Microplastics in seawater: sampling strategies, laboratory methodologies, and identification techniques applied to port environment

Cutroneo, Laura; Reboa, Anna; Besio, Giovanni; Borgogno, Franco; Canesi, Laura; Canuto, Susanna; Dara, Manuela; Enrile, Francesco; Forioso, Iskender; Greco, Giuseppe; Lenoble, Véronique; Malatesta, Arianna; Mounier, Stéphane; Petrillo, Mario; Rovetta, Ruben; Stocchino, Alessandro; Tesan, Javier; Vagge, Greta; Capello, Marco

doi:10.1007/s11356-020-07783-8

Cited by 110 publications

(49 citation statements)

References 74 publications

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“…Based on the relatively low concentrations of MPs in the environment, their sampling on the water surface generally requires water filtration or collection of large sample volumes employing mostly neuston, plankton, and manta nets ( Figure 2) of different mesh sizes, considered as volumereduced or nondiscrete sampling devices in which the volume of water is reduced until only the particles of interest for further processing in a laboratory remain [34]. MPs' small sizes demand sampling devices that allow the collection of a large volume of water in order to reduce the spatial and temporal variations adequately [15].…”

Section: Water Surface Samplingmentioning

confidence: 99%

“…Alternatively, discrete sampling devices (Niskin bottles, rosettes, integrating water sampler (IWS), buckets, bottles, and steel samplers; KC Denmark A/S Research equipment, Silkeborg, Denmark) can be used to collect bulk samples [34]. In bulk sampling, a known and recorded volume of the sample is collected without reducing it.…”

Section: Water Surface Samplingmentioning

confidence: 99%

“…Moreover, this type of sampling is rapid and can help to reduce any risk of contamination, given that the time of handling of the sample and the time of exposition of it to the surrounding environment are shortened. However, disadvantages consist of a limited amount of samples that can be collected, stored, and processed [34].…”

Section: Water Surface Samplingmentioning

confidence: 99%

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A Practical Overview of Methodologies for Sampling and Analysis of Microplastics in Riverine Environments

et al. 2020

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Microplastics have recently been stated as being remarkable contaminants of all environmental matrices. The lack of consistent and standardised methods and protocols used to evaluate and quantify microplastics present in riverine systems made a comparison among different studies a critical issue. Based on literature research and the practical expertise of the authors, this work presents a complete collection and analysis of procedures concerning the monitoring of microplastics in riverine environments, focusing on their sampling and analytical protocols to identify, quantify, and characterise them. Further details regarding the advantages and disadvantages of each analytical technique described, such as general recommendations and suggestions, are provided to give practical support for analytical procedures. In particular, microplastics studies consist firstly of their sampling from the aquatic compartment (aqueous and solid phase). Based on the goal of the research, specific devices can be used to collect particles from different matrices. It follows their quantification after extraction from the environmental matrix, adopting different protocols to isolate microplastics from a large amount of organic matter present in a riverine system. In the end, additional qualitative analyses (e.g., RAMAN and FTIR spectroscopy, GC-MS) are required to identify the chemical composition of particles for a better image regarding the abundance of polymer types, their origin, or other information related to manufacturing processes.

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Section: Water Surface Samplingmentioning

confidence: 99%

Section: Water Surface Samplingmentioning

confidence: 99%

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A Practical Overview of Methodologies for Sampling and Analysis of Microplastics in Riverine Environments

et al. 2020

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“…2019; Cutroneo et al . 2020; Li et al . 2020b), and the content of the MPs reaches 43 000 particles per km 2 in more than 95% of detected sites in five Great Lakes in the United States (Eriksen et al .…”

Section: The Microplastics In the Aquaculture Systemsmentioning

confidence: 99%

Microplastics and their potential effects on the aquaculture systems: a critical review

Zhou

Zhang

Xie

et al. 2020

Reviews in Aquaculture

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According to the statistics, 8.3 billion metric tonnes of plastics have been produced since 1950s, which is far more than other synthetic materials and the annual production which are about 500 million tonnes per year at present. The production of plastics makes microplastics pollution extremely widespread distribution, which will have a lasting impact on the global environment, especially on the aquaculture systems. And the distribution of the microplastics is extremely imbalanced around the global waters. In the present review, we have summarized the development of aquaculture in the World and China based on the existing data sources. And the total aquaculture production of the World will over 90 million tonnes, which will exceed the capture production in 2020. Aquaculture products will become one of the most important sources of high-quality protein. However, we found that many kinds of microplastics are detected and enriched in both farmed and captured species. Both endogenous and exogenous factors like the use of fishing plastic products, factory farming facility and equipment, natural and synthetic feed, animal health products, aquaculture fortifier and aquatic food additives make accumulation of microplastics easier. In addition, the safety of aquaculture products is closely related to human health because the residues of microplastics in fish leading to various potential hazards. In summary, this paper reviewed the relationship between microplastics and aquaculture, aimed at calling for the rational and restricted use of plastic products in the aquaculture ecosystems.

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“…A recently proposed size schema separates microplastics in marine environments into the following categories: nano (1-1000 nm)-, micro (1-1000 μm)-, meso (1-10 mm)-, and macroplastics (≥1 cm). Size schemes are proposed to address the sampling problems encountered in the field, but these schemes are lacking since it is difficult to provide a microplastic sample that is spatially representative of a specific environmental space [26][27][28][29].…”

Section: Definitionmentioning

confidence: 99%

The Importance of Biofilms to the Fate and Effects of Microplastics

Glaser¹

2020

Bacterial Biofilms

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Microplastics are global pollutants in water media ranging from drinking water to freshwater streams to oceanic pollutant gyres. Besides the obvious appearance involving a scattered presence in the environmental landscape, microplastics are ubiquitous across modern society in products, food, and beginning to have strong economic effects too. Ingestion of microplastics is virtually unavoidable for each of us as we consume food, breathe air, or drink liquids. For example, beer has been found to be contaminated with plastic materials having the dimensions of microand nanoparticles. In the environment, the formation of biofilms on microplastics is widely observed and this can significantly alter properties important to environmental and human health. Significant research has been conducted on the role of biofilms in the fate and effect of microplastics on environmental and human health, with a general message to avoid contact with microplastics in the environment until more complete strategies for cleanup are developed.

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Microplastics in seawater: sampling strategies, laboratory methodologies, and identification techniques applied to port environment

Cited by 110 publications

References 74 publications

A Practical Overview of Methodologies for Sampling and Analysis of Microplastics in Riverine Environments

A Practical Overview of Methodologies for Sampling and Analysis of Microplastics in Riverine Environments

Microplastics and their potential effects on the aquaculture systems: a critical review

The Importance of Biofilms to the Fate and Effects of Microplastics

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