Hennie Gertsen scite author profile

Plastic debris is widespread in the environment, but information on the effects of microplastics on terrestrial fauna is completely lacking. Here, we studied the survival and fitness of the earthworm Lumbricus terrestris (Oligochaeta, Lumbricidae) exposed to microplastics (Polyethylene, <150 μm) in litter at concentrations of 7, 28, 45, and 60% dry weight, percentages that, after bioturbation, translate to 0.2 to 1.2% in bulk soil. Mortality after 60 days was higher at 28, 45, and 60% of microplastics in the litter than at 7% w/w and in the control (0%). Growth rate was significantly reduced at 28, 45, and 60% w/w microplastics, compared to the 7% and control treatments. Due to the digestion of ingested organic matter, microplastic was concentrated in cast, especially at the lowest dose (i.e., 7% in litter) because that dose had the highest proportion of digestible organic matter. Whereas 50 percent of the microplastics had a size of <50 μm in the original litter, 90 percent of the microplastics in the casts was <50 μm in all treatments, which suggests size-selective egestion by the earthworms. These concentration-transport and size-selection mechanisms may have important implications for fate and risk of microplastic in terrestrial ecosystems.

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Incorporation of microplastics from litter into burrows of Lumbricus terrestris

Lwanga

Gertsen

Gooren

et al. 2017

Environmental Pollution

573

164

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A simple method for the extraction and identification of light density microplastics from soil

Zhang

Yang

Gertsen

et al. 2018

Science of The Total Environment

400

141

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This article introduces a simple and cost-saving method developed to extract, distinguish and quantify light density microplastics of polyethylene (PE) and polypropylene (PP) in soil. A floatation method using distilled water was used to extract the light density microplastics from soil samples. Microplastics and impurities were identified using a heating method (3-5s at 130°C). The number and size of particles were determined using a camera (Leica DFC 425) connected to a microscope (Leica wild M3C, Type S, simple light, 6.4×). Quantification of the microplastics was conducted using a developed model. Results showed that the floatation method was effective in extracting microplastics from soils, with recovery rates of approximately 90%. After being exposed to heat, the microplastics in the soil samples melted and were transformed into circular transparent particles while other impurities, such as organic matter and silicates were not changed by the heat. Regression analysis of microplastics weight and particle volume (a calculation based on image J software analysis) after heating showed the best fit (y=1.14x+0.46, R=99%, p<0.001). Recovery rates based on the empirical model method were >80%. Results from field samples collected from North-western China prove that our method of repetitive floatation and heating can be used to extract, distinguish and quantify light density polyethylene microplastics in soils. Microplastics mass can be evaluated using the empirical model.

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Predicting soil microplastic concentration using vis-NIR spectroscopy

Corradini

Bartholomeus

Lwanga

et al. 2019

Science of The Total Environment

177

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Biogenic transport of glyphosate in the presence of LDPE microplastics: A mesocosm experiment

Yang

Lwanga

Bemani

et al. 2019

Environmental Pollution

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Hennie Gertsen

Microplastics in the Terrestrial Ecosystem: Implications forLumbricus terrestris(Oligochaeta, Lumbricidae)

Incorporation of microplastics from litter into burrows of Lumbricus terrestris

A simple method for the extraction and identification of light density microplastics from soil

Predicting soil microplastic concentration using vis-NIR spectroscopy

Biogenic transport of glyphosate in the presence of LDPE microplastics: A mesocosm experiment

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