Gert Everaert scite author profile

We performed an environmental risk assessment for microplastics (<5 mm) in the marine environment by estimating the order of magnitude of the past, present and future concentrations based on global plastic production data. In 2100, from 9.6 to 48.8 particles m are predicted to float around in the ocean, which is a 50-fold increase compared to the present-day concentrations. From a meta-analysis with effect data available in literature, we derived a safe concentration of 6650 buoyant particles m below which adverse effects are not likely to occur. Our risk assessment (excluding the potential role of microplastics as chemical vectors) suggests that on average, no direct effects of free-floating microplastics in the marine environment are to be expected up to the year 2100. Yet, even today, the safe concentration can be exceeded in sites that are heavily polluted with buoyant microplastics. In the marine benthic compartment between 32 and 144 particles kg dry sediment are predicted to be present in the beach deposition zone. Despite the scarcity of effect data, we expect adverse ecological effects along the coast as of the second half of the 21st century. From then ambient concentrations will start to outrange the safe concentration of sedimented microplastics (i.e. 540 particles kg sediment). Additional ecotoxicological research in which marine species are chronically exposed to realistic environmental microplastic concentration series are urgently needed to verify our findings.

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Meta-analysis of multidecadal biodiversity trends in Europe

Pilotto

et al. 2020

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Local biodiversity trends over time are likely to be decoupled from global trends, as local processes may compensate or counteract global change. We analyze 161 long-term biological time series (15-91 years) collected across Europe, using a comprehensive dataset comprising 6,200 marine, freshwater and terrestrial taxa. We test whether (i) local long-term biodiversity trends are consistent among biogeoregions, realms and taxonomic groups, and (ii) changes in biodiversity correlate with regional climate and local conditions. Our results reveal that local trends of abundance, richness and diversity differ among biogeoregions, realms and taxonomic groups, demonstrating that biodiversity changes at local scale are often complex and cannot be easily generalized. However, we find increases in richness and abundance with increasing temperature and naturalness as well as a clear spatial pattern in changes in community composition (i.e. temporal taxonomic turnover) in most biogeoregions of Northern and Eastern Europe.

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Risks of floating microplastic in the global ocean

Everaert

Rijcke

Lonneville

et al. 2020

Environmental Pollution

166

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Ecological water quality analysis of the Guayas river basin (Ecuador) based on macroinvertebrates indices

et al. 2016

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Bayesian belief network models to analyse and predict ecological water quality in rivers

Forio

Landuyt

Bennetsen

et al. 2015

Ecological Modelling

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Gert Everaert

Risk assessment of microplastics in the ocean: Modelling approach and first conclusions

Meta-analysis of multidecadal biodiversity trends in Europe

Risks of floating microplastic in the global ocean

Ecological water quality analysis of the Guayas river basin (Ecuador) based on macroinvertebrates indices

Bayesian belief network models to analyse and predict ecological water quality in rivers

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