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Semi-automated analysis of microplastics in complex wastewater samples
Environmental Pollution2020
163 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Hollie Ball,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Jes Vollertsen,
Alice A. Horton,
Alice A. Horton,
Hollie Ball,
Alice A. Horton,
Richard K. Cross,
Richard K. Cross,
Andrew C. Johnson,
Andrew C. Johnson,
Alice A. Horton,
Richard K. Cross,
Alice A. Horton,
Alice A. Horton,
Richard K. Cross,
Alice A. Horton,
Monika D. Jürgens,
Alice A. Horton,
Alice A. Horton,
Hollie Ball,
Alice A. Horton,
Hollie Ball,
Alice A. Horton,
Alice A. Horton,
Richard K. Cross,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Alice A. Horton,
Claus Svendsen
Richard K. Cross,
Richard K. Cross,
Richard K. Cross,
Claus Svendsen
Hollie Ball,
Jes Vollertsen,
Jes Vollertsen,
Monika D. Jürgens,
Jes Vollertsen,
Monika D. Jürgens,
Monika D. Jürgens,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Richard K. Cross,
Claus Svendsen
Richard K. Cross,
Hollie Ball,
Hollie Ball,
Daniel S. Read,
Alice A. Horton,
Alice A. Horton,
Jes Vollertsen,
Claus Svendsen
Jes Vollertsen,
Claus Svendsen
Alice A. Horton,
Richard K. Cross,
Jes Vollertsen,
Alice A. Horton,
Hollie Ball,
Hollie Ball,
Hollie Ball,
Jes Vollertsen,
Jes Vollertsen,
Monika D. Jürgens,
Monika D. Jürgens,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Andrew C. Johnson,
Alice A. Horton,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Alice A. Horton,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Alice A. Horton,
Alice A. Horton,
Daniel S. Read,
Hollie Ball,
Jes Vollertsen,
Richard K. Cross,
Richard K. Cross,
Claus Svendsen
Claus Svendsen
Claus Svendsen
Claus Svendsen
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Monika D. Jürgens,
Hollie Ball,
Alice A. Horton,
Alice A. Horton,
Daniel S. Read,
Daniel S. Read,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Claus Svendsen
Daniel S. Read,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Jes Vollertsen,
Andrew C. Johnson,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Andrew C. Johnson,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Richard K. Cross,
Claus Svendsen
Jes Vollertsen,
Jes Vollertsen,
Daniel S. Read,
Daniel S. Read,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Alice A. Horton,
Alice A. Horton,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Andrew C. Johnson,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Daniel S. Read,
Daniel S. Read,
Claus Svendsen
Claus Svendsen
Jes Vollertsen,
Alice A. Horton,
Claus Svendsen
Jes Vollertsen,
Claus Svendsen
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Claus Svendsen
Summary
A semi-automated method was developed for analyzing microplastics in complex wastewater samples, incorporating stringent quality control measures for accurate reporting. The method improved throughput and reliability compared to fully manual approaches, supporting better characterization of microplastic inputs and outputs from wastewater treatment works.
In order to assess risks to the natural environment from microplastics, it is necessary to have reliable information on all potential inputs and discharges. This relies on stringent quality control measures to ensure accurate reporting. Here we focus on wastewater treatment works (WwTWs) and the complex sample matrices these provide. Composite samples of both influent and effluent were collected over a 24 h period on two separate occasions from eight different WwTWs across the UK. Sludge samples were taken on five occasions from five WwTWs. The WwTW treatments included activated sludge, trickling filter and biological aerated flooded filter with or without tertiary treatment. Using micro-FTIR analysis, microplastics ≥25 μm were identified and quantified. Procedural blanks were used to derive limits of detection (LOD) and limits of quantification (LOQ). Where values were above the LOQ, microplastics in the influent ranged from 955 to 17,214 microplastic particles/L and in the effluent from 2 to 54 microplastic particles/L, giving an average removal rate of 99.8%. Microplastics could be quantified in sludge at concentrations of 301-10,380 microplastics/g dry weight, this analytical method therefore revealing higher concentrations than reported in previous studies. The most common polymers present overall were polyethylene (PE), polypropylene (PP) and polyethylene terephthalate (PET). We also report on critical considerations for blank corrections and quality control measures to ensure reliable microplastic analysis across different sample types.