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Original research — experimental, observational, or case-control study. Direct primary evidence.
Environmental Sources
Human Health Effects
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Shape, size, and polymer dependent effects of microplastics on Daphnia magna
Journal of Hazardous Materials2021
166 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 60
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Chengzhang Xu,
Chengzhang Xu,
Chengzhang Xu,
Chengzhang Xu,
Julian Brehm,
Julian Brehm,
Julian Brehm,
Michael Schwarzer,
Michael Schwarzer,
Julian Brehm,
Christian Laforsch
Julian Brehm,
Christian Laforsch
Julian Brehm,
Michael Schwarzer,
Christian Laforsch
Julian Brehm,
Julian Brehm,
Christian Laforsch
Julia Jasinski,
Michael Schwarzer,
Christian Laforsch
Thomas Scheibel,
Michael Schwarzer,
Julian Brehm,
Julian Brehm,
Julian Brehm,
Michael Schwarzer,
Michael Schwarzer,
Julian Brehm,
Michael Schwarzer,
Michael Schwarzer,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Andreas Greiner,
Andreas Greiner,
M. Schott,
M. Schott,
M. Schott,
M. Schott,
M. Schott,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Martina Vollmer,
Thomas Scheibel,
Thomas Scheibel,
Martina Vollmer,
Julian Brehm,
Julian Brehm,
Julian Brehm,
Julian Brehm,
Christian Laforsch
Christian Laforsch
Michael Schwarzer,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Julian Brehm,
Julian Brehm,
Christian Laforsch
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Julia Jasinski,
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Julian Brehm,
Christian Laforsch
Christian Laforsch
Thomas Fröhlich,
Chengzhang Xu,
Chengzhang Xu,
Thomas Fröhlich,
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Andreas Greiner,
Christian Laforsch
M. Schott,
Christian Laforsch
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Thomas Scheibel,
Christian Laforsch
Thomas Scheibel,
Thomas Scheibel,
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Thomas Fröhlich,
Shakir Zainuddin,
Christian Laforsch
Shakir Zainuddin,
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Thomas Scheibel,
Andreas Greiner,
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Andreas Greiner,
Julian Brehm,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Thomas Scheibel,
Andreas Greiner,
Thomas Scheibel,
Thomas Scheibel,
Thomas Scheibel,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Thomas Fröhlich,
Julian Brehm,
Christian Laforsch
Julian Brehm,
Julian Brehm,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Christian Laforsch
M. Schott,
Andreas Greiner,
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Christian Laforsch
M. Schott,
Christian Laforsch
Andreas Greiner,
M. Schott,
M. Schott,
M. Schott,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
M. Schott,
M. Schott,
M. Schott,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
M. Schott,
Christian Laforsch
M. Schott,
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Thomas Scheibel,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Andreas Greiner,
Andreas Greiner,
Andreas Greiner,
Andreas Greiner,
Thomas Fröhlich,
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Christian Laforsch
Julian Brehm,
Julian Brehm,
Christian Laforsch
Christian Laforsch
M. Schott,
Michael Schwarzer,
Christian Laforsch
Summary
Researchers systematically tested how the shape, size, and material of microplastic particles affect the water flea Daphnia magna by comparing polystyrene particles to non-plastic control particles with similar properties. They found that small polystyrene beads and fragments caused harmful effects on reproduction and body shape, while none of the non-plastic control particles caused any damage. The study suggests that the toxic effects are specific to the plastic polymer itself, not simply a result of ingesting small particles.
The effects of microplastic (MP) pollution on organisms are gaining increasing attention. To date, a variety of polymers of different shapes and sizes are used in ecotoxicology. Although polystyrene (PS) is the predominant polymer type used in effect studies, it is still unclear whether the observed effects derive from the polymer itself or from a certain particle shape and size. To elucidate whether the effects are polymer specific, we conducted a systematic study on Daphnia magna by comparing various PS-MPs to nonplastic control particles with similar properties. In chronic exposure experiments, we used PS beads (6 µm; 20 µm), fibers (Ø 3 µm, length: 75.5 µm), and fragments (5.7 µm; 17.7 µm) in two different size classes and two different concentrations (500 and 5000 particles ml<sup>-1</sup>) and in-house-produced control particles of comparable size, shape, concentration and, if possible, density. Although most PS properties did not elicit effects on the tested endpoints, we observed sublethal effects on D. magna life history and morphology for small PS beads and fragments. Interestingly, no adverse effects were detected for any of the control particles. Hence, the observed effects are polymer-specific, related to the size and shape of the polymer, and do not result from particle exposure per se.