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Investigation on the effect of several parameters involved in the biodegradation of polyethylene (PE) and low-density polyethylene (LDPE) under various seawater environments

The Science of The Total Environment 2023 16 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Sarra N. Dimassi, Sarra N. Dimassi, Sarra N. Dimassi, Sarra N. Dimassi, Sarra N. Dimassi, John Ν. Hahladakis, John Ν. Hahladakis, Sarra N. Dimassi, Sami Sayadi Sami Sayadi John Ν. Hahladakis, John Ν. Hahladakis, John Ν. Hahladakis, John Ν. Hahladakis, John Ν. Hahladakis, John Ν. Hahladakis, Mohamed Chamkha, Mohammad A. Al‐Ghouti, Mohammad I. Ahmad, Sarra N. Dimassi, Mohamed Chamkha, Mohamed Chamkha, Sarra N. Dimassi, Mohamed Chamkha, Mohammad I. Ahmad, Mohammad I. Ahmad, Mohammad I. Ahmad, Mohammad A. Al‐Ghouti, Mohammad A. Al‐Ghouti, Mohammad A. Al‐Ghouti, Sami Sayadi Sami Sayadi Sami Sayadi Mohammad A. Al‐Ghouti, Mohammad A. Al‐Ghouti, Mohammad A. Al‐Ghouti, Mohammad A. Al‐Ghouti, Sami Sayadi Sami Sayadi Sami Sayadi

Summary

Researchers studied how polyethylene and low-density polyethylene break down in seawater under different conditions, including varying light, temperature, salinity, and microbial activity. They found that light exposure was the strongest driver of both physical degradation and the leaching of harmful chemical additives from the plastics. The study highlights that as plastic debris breaks apart in the ocean, it continuously releases potentially toxic chemicals into the surrounding water.

Polymers

LDPE PE

Study Type Environmental

This work investigates the biodegradation of polyethylene (PE) and low-density polyethylene (LDPE) and the leaching of their harmful additives. Micro/macro-plastics of both types were subjected to different laboratory-controlled conditions for 3 months. Gas Chromatography-Mass Spectroscopy (GC-MS) results revealed that leachate concentrations ranged from 0.40 ± 0.07 μg/L to 96.36 ± 0.11 μg/L. It was concluded that the additives' leaching process was promoted by light. However, light was not the only factor examined; microorganisms, pH, salinity, aeration/mixing and temperature influenced the biodegradation process, too. GC-MS results showed a prodigious impact on the biodegradation process when Pseudomonas aeruginosa was added to the artificial seawater compared to plastics exposed to light/air only. Scanning Electron Microscopy (SEM) micrographs demonstrated a significant alteration in the plastics' morphologies. Similarly, Fourier-Transform Infrared Spectroscopy (FTIR) spectra showed obvious changes in plastics characteristic peaks, especially microplastics. Furthermore, it was shown that PE was more susceptible to degradation/biodegradation than LDPE. Inductively Coupled Plasma-Optical Emission Spectroscopy (ICP-OES) findings showed that some toxic metals were present in water samples after experiments, with concentrations above the permissible limits. For instance, bio-augmentation/bio-stimulation experiments showed that the concentrations of Pb, Sr, and Zn were 0.59 mg/L, 70.09 mg/L, and 0.17 mg/L, respectively; values above the permissible limits. It is crucial to emphasise that plastics must be meticulously engineered to avoid environmental and human impacts, originated from their degradation by-products. Furthermore, a holistic approach engaging stakeholders, researchers, policymakers, industries and consumers, is essential to effectively tackle the global challenge of marine plastic pollution.

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