Your search keyword '"van Bodegom PM"' showing total 8 results

1. Particle number-based trophic transfer of gold nanomaterials in an aquatic food chain.

Author

Abdolahpur Monikh F, Chupani L, Arenas-Lago D, Guo Z, Zhang P, Darbha GK, Valsami-Jones E, Lynch I, Vijver MG, van Bodegom PM, and Peijnenburg WJGM

Subjects

Animals, Bioaccumulation, Biotransformation, Daphnia metabolism, Fishes metabolism, Gold chemistry, Microalgae metabolism, Particle Size, Species Specificity, Tissue Distribution, Water Pollutants, Chemical chemistry, Food Chain, Gold metabolism, Nanostructures chemistry, Water Pollutants, Chemical metabolism

Abstract

Analytical limitations considerably hinder our understanding of the impacts of the physicochemical properties of nanomaterials (NMs) on their biological fate in organisms. Here, using a fit-for-purpose analytical workflow, including dosing and emerging analytical techniques, NMs present in organisms are characterized and quantified across an aquatic food chain. The size and shape of gold (Au)-NMs are shown to control the number of Au-NMs attached to algae that were exposed to an equal initial concentration of 2.9 × 10 11 particles mL -1 . The Au-NMs undergo size/shape-dependent dissolution and agglomeration in the gut of the daphnids, which determines the size distribution of the NMs accumulated in fish. The biodistribution of NMs in fish tissues (intestine, liver, gills, and brain) also depends on NM size and shape, although the highest particle numbers per unit of mass are almost always present in the fish brain. The findings emphasize the importance of physicochemical properties of metallic NMs in their biotransformations and tropic transfers.

Published

2021

2. Accumulation of polybrominated diphenyl ethers and microbiome response in the great pond snail Lymnaea stagnalis with exposure to nylon (polyamide) microplastics.

Author

Horton AA, Newbold LK, Palacio-Cortés AM, Spurgeon DJ, Pereira MG, Carter H, Gweon HS, Vijver MG, van Bodegom PM, Navarro da Silva MA, and Lahive E

Subjects

Animals, Body Burden, Environmental Exposure analysis, Flame Retardants analysis, Flame Retardants metabolism, Flame Retardants toxicity, Halogenated Diphenyl Ethers analysis, Halogenated Diphenyl Ethers toxicity, Lymnaea metabolism, Lymnaea microbiology, Nylons toxicity, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity, Halogenated Diphenyl Ethers metabolism, Lymnaea drug effects, Microbiota drug effects, Microplastics toxicity, Water Pollutants, Chemical metabolism

Abstract

Microplastics attract widespread attention, including for their potential to transport toxic chemicals in the form of plasticisers and associated hydrophobic organic chemicals, such as polybrominated diphenyl ethers (PBDEs). The aims of this study were to investigate how nylon (polyamide) microplastics may affect PBDE accumulation in snails, and the acute effects of nylon particles and PBDEs on survival, weight change and inherent microbiome diversity and community composition of the pond snail Lymnaea stagnalis. Snails were exposed for 96 h to BDEs-47, 99, 100 and 153 in the presence and absence of 1% w/w nylon microplastics in quartz sand sediment. No mortality was observed over the exposure period. Snails not exposed to microplastics lost significantly more weight compared to those exposed to microplastics. Increasing PBDE concentration in the sediment resulted in an increased PBDE body burden in the snails, however microplastics did not significantly influence total PBDE uptake. Based on individual congeners, uptake of BDE 47 by snails was significantly reduced in the presence of microplastics. The diversity and composition of the snail microbiome was not significantly altered by the presence of PBDEs nor by the microplastics, singly or combined. Significant effects on a few individual operational taxonomic units (OTUs) occurred when comparing the highest PBDE concentration with the control treatment, but in the absence of microplastics only. Overall within these acute experiments, only subtle effects on weight loss and slight microbiome alterations occurred. These results therefore highlight that L. stagnalis are resilient to acute exposures to microplastics and PBDEs, and that microplastics are unlikely to influence HOC accumulation or the microbiome of this species over short timescales., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

3. Neonicotinoids and fertilizers jointly structure naturally assembled freshwater macroinvertebrate communities.

Author

Barmentlo SH, Schrama M, van Bodegom PM, de Snoo GR, Musters CJM, and Vijver MG

Subjects

Animals, Biodiversity, Fresh Water, Aquatic Organisms physiology, Ecosystem, Environmental Monitoring, Fertilizers analysis, Insecticides analysis, Invertebrates physiology, Neonicotinoids analysis, Water Pollutants, Chemical analysis

Abstract

Although it is widely acknowledged that a decline of freshwater biodiversity jeopardizes the functioning of freshwater ecosystems, the large number of (human-induced) pressures jointly acting on these systems hampers managing its biodiversity. To disentangle the magnitude and the temporal effects of these single and interacting pressures, experiments are required that study how these pressures affect the structuring of natural communities. We performed experiments with naturally assembled invertebrate communities in 36 experimental ditches to assess the single and joint effects of environmentally relevant concentrations of two commonly co-occurring stressors: fertilizer inputs and neonicotinoid insecticides, in this case thiacloprid. Specifically, we explored whether these agrochemicals result in sustained changes in community structure by inspecting divergence, convergence and short- /long-lived dissimilarity of communities, when compared to a control treatment. Our results indicate strong impacts on the abundance of different taxa by exposure to the agrochemicals. However, we found no effect of any treatment on total abundance, taxon richness or convergence/divergence (measured as beta dispersion) of the communities. Moreover, we found contrasting responses when both joint stressors were present: when considering abundance of different taxa, we observed that fertilizer additions reduced some of the thiacloprid toxicity. But when assessing the community structure, we found that exposure to both stressors consistently resulted in a more dissimilar community compared to the control. This dissimilarity was persistent up to four months after applying the agrochemicals, even though there was a turnover in taxa explaining this dissimilarity. This turnover indicates that the persistent dissimilarity can potentially be attributed to a rippling effect in the community rather than continued toxicity. Such shifts in natural freshwater invertebrate communities, months after the actual exposure, suggests that stressors may have important long-term repercussions for which may subsequently lead to changes in ecosystem functioning., (Copyright © 2019. Published by Elsevier B.V.)

Published

2019

4. Acute toxicity of organic pesticides to Daphnia magna is unchanged by co-exposure to polystyrene microplastics.

Author

Horton AA, Vijver MG, Lahive E, Spurgeon DJ, Svendsen C, Heutink R, van Bodegom PM, and Baas J

Subjects

Animals, Aquatic Organisms, Dimethoate toxicity, Nitriles toxicity, Pyrethrins toxicity, Toxicity Tests, Acute, Daphnia drug effects, Pesticides toxicity, Plastics toxicity, Polystyrenes toxicity, Water Pollutants, Chemical toxicity

Abstract

Daphnia magna were exposed to two pesticides in the presence or absence of microplastics (300 000 particles ml -1 1 µm polystyrene spheres) and to microplastics alone. The pesticides were dimethoate, an organophosphate insecticide with a low log Kow, and deltamethrin, a pyrethroid insecticide with a high log Kow. Daphnia were exposed to a nominal concentration range of 0.15, 0.31, 0.63, 1.25, 2.5, 5 mg l -1 dimethoate and 0.016, 0.08, 0.4, 2, 5 and 10 µg l -1 deltamethrin. Exposure to polystyrene microplastics alone showed no effects on Daphnia magna survival and mobility over a 72 h exposure. In the dimethoate exposures, mobility and survival were both affected from a concentration of 1.25 mg l -1 , with effects were seen on mobility from 28 h and survival from 48 h, with greater effects seen with increasing concentration and exposure time. In deltamethrin exposures, survival was affected from a concentration of 0.4 µg l -1 and mobility from a concentration of 0.08 µg l -1 . Effects of deltamethrin on mobility were seen from 5 h and on survival from 28 h, with greater effects on survival and mobility seen with increasing concentration and exposure time. Contrary to expectations, pesticide toxicity to Daphnia magna was not affected by the presence of microplastics, regardless of chemical binding affinity (log Kow). This therefore suggests that polystyrene microplastics are unlikely to act as a significant sink, nor as a vector for increased uptake of pesticides by aquatic organisms. CAPSULE: Polystyrene microplastics are unlikely to act as vector for increased uptake of pesticides by aquatic organisms., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

5. The influence of exposure and physiology on microplastic ingestion by the freshwater fish Rutilus rutilus (roach) in the River Thames, UK.

Author

Horton AA, Jürgens MD, Lahive E, van Bodegom PM, and Vijver MG

Subjects

Animals, Eating, Fresh Water, Plastics toxicity, Polypropylenes analysis, Rivers, United Kingdom, Water Pollutants, Chemical toxicity, Cyprinidae physiology, Environmental Monitoring, Plastics analysis, Water Pollutants, Chemical analysis

Abstract

Microplastics are widespread throughout aquatic environments. However, there is currently insufficient understanding of the factors influencing ingestion of microplastics by organisms, especially higher predators such as fish. In this study we link ingestion of microplastics by the roach Rutilus rutilus, within the non-tidal part of the River Thames, to exposure and physiological factors. Microplastics were found within the gut contents of roach from six out of seven sampling sites. Of sampled fish, 33% contained at least one microplastic particle. The majority of particles were fibres (75%), with fragments and films also seen (22.7% and 2.3% respectively). Polymers identified were polyethylene, polypropylene and polyester, in addition to a synthetic dye. The maximum number of ingested microplastic particles for individual fish was strongly correlated to exposure (based on distance from the source of the river). Additionally, at a given exposure, the size of fish correlated with the actual quantity of microplastics in the gut. Larger (mainly female) fish were more likely to ingest the maximum possible number of particles than smaller (mainly male) fish. This study is the first to show microplastic ingestion within freshwater fish in the UK and provides valuable new evidence of the factors influencing ingestion that can be used to inform future studies on exposure and hazard of microplastics to fish., (Copyright © 2018 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2018

6. Postregistration monitoring of pesticides is urgently required to protect ecosystems.

Author

Vijver MG, Hunting ER, Nederstigt TA, Tamis WL, van den Brink PJ, and van Bodegom PM

Subjects

Environmental Policy, Risk Assessment methods, Ecosystem, Environmental Monitoring methods, Pesticides analysis, Water Pollutants, Chemical analysis

Abstract

Current admission policies for pesticides follow a controlled experimental tiered risk assessment approach, giving results that are difficult to extrapolate to a real-world situation. Later analyses of compounds such as DDT and neonicotinoid pesticides clearly show that the actual chemical impacts frequently affect many more components of an ecosystem than a priori suggested by risk assessment. Therefore, to manage the actual risks for ecosystems imposed by manufactured compounds, it is proposed that current admission policies for chemicals be enriched by using postregistration monitoring. Such monitoring is essential to identify unexpected direct and indirect impacts on organisms by accounting for multiple propagation routes and exposures. Implementation of postregistration monitoring could build on existing monitoring networks. This approach would tackle the current policy impasse of compartment-based regulations versus exposure-based regulations, and, more importantly, would provide a safety lock for risk assessment across compartments and more likely ensure the protection of our natural environment. Environ Toxicol Chem 2017;36:860-865. © 2017 SETAC., (© 2017 SETAC.)

Published

2017

7. Trace elements and carbon and nitrogen stable isotopes in organisms from a tropical coastal lagoon.

Author

Pereira AA, van Hattum B, de Boer J, van Bodegom PM, Rezende CE, and Salomons W

Subjects

Animals, Carbon Isotopes analysis, Crustacea metabolism, Fishes metabolism, Geologic Sediments chemistry, Hemiptera metabolism, Invertebrates metabolism, Nitrogen Isotopes analysis, Risk Assessment, Seafood statistics & numerical data, Seawater chemistry, Snails metabolism, Trace Elements analysis, Water Pollutants, Chemical analysis, Water Pollution, Chemical statistics & numerical data, Carbon Isotopes metabolism, Environmental Monitoring, Nitrogen Isotopes metabolism, Trace Elements metabolism, Water Pollutants, Chemical metabolism

Abstract

Trace elements (Fe, Mn, Al, Zn, Cr, Cu, Ni, Pb, Cd, Hg, and As) and stable isotope ratios (delta(13)C and delta(15)N) were analyzed in sediments, invertebrates, and fishes from a tropical coastal lagoon influenced by iron ore mining and processing activities to assess the differences in trace element accumulation patterns among species and to investigate relations with trophic levels of the organisms involved. Overall significant negative relations between trophic level (given by (15)N) and trace element concentrations in gastropods and crustaceans showed differences in internal controls of trace element accumulation among the species of different trophic positions, leading to trace element dilution. Generally, no significant relation between delta(15)N and trace element concentrations was observed among fish species, probably due to omnivory in a number of species as well as fast growth. Trace element accumulation was observed in the fish tissues, with higher levels of most trace elements found in liver compared with muscle and gill. Levels of Fe, Mn, Al, and Hg in invertebrates, and Fe and Cu in fish livers, were comparable with levels in organisms and tissues from other contaminated areas. Trace element levels in fish muscle were below the international safety baseline standards for human consumption.

Published

2010

8. Biomonitoring of estrogenic exposure and identification of responsible compounds in bream from Dutch surface waters.

Author

Houtman CJ, Booij P, van der Valk KM, van Bodegom PM, van den Ende F, Gerritsen AA, Lamoree MH, Legler J, and Brouwer A

Subjects

Animals, Chromatography, High Pressure Liquid, Dichlorophen analogs & derivatives, Dichlorophen analysis, Dichlorophen metabolism, Dichlorophen toxicity, Dioxins analysis, Dioxins metabolism, Dioxins toxicity, Disinfectants analysis, Disinfectants metabolism, Disinfectants toxicity, Estradiol analysis, Estradiol metabolism, Estradiol toxicity, Estrogens analysis, Estrogens toxicity, Estrone analysis, Estrone metabolism, Estrone toxicity, Gastrointestinal Tract chemistry, Gastrointestinal Tract metabolism, Luciferases genetics, Luciferases metabolism, Triclosan analysis, Triclosan metabolism, Triclosan toxicity, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity, Biological Assay, Environmental Monitoring, Estrogens metabolism, Sea Bream metabolism, Water Pollutants, Chemical metabolism

Abstract

The exposure to and effects of estrogenic compounds in male breams from Dutch freshwater locations were investigated. Ovotestis was observed infrequently (maximum frequency 16%). However, plasma vitellogenin (VTG) concentration was elevated highly at some locations. Estrogenic activities in male bream plasma, liver, and in gastrointestinal content were measured in the estrogen-responsive chemical-activated luciferase gene expression (ER-CALUX) assay. Plasma concentrations of vitellogenin correlated very well with the estrogenic activities in gastrointestinal content. The ER-CALUX activity in gastrointestinal content thus could provide a biomarker for recent exposure to estrogenic compounds, and the gastrointestinal content was chosen as investigative matrix for the toxicity identification and evaluation ([TIE]; bioassay-directed fractionation) of estrogenic compounds in bream. The approach consisted of a reversed-phase high-performance liquid chromatography fractionation of gastrointestinal content extract, directed by ER-CALUX and followed by gas chromatography analysis. The estrogenic hormones 17beta-estradiol and its metabolite estrone were identified as major contributors to the activity at all locations (except the reference location), independent of the presence or absence of a known source of estrogenic activity, such as a sewage treatment plant. Chemical screening showed the presence of other pollutants, such as a lower chlorinated dioxin and the disinfectants clorophene and triclosan. However, these compounds did not have high estrogenic potencies and their concentrations were not high enough to contribute significantly to the observed estrogenic activity.

Published

2007