Impact of polyethylene microbeads on the floating freshwater plant duckweed

Author: Kalčíková Gabriela, Andreja Žgajnar Gotvajn, Aleš Kladnik, Anita Jemec Kokalj
Year of Publication: 2017
Published: Environmental pollution, 2017, vol. 230, str. 1108-1115

Abstract:
Microplastics (MP), small plastic particles below 5 mm, have become one of the central concerns of environmental risk assessment. Microplastics are continuously being released into the aquatic environment either directly through consumer products or indirectly through fragmentation of larger plastic materials. The aim of our study was to investigate the effect of polyethylene microbeads from cosmetic products on duckweed (Lemna minor), a freshwater floating plant. The effects of microbeads from two exfoliating products on the specific leaf growth rate, the chlorophyll a and b content in the leaves, root number, root length and root cell viability were assessed. At the same time, water leachates from microbeads were also prepared to exclude the contribution of cosmetic ingredients on the measured impacts. Specific leaf growth rate and content of photosynthetic pigments in duckweed leaves were not affected by polyethylene microbeads, but these microbeads significantly affected the root growth by mechanical blocking. Sharp particles also reduced the viability of root cells, while the impact of microbeads with a smooth surface was neglected. It was concluded that microbeads from cosmetic products can also have negative impacts on floating plants in freshwater ecosystems.

Keywords: Cosmetics, Floating plants, Microbeads, Microplastics

Citation:
Kalčíková Gabriela, Andreja Žgajnar Gotvajn, Aleš Kladnik, Anita Jemec Kokalj (2017): Impact of polyethylene microbeads on the floating freshwater plant duckweed Lemna minor. Environmental pollution, vol. 230, str. 1108-1115

Kalčikova_2017_ MPs_duckweed

Wastewater treatment plant effluents as source of cosmetic polyethylene microbeads to freshwater

Author: Kalčíková Gabriela, Branko Alič, Tina Skalar, Mirco Bundschuh, Andreja Žgajnar Gotvajn
Year of Publication: 2017
Published: Chemosphere, Volume: 188, Page: 25-31

Abstract:
Microplastics in the environment are either a product of the fractionation of larger plastic items or a consequence of the release of microbeads, which are ingredients of cosmetics, through wastewater treatment plant (WWTP) effluents. The aim of this study was to estimate the amount of microbeads that may be released by the latter pathways to surface waters using Ljubljana, Slovenia as a case study. For this purpose, microbeads contained in cosmetics were in a first step characterized for their physical properties and particle size distribution. Subsequently, daily emission of microbeads from consumers to the sewerage system, their fate in biological WWTPs and finally their release into surface waters were estimated for Ljubljana. Most of the particles found in cosmetic products were <100 μm. After application, microbeads are released into sewerage system at an average rate of 15.2 mg per person per day. Experiments using a lab-scale sequencing batch biological WWTP confirmed that on average 52% of microbeads are captured in activated sludge. Particle size analyses of the influent and effluent confirmed that smaller particles (up to 60–70 μm) are captured within activated sludge while bigger particles were detected in the effluent. Applying these data to the situation in Ljubljana indicates that about 112,500,000 particles may daily be released into the receiving river, resulting in a microbeads concentration of 21 particles/m3. Since polyethylene particles cannot be degraded and thus likely accumulate, the data raise concerns about potential effects in aquatic ecosystems in future.

Keywords:
Cosmetics, Freshwater, Microplastics, Polyethylene microbead

Citation:
Kalčíková Gabriela, Branko Alič, Tina Skalar, Mirco Bundschuh, Andreja Žgajnar Gotvajn (2017): Wastewater treatment plant effluents as source of cosmetic polyethylene microbeads to freshwater. Chemosphere, vol. 188, str. 25-31

https://www.sciencedirect.com/science/article/pii/S0045653517313541

Kalčikova_2017_microbeads