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

Binda, Gilberto; Zanetti, Giorgio; Bellasi, Arianna; Spanu, Davide; Boldrocchi, Ginevra; Bettinetti, Roberta; Pozzi, Andrea; Nizzetto, Luca

doi:10.1007/s11356-022-22599-4

Cited by 31 publications

(5 citation statements)

References 89 publications

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“…The changes in chemical species during combustion can be inferred from a previous study that pointed out the aging and degradation of polymers as a cause of promoting interaction with metals on the surface of microplastics (Binda et al, 2022). Such degradation of polymers results in an increase in oxidized functional groups and surface charge, as well as in surface area and reactive sites.…”

Section: Xrf Analysis Resultsmentioning

confidence: 98%

Are Particulate Pollutants Emitted by Open-Burning of Agricultural Plastic Waste (Greenhouse LDPE Film) Harmful?

Kim

Lee

2022

J. People Plants Environ

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Background and objective: Agricultural plastic waste (APW), which includes various types of plastics and greenhouse film, accounts for the largest volume of annual average incineration of plastic (Korea Environment Corporation, 2021). Open-burning incineration of such APW emits metallic particulate pollutants, the human hazard of which is widely known. As such, the systematic management of incinerable APW is required. Furthermore, basic physicochemical research on particulate pollutants (PPs) is needed for related policy decision-making.Methods: The U.S. EPA particulate test method (Method 5G) was applied to set up the experimental infrastructure for an open-air incineration simulation. Scanning electron microscopes with SEM-EDS and XRF were used for a chemical species analysis of the generated particulate matter (PM). Low-density polyethylene (LDPE), used as a greenhouse material and collected by the Dangjin plastic collection office of the Korea Environment Corporation, was used as samples and subjected to incineration test three times.Results: Chemical speciation by an XRF analysis showed that the major chemical components of LDPE before incineration, listed in order of their content, were Fe (26.87%, SD = 20.67) > Si (25.91%, SD = 11.29) > Al (16.43%, SD = 7.23), which was changed to Si (44.51%, SD = 0.25) > Zn (16.53%, SD = 0.03) > Ba (15.73%, SD = 0.05) after incineration. An SEM-EDS analysis found the PM emitted as rock-like shapes and cotton-like shapes. Regarding the weight ratio, the rock-shaped particles contained less C (8.94 wt%, SD = 1.90) and more Al (11.77 wt%, SD = 3.08) and Fe (9.58 wt%, SD = 7.14), whereas the cotton-shaped particles contained more C (29.44 wt%, SD = 3.97), less Al (2.34 wt%, SD = 0.19), and an untraceable amount of Fe (ND).Conclusion: This study found that PPs emitted through the incineration of APW such as LDPE can be classified into rock-like shapes and cotton-like shapes, which is related to the difference in weight ratio of non-metals (C), transition metals (Fe), and other metals (Al) in unit particulate matter.

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Section: Xrf Analysis Resultsmentioning

confidence: 98%

Are Particulate Pollutants Emitted by Open-Burning of Agricultural Plastic Waste (Greenhouse LDPE Film) Harmful?

Kim

Lee

2022

J. People Plants Environ

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“…The carbonyl index was determined by the ratio of the C O peak at 1715 cm −1 to the C–H stretching peak at 1465 cm −1 . Similarly, the hydroxyl index was computed as the ratio of the maximum absorbance in the range of 3600 cm −1 to 3100 cm −1 for O–H stretching to the absorbance of the C–H stretching at 1472 cm −1 [ 36 ]. The index value calculation was performed from three independent FTIR spectra and the standard deviation of each index value was included.…”

Section: Methodsmentioning

confidence: 99%

Fungal enzyme degradation of lignin-PLA composites: Insights from experiments and molecular docking simulations

Esakkimuthu,

Ponnuchamy,

Mikuljan

et al. 2024

Heliyon

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“…The majority of MP fibers in the aquatic environment are a result of abrasion and shear during domestic washing [23,56]. In addition, photo-degradation causes plastic particles to be brittle, leading to mechanical breakdown into micro and nanoplastics [58,59]. Photo-degradation is considered the most important process that initiates the degradation of plastic debris [60].…”

Section: Physicochemical Degradationmentioning

confidence: 99%

The Occurrence and Fate of Microplastics in Wastewater Treatment Plants in South Africa and the Degradation of Microplastics in Aquatic Environments—A Critical Review

Malematja,

Melato,

Mokgalaka-Fleischmann

2023

Sustainability

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The occurrence of microplastics (MPs) and their omnipresence have attracted enormous attention across the globe; however, research on MPs in South Africa is still in its infancy and thus, the data are still very much lacking. Approximately 120 million tons of general waste is generated each year in South Africa, which exacerbates the pressure on the ability of municipalities to manage waste. Wastewater treatment plants (WWTPs) are at the center of this general waste that includes plastic debris and primary MPs that are discharged from households and industries. In general, the removal efficiency of MPs across the globe was found to be between 70% and 99%, with biological treatment technology common in both primary and secondary treatment steps in WWTPs. Furthermore, the current review paper has revealed that there is a wide research gap on the occurrence and fate of MPs in WWTPs across South Africa. This is a worrying factor considering the increasing rate of plastic waste generation due to rapid industrialization, urbanization, and overpopulation in the country. More so, the scarcity of data regarding the occurrence of MPs in freshwater is widely noticeable across the country. Therefore, given the amounts of MPs discharged from households, industries, and plastic debris littered into the surface waters, the data on the occurrence and fate of MPs in South Africa should be given the urgent attention they deserve. To achieve the effective and sustainable management of water resources and services set out in the National Development Plan (NDP) 2030 adopted by the government, the status and capabilities of WWTPs to remove MPs must be monitored and addressed. In addition to achieving the zero waste to landfill goal by 2030, a circular economy is regarded as the most effective model for solving the plastic waste crisis in the environment; therefore, its full implementation is required for a substantial impact.

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

Cited by 31 publications

References 89 publications

Are Particulate Pollutants Emitted by Open-Burning of Agricultural Plastic Waste (Greenhouse LDPE Film) Harmful?

Are Particulate Pollutants Emitted by Open-Burning of Agricultural Plastic Waste (Greenhouse LDPE Film) Harmful?

Fungal enzyme degradation of lignin-PLA composites: Insights from experiments and molecular docking simulations

The Occurrence and Fate of Microplastics in Wastewater Treatment Plants in South Africa and the Degradation of Microplastics in Aquatic Environments—A Critical Review

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