Hendrik Fueser scite author profile

As documented by the numerous publications that have appeared in recent years, plastic pollution of the environment and the effects on the respective ecosystems are currently one of the most intensely discussed issues in environmental science and in society at large. Of special concern are the effects of micro-and nano-sized plastics. A key issue in understanding the fate and potential effects of micro-and nano-sized plastics is their dynamic nature, as the size, shape, and charge of the particles change over time. Moreover, due to various biological processes, such as the aggregation of organic material and/or bacteria ("biofouling"), the density of plastic particles that settle in the sediments of aquatic ecosystems may be several orders of magnitudes higher than that in the surrounding waters. Consequently, the risk posed by plastic pollution to benthic fauna is considerably high. Nonetheless, the vast majority of studies examining the effects of microplastics have focused on pelagic organisms so far. We therefore conducted a comprehensive literature review to examine the impact of micro-and nano-sized plastics on benthic invertebrates, including the physical and chemical effects of leaching and the interactions of plastic particles with contaminants. Overall, 330 papers were reviewed for their fulfillment of different criteria (e.g., test species, plastic material, particle shape, particle size, exposure concentration, exposure route, assay type, assay duration), with 49 publications finally included in our survey. A comprehensive gap-analysis on the effects of plastic particles on benthic invertebrates revealed a wide variety of effects triggered by micro-and/or nano-sized plastics but also distinct differences regarding the plastic materials tested, the size fractions applied, the shape of the respective particles, and the exposure routes tested. Our review concludes with a discussion of the important research gaps concerning freshwater ecosystems and recommendations for future areas of research.

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Surface-Related Toxicity of Polystyrene Beads to Nematodes and the Role of Food Availability

Mueller

Fueser

Trac

et al. 2020

Environ. Sci. Technol.

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Microplastics released into freshwaters from anthropogenic sources settle in the sediments, where they may pose an environmental threat to benthic organisms. However, few studies have considered the ecotoxicological hazard of microplastic particles for nematodes, one of the most abundant taxa of the benthic meiofauna. This study investigated the toxic effects of polystyrene (PS) beads (0.1−10.0 μm) and the underlying mechanisms thereof on the reproduction of the nematode Caenorhabditis elegans. The observed effect of the PS beads on the nematodes correlated well with the total surface area of the beads per volume, with a 50% inhibition of reproduction at 55.4 ± 12.9 cm 2 /mL, independent of the bead size. The adverse effects were not explained by styrene monomers leaching from the beads because chemical activities of styrene in PS suspensions were well below the toxic levels. However, the observed effects could be related to the bead material because the same-sized silica (SiO 2 ) beads had considerably less impact, probably due to their higher specific density. PS and SiO 2 beads affected the food availability of C. elegans, with greater effects by the PS beads. Our results demonstrate the importance of including indirect food web effects in studies of the ecological risks posed by microplastics.

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Ingestion of microplastics by nematodes depends on feeding strategy and buccal cavity size

Fueser

Mueller

Weiss

et al. 2019

Environmental Pollution

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Effects of a broad range of experimental temperatures on the population growth and body-size of five species of free-living nematodes

Majdi

Traunspurger

Fueser

et al. 2019

Journal of Thermal Biology

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Species-specific effects of long-term microplastic exposure on the population growth of nematodes, with a focus on microplastic ingestion

Mueller

Fueser

Höss

et al. 2020

Ecological Indicators

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Hendrik Fueser

Impacts of Micro- and Nano-Sized Plastic Particles on Benthic Invertebrates: A Literature Review and Gap Analysis

Surface-Related Toxicity of Polystyrene Beads to Nematodes and the Role of Food Availability

Ingestion of microplastics by nematodes depends on feeding strategy and buccal cavity size

Effects of a broad range of experimental temperatures on the population growth and body-size of five species of free-living nematodes

Species-specific effects of long-term microplastic exposure on the population growth of nematodes, with a focus on microplastic ingestion

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