Abundance, Distribution, and Drivers of Microplastic Contamination in Urban River Environments

Given the persistence of microplastics in the environment and their potential toxicity to ecosystems, understanding of likely microplastic accumulation ‘hotspots’ in rivers is urgently needed. To contribute to this challenge, this paper reports results of a microplastic survey from a heavily urbanis...

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Bibliographic Details
Published inWater (Basel) Vol. 10; no. 11; p. 1597
Main Authors Tibbetts, Joseph, Krause, Stefan, Lynch, Iseult, Sambrook Smith, Gregory
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 07.11.2018
Subjects
Abundance
Contamination
deposition
Ecological effects
Effluents
Environmental engineering
Floodplains
Flow velocity
freshwater
Freshwater ecology
Freshwater environments
Lakes
Microplastics
Plastic pollution
Pollutants
Population density
Public health
Rivers
Rural areas
Sediment samplers
Sediments
Toxicity
transport
Tributaries
Urban areas
Wastewater treatment
United Kingdom > UK
River Tame
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Summary:Given the persistence of microplastics in the environment and their potential toxicity to ecosystems, understanding of likely microplastic accumulation ‘hotspots’ in rivers is urgently needed. To contribute to this challenge, this paper reports results of a microplastic survey from a heavily urbanised catchment, the River Tame and four of its tributaries, which flows through the city of Birmingham, UK. All sediment sampled was found to contain microplastics with an average abundance of 165 particles kg−1. While urban areas generally have a greater abundance of microplastics as compared with rural, there is no simple relationship between microplastic numbers and population density or proximity to wastewater treatment sites. The greatest change in microplastic abundance was due to the presence of a lake along the course of the River Tame—i.e., flow velocities are reduced on entering the lake, which promotes the deposition of fine sediment and potentially microplastics. This suggests that the greatest concentrations of microplastics will not be found in-channel but rather on the floodplain and other low velocity environments such as meander cutoffs. We also identified a new mechanism of microplastic fixation in freshwater environments through ecological engineers, specifically caddisflies, that incorporated microplastics into their casing. These results highlight the need to explore further hydrodynamic and ecological impacts on microplastics fate and transport in rivers.
ISSN:2073-4441
2073-4441
DOI:10.3390/w10111597