species in situ in a softwater river, a hardwater lake, and a hardwater stream were compared to the equilibrium distribution of species calculated using two models, WHAM 6, incorporating humic ion binding model VI and visual MINTEQ incorporating NICA-Donnan. Diffusive gradients in thin films (DGT) and voltammetry at a gel integrated microelectrode (GIME) were used to estimate dynamic species that are both labile and mobile. The Donnan membrane technique (DMT) and hollow fiber permeation liquid membrane (HFPLM) were used to measure free ion activities. Predictions of dominant metal species using the two models agreed reasonably well, even when colloidal oxide components were considered. Concentrations derived using GIME were generally lower than those from DGT, consistent with calculations of the lability criteria that take into account the smaller time window available forthe fluxto GIME. Model predictions of free ion activities generally did not agree with measurements, highlighting the need for further work and difficulties in obtaining appropriate input data.


Subject(s)
Environmental Monitoring/methods , Metals/analysis , Rivers/chemistry , Water Pollutants, Chemical/analysis , Benzopyrans/analysis , Carbonates/analysis , Forecasting , Humic Substances/analysis , Models, Biological , Reproducibility of Results , Sensitivity and Specificity
11.
Sci Total Environ ; 368(1): 199-209, 2006 Sep 01.
Article in English | MEDLINE | ID: mdl-16266737

ABSTRACT

The Kastela Bay is heavily polluted with inorganic mercury originated from direct discharges from the chlor-alkali plant, which operated in the period from 1950 to 1990. Even though the plant was closed 15 years ago, elevated levels of total mercury are still evident in surface sediments of the bay. In order to assess the availability of remobilized mercury to marine organisms, cultured mussels (M. galloprovincialis) were transplanted from pristine area to Kastela Bay, in the period from September 2000 to March 2001. Mussel samples were collected for the analysis of THg and MeHg in whole soft tissue, gills and digestive gland. Surface sediments and suspended matter were collected for the analysis of THg. Digestive gland was the target organ for the accumulation of THg, while concentrations of MeHg were similar in all analyzed tissues. The percentage of MeHg in mussel tissues (4-27%) was characteristic for the areas contaminated with inorganic mercury. A significant negative correlation was observed between the THg concentration in the tissues and the percentage of MeHg. Concentrations of THg in mussel tissues, which were decreasing from the source of contamination in an anticlockwise direction towards the exit of the bay, were significantly positively correlated to THg content in sediment and suspended particles. Spatial distribution of mercury species (THg and MeHg) in different environmental compartments was in accordance with the prevailing circulation in the bay. Data obtained through 6 months of biomonitoring experiment indicated that digestive gland was more sensitive indicator of THg concentrations in the environment than the whole organism or gills. As for MeHg, all tissues were equally suitable as biomonitors of MeHg concentrations in the environment.


Subject(s)
Mercury/analysis , Methylmercury Compounds/analysis , Mytilus , Water Pollutants, Chemical/analysis , Animals , Environmental Monitoring/methods , Gastrointestinal Tract/chemistry , Geologic Sediments/analysis , Gills/chemistry
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