Microbial biofilm composition and polymer degradation of compostable and non-compostable plastics immersed in the marine environment

Delacuvellerie, Alice; Benali, Samira; Cyriaque, Valentine; Moins, Sébastien; Raquez, Jean‐Marie; Gobert, Sylvie; Wattiez, Ruddy

doi:10.1016/j.jhazmat.2021.126526

Cited by 65 publications

(30 citation statements)

References 51 publications

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“…However, similarly to previous biofouling experiments performed in the field (Delacuvellerie et al 2021), the changes in surface properties are observed to be not homogeneous across the particle surface in the different samples. This is observable, for example, by the appearance of the sharp peak of glycosidic bond in only half of the samples (Fig.…”

Section: Chemical and Biological Ageing: Comparison Of The Effects On...supporting

confidence: 73%

“…Our multi-tiered laboratory test confirms this hypothesis, showing that plastic surface physicochemical properties are strongly affected by biofouling. Since the colonization of plastic surfaces by different microorganisms has been reported for litter and microplastics collected in a variety of aquatic systems (Nava and Leoni 2021;Delacuvellerie et al 2021;Deng et al 2021;, this process needs further investigation in future studies, in order to more realistically mimic the environmental behavior of (micro) plastics.…”

Section: Toward a Better Understanding Of Environmental Plastic Ageingmentioning

confidence: 99%

“…Studies of plastic ageing in environmental settings showed that biofilm's structural and functional features are controlled by the environmental conditions and substrate types (Delacuvellerie et al 2021;Barros and Seena 2021; Fig. 7 Score plot of principal components 1 and 2 (explained variance is indicated in parenthesis).…”

Section: Toward a Better Understanding Of Environmental Plastic Ageingmentioning

confidence: 99%

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Physicochemical and biological ageing processes of (micro)plastics in the environment: a multi-tiered study on polyethylene

Binda

Zanetti

Bellasi

et al. 2022

Environ Sci Pollut Res

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Pollution by plastic and microplastic impacts the environment globally. Knowledge on the ageing mechanisms of plastics in natural settings is needed to understand their environmental fate and their reactivity in the ecosystems. Accordingly, the study of ageing processes is gaining focus in the context of the environmental sciences. However, laboratory-based experimental research has typically assessed individual ageing processes, limiting environmental applicability. In this study, we propose a multi-tiered approach to study the environmental ageing of polyethylene plastic fragments focusing on the combined assessment of physical and biological processes in sequence. The ageing protocol included ultraviolet irradiation in air and in a range of water solutions, followed by a biofouling test. Changes in surface characteristics were assessed by Fourier transform infrared spectroscopy, scanning electron microscopy, and water contact angle. UV radiation both in air and water caused a significant increase in the density of oxidized groups (i.e., hydroxyl and carbonyl) on the plastic surface, whereby water solution chemistry influenced the process both by modulating surface oxidation and morphology. Biofouling, too, was a strong determinant of surface alterations, regardless of the prior irradiation treatments. All biofouled samples present (i) specific infrared bands of new surface functional groups (e.g., amides and polysaccharides), (ii) a further increase in hydroxyl and carbonyl groups, (iii) the diffuse presence of algal biofilm on the plastic surface, and (iv) a significant decrease in surface hydrophobicity. This suggests that biological-driven alterations are not affected by the level of physicochemical ageing and may represent, in real settings, the main driver of alteration of both weathered and pristine plastics. This work highlights the potentially pivotal role of biofouling as the main process of plastic ageing, providing useful technical insights for future experimental works. These results also confirm that a multi-tiered laboratory approach permits a realistic simulation of plastic environmental ageing in controlled conditions.

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Section: Chemical and Biological Ageing: Comparison Of The Effects On...supporting

confidence: 73%

Section: Toward a Better Understanding Of Environmental Plastic Ageingmentioning

confidence: 99%

Section: Toward a Better Understanding Of Environmental Plastic Ageingmentioning

confidence: 99%

See 1 more Smart Citation

Physicochemical and biological ageing processes of (micro)plastics in the environment: a multi-tiered study on polyethylene

Binda

Zanetti

Bellasi

et al. 2022

Environ Sci Pollut Res

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“…Molecular weight reduction, mainly caused by the chain shortening, is a representative indicator for the hydrolysis of BPs, since only in hydrolysis can there be a measurable and significant molecular weight reduction. Due to this, a greater weight loss ratio than molecular weight reduction indicates that surface erosion predominates, such as that for PCL [50,52] and PHA [47] . A contrary situation indicates that bulk erosion is more important than surface erosion at this stage, as happens to PBS, PBAT [52] , and PLA [50] .…”

Section: Biodegradation Process and Description Indicatorsmentioning

confidence: 99%

Biodegradable plastics in the marine environment: a potential source of risk?

Chen¹

2022

Water Emerg Contam Nanoplastics

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The marine environment is facing the threat of increasing plastic pollution, especially from disposable plastics. Presently, governments worldwide are promoting policies to restrict or prohibit conventional plastics. As one hopeful alternative to conventional disposable/non-durable plastics, biodegradable plastics have attracted much attention and controversy in terms of their definition, environmental impact, and environmental significance, as they may be widely used. Therefore, it is necessary to clarify the facts about biodegradable plastics, understand the current knowledge gaps, and identify promising fields of relevant research. This review briefly introduces some common biodegradable plastics, their mechanisms of biodegradation, indicators for the biodegradation process, and factors concerning biodegradability and summarizes studies on the biodegradation of biodegradable plastics in the marine environment. The lifespan of biodegradable plastics varies greatly due to their compositions/properties as well as significant differences in the marine environment. Then, the potential risks of biodegradable plastics, including the release of pollutants (micro/nanoplastics, degradation products, and additives), adsorption-desorption of pollutants (pesticide, etc.), and their impact on biomes and biogeochemical cycles are discussed, fully revealing their possible impacts on the marine environment. It is believed that, in addition to the waste of resources, a high abundance of microplastics, toxic leachates, and complex effects on habitats and the environment may also cause problems for the marine environment as a result of the widespread and inappropriate use of biodegradable plastics. Based on the discussion, some constructive suggestions on how to use biodegradable plastics reasonably and prudently in the future are put forward.

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“…As plastics are designed to last, plastic waste accumulate in the marine environment for long time (Delacuvellerie et al, 2021;Wang et al, 2016). Durign this period, and under the influence of a number of factors such as UV irradiation, oxidants, hydrolysis and mechanical abrasion, large plastic pieces disintegrate into smaller fragments (< 5 mm) (Song et al, 2017) generally J o u r n a l P r e -p r o o f referred to as MPs.…”

Section: Introductionmentioning

confidence: 99%

Effect of land use on microplastic pollution in a major boundary waterway: The Arvand River

Soltani

Keshavarzi

Moore

et al. 2022

Science of The Total Environment

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Microbial biofilm composition and polymer degradation of compostable and non-compostable plastics immersed in the marine environment

Cited by 65 publications

References 51 publications

Physicochemical and biological ageing processes of (micro)plastics in the environment: a multi-tiered study on polyethylene

Physicochemical and biological ageing processes of (micro)plastics in the environment: a multi-tiered study on polyethylene

Biodegradable plastics in the marine environment: a potential source of risk?

Effect of land use on microplastic pollution in a major boundary waterway: The Arvand River

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