Toxicity of nanoparticles of ZnO, CuO and TiO2 to yeast Saccharomyces cerevisiae

The aim of this study was to evaluate the toxic effect of nanosized ZnO, CuO and TiO₂ to Saccharomyces cerevisiae – a widely used unicellular eukaryotic model organisms in molecular and cell biology. The effect of metal oxide nanoparticles, their bulk forms and respective ionic forms were compared. The bioavailable Zn²⁺ and Cu²⁺ ions in the growth medium were quantified by recombinant microbial sensors.Nano and bulk TiO₂ were not toxic even at 20000 mg/l. Both, nano and bulk ZnO were of comparable toxicity (8-h EC₅₀ 121–134 mg ZnO/l and 24-h EC₅₀ 131–158 mg/l). The toxicity was explained by soluble Zn-ions as proved by the microbial sensor. However, nano CuO was about 60-fold more toxic than bulk CuO: 8-h EC₅₀ were 20.7 and 1297 mg CuO/l and 24-h EC₅₀ were 13.4 and 873 mg/l, respectively. The increase in toxicity of both CuO formulations at 24th hour of growth was due to the increased dissolution of copper ions from CuO over time. Comparison of EC₅₀ values of nano CuO, bulk CuO and Cu²⁺ with bioavailable copper concentrations in the growth medium showed that the solubilized Cu-ions explained only about 50% of the toxicity of both, nano and bulk CuO. To our knowledge, this is the first study that evaluates the toxicity of ZnO, CuO and TiO₂ nanoparticles to S. cerevisiae.     

Ecotoxicological effects of bisphenol A and nonylphenol on the freshwater cladocerans Ceriodaphnia silvestrii and Daphnia similis

Toxicities of bisphenol A (BPA) and nonylphenol (NP) to the neotropical freshwater cladocerans Ceriodaphnia silvestrii and Daphnia similis were studied under laboratory conditions. Acute exposures to BPA generated mean 48-h EC₅₀ values of 14.44 (6.02–22.85) mg L^?1 for C. silvestrii and 12.05 (1.73–22.37) mg L^?1 for D. similis. When the organisms were exposed to acute doses of NP, mean 48-h EC₅₀ values were 0.055 (0.047–0.064) mg L^?1 (C. silvestrii) and 0.133 (0.067–0.200) mg L^?1 (D. similis). Ceriodaphnia silvestrii was also tested in chronic bioassays, which resulted in mean 8-d IC₂₅ values of 2.43 (2.16–2.69) mg L^?1 BPA [no observed effect concentration (NOEC): 1.38?mg L^?1] and 0.020 (0.015–0.026) mg L^?1 NP (NOEC: 0.015?mg L^?1). These laboratory tests are valuable to broaden the understanding of the environmental threat posed by BPA and NP in aquatic ecosystems, and to increase the knowledge about the sensitivity of neotropical indigenous species to these contaminants. In addition to the laboratory bioassays, species sensitivity distributions were used to suggest protective concentrations of BPA and NP to prevent adverse effects on freshwater organisms. According to the obtained results, concentrations lower than 36.47?µg L^?1 BPA and 1.39?µg L^?1 NP are not expected to adversely impact aquatic organisms in natural ecosystems.     

Toxicity of seven phthalate esters to embryonic development of the abalone Haliotis diversicolor supertexta

The toxicity of seven phthalate esters (PAEs), dimethyl phthalate (DMP), diethyl phthalate (DEP), dibutyl phthalate (DBP), butylbenzyl phthalate (BBP), di-n-hexyl phthalate (DnHP), di-(2-ethylhexyl) phthalate (DEHP) and di-n-octyl phthalate (DOP) to embryogenesis and larval development of the marine univalve Haliotis diversicolor supertexta was examined by means of two-stage embryo toxicity test. At the blastula stage, the normal embryonic development of H. diversicolor supertexta showed a good dose-response decrease when exposed to DMP, DEP, DBP, BBP, and DnHP. 9-h EC₅₀ values of DMP, DEP, DBP, BBP, and DnHP were 55.71, 39.13, 8.37, 2.65, and 3.32 mg/l, respectively. 9-h EC₅₀ values of DEHP and DOP were not available due to their low solubility. The toxicity order of seven tested PAEs was BBP>DnHP>DBP>DEP>DMP>DOP>DEHP. With the completion of metamorphosis as an experimental endpoint, the 96-h no-observed effect concentration values of DBP, DEHP and the other five tested PAEs were 0.022, 0.021, and 0.020 mg/l, respectively. Due to simple obtainment, convenient stimulation to spawn in the lab, greater sensitivity than mature species, and short culture time, the embryos of H. diversicolor supertexta have the potential to be utilized in acute toxicity test for at least PAEs.     

Applicability of rat precision-cut lung slices in evaluating nanomaterial cytotoxicity,apoptosis, oxidative stress,and inflammation

The applicability of rat precision-cut lung slices (PCLuS) in detecting nanomaterial (NM) toxicity to the respiratory tract was investigated evaluating sixteen OECD reference NMs (TiO₂, ZnO, CeO₂, SiO₂, Ag, multi-walled carbon nanotubes (MWCNTs)). Upon 24-hour test substance exposure, the PCLuS system was able to detect early events of NM toxicity: total protein, reduction in mitochondrial activity, caspase-3/-7 activation, glutathione depletion/increase, cytokine induction, and histopathological evaluation. Ion shedding NMS (ZnO and Ag) induced severe tissue destruction detected by the loss of total protein. Two anatase TiO₂ NMs, CeO₂ NMs, and two MWCNT caused significant (determined by trend analysis) cytotoxicity in the WST-1 assay. At non-cytotoxic concentrations, different TiO₂ NMs and one MWCNT increased GSH levels, presumably a defense response to reactive oxygen species, and these substances further induced a variety of cytokines. One of the SiO₂ NMs increased caspase-3/-7 activities at non-cytotoxic levels, and one rutile TiO₂ only induced cytokines. Investigating these effects is, however, not sufficient to predict apical effects found in vivo. Reproducibility of test substance measurements was not fully satisfactory, especially in the GSH and cytokine assays. Effects were frequently observed in negative controls pointing to tissue slice vulnerability even though prepared and handled with utmost care. Comparisons of the effects observed in the PCLuS to in vivo effects reveal some concordances for the metal oxide NMs, but less so for the MWCNT. The highest effective dosages, however, exceeded those reported for rat short-term inhalation studies. To become applicable for NM testing, the PCLuS system requires test protocol optimization.     

Acute and chronic toxicity of nano-scale TiO2 particles to freshwater fish,cladocerans, and green algae,and effects of organic and inorganic substrate on TiO2 toxicity

This research evaluated the toxicity of TiO₂ nanoparticles to freshwater aquatic organisms and the effects of organic and inorganic material on TiO₂ toxicity. The fathead minnow was much less acutely sensitive to TiO₂ (LC50 500 mg/l and higher) than Ceriodaphnia dubia and Daphnia pulex (mean LC50 values 7.6 and 9.2 mg/l, respectively). Total organic carbon levels of 1.5 mg/l decreased TiO₂ acute toxicity to C. dubia (LC50 > 100 mg/l), but kaolinite clay decreased TiO₂ toxicity to a lesser extent. In chronic toxicity tests, the green algae Pseudokirchneriella subcapitata was more sensitive to TiO₂ (IC25 1–2 mg/l) than C. dubia (IC25 9.4–26.4 mg/l) and the fathead minnow (IC25 values over 340 mg/l). Study results indicate that the specific organisms exposed and the effects of water quality parameters on TiO₂ toxicity should be considered in hazard evaluations of this nanoparticle.     

Influence of temperature and soil moisture on the toxic potential of clothianidin to collembolan Folsomia candida in a tropical field soil

Climate change can alter the toxic effects of pesticides on soil invertebrates. However, the nature and magnitude of the influence of climatic factors on clothianidin impacts in tropical soils are still unknown. The influence of increasing atmospheric temperature and the reduction in soil moisture on the toxicity and risk of clothianidin (seed dressing formulation Inside FS^®) were assessed through chronic toxicity tests with collembolans Folsomia candida in a tropical field soil (Entisol). The risk of clothianidin for collembolans was estimated using the Toxicity-Exposure Ratio (TER) approach. Organisms were exposed to increasing clothianidin concentrations at 20, 25 and 27?°C in combination with two soil moisture conditions (30 and 60% of the maximum water holding capacity—WHC). The effect of temperature and soil moisture content on clothianidin toxicity was verified through the number of F. candida juveniles generated after 28 days of exposure to the spiked soil. The toxicities estimated at 25?°C (EC₅₀__30%WHC?=?0.014?mg?kg^?1; EC_{50_60%WHC}?=?0.010?mg?kg^?1) and 27?°C (EC_{50_30%WHC}?=?0.006?mg?kg^?1; EC_{50_60%WHC}?=?0.007?mg?kg^?1) were 2.9–3.0-fold (25?°C) and 4.3–6.7-fold (27?°C) higher than those found at 20?°C (EC_{50_30%WHC}?=?0.040?mg?kg^?1; EC_{50_60%WHC}?=?0.030?mg?kg^?1), indicating that clothianidin toxicity increases with temperature. No clear influence of soil moisture content on clothianidin toxicity could be observed once the EC₅₀ values estimated at 30% and 60% WHC, within the same temperature, did not significantly differ. A significant risk was detected in all temperatures and soil moisture scenarios studied, and the TER values indicate that the risk can increase with increasing temperatures. Our results revealed that temperature could overlap with soil moisture in regulating clothianidin toxicity and reinforce the importance of including climatic factors in the prospective risk assessment of pesticides.

     

Ecotoxicity profiling of a library of 24 l-phenylalanine derived surface-active ionic liquids (SAILs)

We evaluated the ecotoxicity of a library of 24 l-phenylalanine derived surface-active ionic liquids (SAILs) with various cationic head groups (pyridinium, Py; imidazolium, Imid and cholinium, Chol) and alkyl ester chains from C₂ to C₁₆. For toxicity evaluation we used 72-h algal growth inhibition assay (OECD 201) with Raphidocelis subcapitata and 24-h mortality test with aquatic crustaceans Thamnocephalus platyurus (ISO 14380:2011). The OECD 201 assay was applied to all 24 SAILs while the ISO 14380:2011 test was applied to a subset, specifically all eight pyridinium SAILs and C₆ and C₈ examples of the imidazolium and cholinium SAILs (total 12 SAILs). For the comparison, 30-min EC₅₀ data (based on inhibition of bioluminescence) previously reported by this group for the 24 SAILs for marine bacteria Vibrio fischeri (ISO 21338:2010) were included and correlated to the algae and aquatic crustaceans data. According to the results of the multritrophic test battery only two studied SAILs - PyC₂ and CholC₂ – could be considered ‘low toxicity’, (i.e. were ranked not harmful, L(E)C₅₀ > 100 mg/L by the most sensitive test - algal growth inhibition assay). T. platyurus proved about 100-times more tolerant to studied SAILs than algae. An alternative classification scale dependent on the average MW of the compound dataset (based on molar concentrations and not concentrations based on mg/L) was suggested to rank the compounds. When compared to the classification scale independent of the MW of the compound, a more accurate appraisal was achieved for suggesting the greener alternatives for certain commercial SAILs/surfactants.     

Ecotoxicological assessment of effluents in the Basque country (Northern Spain) by acute and chronic toxicity tests using Daphnia magna straus

Acute pass/fail, multi-concentration tests, and 3-brood chronic toxicity tests with Daphnia magna Straus (Cladocera, Crustacea) were used to characterise industrial and municipal effluents from various sources. The effluents that “passed” the pass/fail tests had 48-h EC₅₀ values >100% and reproduction No Observed Effect Concentration (NOECs) ≥100%, except for one effluent that had a reproduction NOEC of 31.6%. The acute multi-concentration toxicity tests allowed a rapid classification of effluents from Very Toxic (48-h EC₅₀<25%), to Non-Toxic (48-h EC₅₀ >100%). The acute-to-chronic ratio (ACR: 48-h EC₅₀ divided by the NOEC for reproduction) in the studied effluents ranged from 5 to about 100. From these results, we propose a step-wise protocol for assessing effluent toxicity. First, effluent is evaluated by means of simple and rapid pass/fail acute toxicity tests, to discriminate Non-Toxic from potentially Toxic effluents, thus facilitating the establishment of priority actions. Second, 48-h EC _x is estimated to classify effluents on a toxicity scale from Non-Toxic to Very Toxic. Third, chronic multi-concentration tests are used to calculate reproduction NOECs. These parameters combined with data on effluent chemical composition, chemical and hydrological characteristics of receiving waters, and biological quality criteria can be jointly used for more rational regulatory practices and risk assessment of effluents.     

Interactions of CuO nanoparticles with the algae Chlorella pyrenoidosa: adhesion,uptake, and toxicity

The potential adverse effects of CuO nanoparticles (NPs) have increasingly attracted attention. Combining electron microscopic and toxicological investigations, we determined the adhesion, uptake, and toxicity of CuO NPs to eukaryotic alga Chlorella pyrenoidosa. CuO NPs were toxic to C. pyrenoidosa, with a 72?h EC₅₀ of 45.7?mg/L. Scanning electron microscopy showed that CuO NPs were attached onto the surface of the algal cells and interacted with extracellular polymeric substances (EPS) excreted by the organisms. Transmission electron microscopy (TEM) showed that EPS layer of algae was thickened by nearly 4-fold after CuO NPs exposure, suggesting a possible protective mechanism. In spite of the thickening of EPS layer, CuO NPs were still internalized by endocytosis and were stored in algal vacuoles. TEM and electron diffraction analysis confirmed that the internalized CuO NPs were transformed to Cu₂O NPs (d-spacing, ～0.213?nm) with an average size approximately 5?nm. The toxicity investigation demonstrated that severe membrane damage was observed after attachment of CuO NPs with algae. Reactive oxygen species generation and mitochondrial depolarization were also noted upon exposure to CuO NPs. This work provides useful information on understanding the role of NPs–algae physical interactions in nanotoxicity.     

Multigeneration toxicity of imidacloprid and thiacloprid to <Emphasis Type="Italic">Folsomia candida</Emphasis>

In a recent study, we showed that the springtail Folsomia candida was quite sensitive the neonicotinoid insecticides imidacloprid and thiacloprid. This study aimed at determining the toxicity of both compounds to F. candida following exposure over three generations, in natural LUFA 2.2 standard soil. In the first generation, imidacloprid was more toxic than thiacloprid, with LC₅₀s of 0.44 and 9.0?mg/kg dry soil, respectively and EC₅₀s of 0.29 and 1.5?mg/kg dry soil, respectively. The higher LC₅₀/EC₅₀ ratio suggests that thiacloprid has more effects on reproduction, while imidacloprid shows lethal toxicity to the springtails. In the multigeneration tests, using soil spiked at the start of the first generation exposures, imidacloprid had a consistent effect on survival and reproduction in all three generations, with LC₅₀s and EC₅₀s of 0.21–0.44 and 0.12–0.29?mg/kg dry soil, respectively, while thiacloprid-exposed animals showed clear recovery in the second and third generations (LC₅₀ and EC₅₀?>?3.33?mg/kg dry soil). The latter finding is in agreement with the persistence of imidacloprid and the fast degradation of thiacloprid in the test soil.     

Anti-rheumatic activity of Ananas comosus fruit peel extract in a complete Freund’s adjuvant rat model

Context: Rheumatoid arthritis is a chronic, autoimmune and systemic inflammatory disease, which targets synovial joints leading to joint destruction mediated in part by migration of inflammatory cells into the synovial tissue.

Objective: The present study evaluates the anti-rheumatic effect of a methanol extract of Ananas comosus (L.) Merr. (Bromeliaceae) peel in rats.

Materials and methods: Anti-rheumatic activity of crude extract of peels of A. comosus in complete Freund’s induced arthritis model in rats was studied at doses of 50, 100, 250 and 500?mg/kg b.w. for 21 days. Parameters such as paw size, levels of superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), C-reactive proteins (CRP) and prostaglandins (PGE₂) were analysed.

Results: Oral administration of the extract significantly reduced the swelling in the paw of rats (EC₅₀ 65.1?±?2.95?mg/kg b.w.) with a maximal inhibition of 77.01?±?10.53% on 21st day at 500?mg/kg b.w. The extract also significantly reduced the levels of SOD, CAT and GPx in liver (EC₅₀ 26.84?±?16.37, 68.37?±?19.22, 106.54?±?34.81?mg/kg b.w., respectively), kidney (EC₅₀ 261.75?±?81.5, 176.38?±?8.08, 14.32?±?6.64, mg/kg b.w., respectively) and spleen (EC₅₀ 152.14?±?39.57, 83.97?±?14.6, 47.1?±?10.45?mg/kg b.w., respectively); and CRP (EC₅₀ 36.37?±?12.4?mg/kg b.w.) and PGE₂ (EC₅₀ 191.06?±?71.54?mg/kg b.w.) in tissue homogenate and serum, respectively, at 500?mg/kg b.w. as compared to arthritic control group.

Discussion and conclusion: These results suggest that A. comosus fruit peel extract exerts anti-rheumatic activity.     

Vasorelaxant properties of Vernonia amygdalina ethanol extract and its possible mechanism

Context: Vernonia amygdalina Del. (VA) (Asteraceae) is commonly used to treat hypertension in Malaysia.

Objective: This study investigates the vasorelaxant mechanism of VA ethanol extract (VAE) and analyzes its tri-step FTIR spectroscopy fingerprint.

Materials and methods: Dried VA leaves were extracted with ethanol through maceration and concentrated using rotary evaporator before freeze-dried. The vasorelaxant activity and the underlying mechanisms of VAE using the cumulative concentration (0.01–2.55?mg/mL at 20-min intervals) were evaluated on aortic rings isolated from Sprague Dawley rats in the presence of antagonists.

Results: The tri-step FTIR spectroscopy showed that VAE contains alkaloids, flavonoids, and saponins. VAE caused the relaxation of pre-contracted aortic rings in the presence and absence of endothelium with EC₅₀ of 0.057?±?0.006 and 0.430?±?0.196?mg/mL, respectively. In the presence of Nω-nitro-l-arginine methyl ester (EC₅₀ 0.971?±?0.459?mg/mL), methylene blue (EC₅₀ 1.203?±?0.426?mg/mL), indomethacin (EC₅₀ 2.128?±?1.218?mg/mL), atropine (EC₅₀ 0.470?±?0.325?mg/mL), and propranolol (EC₅₀ 0.314?±?0.032?mg/mL), relaxation stimulated by VAE was significantly reduced. VAE acted on potassium channels, with its vasorelaxation effects significantly reduced by tetraethylammonium, 4-aminopyridine, barium chloride, and glibenclamide (EC₅₀ 0.548?±?0.184, 0.158?±?0.012, 0.847?±?0.342, and 0.304?±?0.075?mg/mL, respectively). VAE was also found to be active in reducing Ca²⁺ released from the sarcoplasmic reticulum and blocking calcium channels.

Conclusions: The vasorelaxation effect of VAE involves upregulation of NO/cGMP and PGI₂ signalling pathways, and modulation of calcium/potassium channels, and muscarinic and β₂-adrenergic receptor levels.     

Uptake and elimination kinetics of silver nanoparticles and silver nitrate by Raphidocelis subcapitata: The influence of silver behaviour in solution

Abstract

Raphidocelis subcapitata is a freshwater algae species that constitutes the basis of many aquatic trophic chains. In this study, R. subcapitata was used as a model species to investigate the kinetics of uptake and elimination of silver nanoparticles (AgNP) in comparison to silver nitrate (AgNO₃) with particular focus on the Ag sized-fractions in solution. AgNP used in this study were provided in a suspension of 1?mg Ag/l, with an initial size of 3–8?nm and coated with an alkane material. Algae was exposed for 48?h to both AgNP and AgNO₃ and sampled at different time points to determine their internal Ag concentration over time. Samples were collected and separated into different sized fractions: total (Ag_tot), water column Ag (Ag_water), small particulate Ag (Ag_small.part.) and dissolved Ag (Ag_dis). At AgNO₃ exposures algae reached higher bioconcentration factor (BCF) and lower elimination rate constants than at AgNP exposures, meaning that Ag is more readily taken up by algae in its dissolved form than in its small particulate form, however slowly eliminated. When modelling the kinetics based on the Ag_dis fraction, a higher BCF was found. This supports our hypothesis that Ag would be internalised by algae only in its dissolved form. In addition, algae images obtained by Coherent Anti-stokes Raman Scattering (CARS) microscopy demonstrated large aggregates of nanoparticles external to the algae cells with no evidence of its internalisation, thus providing a strong suggestion that these AgNP were not able to penetrate the cells and Ag accumulation happens through the uptake of Ag ions.     

Cardiovascular effects elicited by milonine, a new 8,14-dihydromorphinandienone alkaloid

Abstract: The mechanisms underlying the cardiovascular responses evoked by milonine (i.v.), an alkaloid, were investigated in rats. In normotensive rats, milonine injections produced hypotension and tachycardia, which were attenuated after N^w‐nitro‐l ‐arginine methyl esther (l ‐NAME; 20 mg/kg, i.v.). In phenylephrine (10 μM), pre‐contracted mesenteric artery rings, milonine (10^?10 M to 3 × 10^?4 M) caused a concentration‐dependent relaxation (EC₅₀ = 1.1 × 10^?6 M, E_max = 100 ± 0.0%) and this effect was rightward shifted after either removal of the vascular endothelium (EC₅₀ = 1.6 × 10^?5, p < 0.001), or after l ‐NAME 100 μM (EC₅₀ = 6.2 × 10^?5, p < 0.001), hydroxocobalamin 30 μM (EC₅₀ = 1.1 × 10^?4, p < 0.001) or ODQ 10 μM (EC₅₀ = 1.9 × 10^?4p < 0.001). In addition, in rabbit aortic endothelial cells, milonine increased NO₃^? levels. The relaxant effect induced by milonine was attenuated in the presence of KCl (20 mM), a modulator efflux K⁺ (EC₅₀ = 1.2 × 10^?5, p < 0.001), or different potassium channel blockers such as glibenclamide (10 μM) (EC₅₀ = 6.3 × 10^?5, p < 0.001), TEA (1 mM) (EC₅₀ = 2.3 × 10^?5 M, n = 6) or Charybdotoxin (0.2 μM) plus apamin (0.2 μM) (EC₅₀ = 3.9 × 10^?4 M, n = 7). In addition, pre‐contraction with high extracellular potassium concentration prevented milonine‐induced vasorelaxation (EC₅₀ = 1.0 × 10^?4, p < 0.001). Milonine also reduced CaCl₂‐induced contraction in Ca²⁺‐free solution containing KCl (60 mM). In conclusion, using combined functional and biochemical approaches, we demonstrated that the hypotensive and vasorelaxant effects produced by milonine are, at least in part, mediated by the endothelium, likely via nitric oxide release, activation of nitric oxide‐cGMP pathway and opening of K⁺ channels.     

Aquatic toxicology of cypermethrin. I. Acute toxicity to some freshwater fish and invertebrates in laboratory tests

Cypermethrin is a synthetic pyrethroid. Its acute toxicity to ten freshwater invertebrates (Daphnia magna, Asellus aquaticus, Gammarus pulex, Cloeon dipterum, Gyrinus natator, Chironomus thummi, Aedes aegypti Cheoborus crystallinus, Corixa punctata, and Piona carnea) was determined in the laboratory using 24-h static water tests. The 24-h EC₅₀ values (based on reduced motility) ranged from 0.02 μg·l^?1for A. aquaticus and P. carnea to 2 μg·l^?1 for D. magna, and for seven of the species the EC₅₀ values were < 0.1 fig μg·l^?1 The 24-h LC₅₀values for G. natator, C. thummi, and C. punctata were > 5 μg·l^?1 For the seven more susceptible species the 24-h LC₅₀values ranged from 2 μg·l^?1 to 0.05 μg·l^?1The acute toxicity of cypermethrin to some species of fish (Cyprinus carpio. Scardinius erythrophthalmus, Salmo gairdneri, Salmo trutta and Tilapia nilotica) was determined using 96-h continuous-flow tests. The 96-h LC₅₀ values obtained were within the range 0.4–2.2 μg·l^?1.The solubility of cypermethrin within the range of test temperatures (15–25°C was estimated to be in the range 5–10 μg·l^?1.     

Toxicity of hydroxylated polychlorinated biphenyls (HO-PCBs) using the bioluminescent assay Microtox<Superscript>®</Superscript>

Hydroxylated polychlorinated biphenyls (HO-PCBs) are toxic contaminants which are produced in the environment by biological or abiotic oxidation of PCBs. The toxicity of a suite of 23 mono-hydroxylated derivatives of PCBs and 12 parent PCBs was determined using the bacterial bioluminescent assay Microtox^®. All HO-PCBs tested exhibited higher toxicity than the corresponding parent PCB, with effect concentration 50 % (EC₅₀) ranging from 0.07 to 133 mg L^?1. The highest toxicities were recorded with 4-hydroxylated derivatives of di-chlorinated biphenyls (EC₅₀ = 0.07–0.36 mg L^?1) and 2-hydroxylated derivatives of tri-chlorinated biphenyls carrying a chlorine substituent on the phenolic ring (EC₅₀ = 0.34–0.48 mg L^?1). The toxicity of HO-PCBs generally decreased when the degree of chlorination increased. Consistently with this observation, a significant positive correlation was measured between toxicity (measured by EC₅₀) and octanol–water partition coefficient (pK _ow) for the HO-PCBs under study (Pearson’s correlation coefficient, r = 0.74), which may be explained by the lower solubility and bioavailability generally associated with higher hydrophobicity. This study is the first one which assessed the toxicity of a suite of PCBs and HO-PCBs using the bioluminescent assay Microtox^®, showing an inverse correlation between toxicity and hydrophobicity.     

Differentiation of the toxicities of silver nanoparticles and silver ions to the Japanese medaka (Oryzias latipes) and the cladoceran Daphnia magna

Abstract

Silver nanoparticles (AgNPs) are increasingly used in various fields. However, little is known about the environmental effects of widespread use of products containing AgNPs. The objective of this study was to determine the ecotoxicity caused by AgNPs. The 48-h effective concentration 50 (EC₅₀) values for Daphnia magna of suspensions of 60 nm and 300 nm AgNPs were 1.0 (95% confidence interval [CI] = 0.1–1.3) and 1.4 (95% CI = 0.3–2.1) μg Ag/l, respectively. The 96 h LC₅₀ values for Oryzias latipes of 60 nm and 300 nm AgNP suspensions were 28 (95% CI = 23–34) and 67 (95% CI = 45–108) μg Ag/l, respectively. To show that toxicity is caused only by Ag⁺ and not by AgNPs, Ag⁺ was adsorbed onto the synthesized sorbents packed in a column and D. magna was exposed to the column-passed-300 nm AgNP suspensions. There was no acute toxicity with the AgNP suspensions not containing Ag⁺.