Detail publikačního výsledku

A screening of metal(loid) content in conventional and compostable plastic polymers: understanding the sources and the connected environmental implications☆

BINDA, G.; CARNATI, S.; PASSIGNANI, N.; HURLEY, R.; NIZZETTO, L.; SPANU, D.; KALČÍKOVÁ, G.; POZZI, A.

Originální název

A screening of metal(loid) content in conventional and compostable plastic polymers: understanding the sources and the connected environmental implications☆

Anglický název

A screening of metal(loid) content in conventional and compostable plastic polymers: understanding the sources and the connected environmental implications☆

Druh

Článek WoS

Originální abstrakt

Plastic pollution is a well-known environmental issue, yet the ecotoxicological implications are still underexplored. In this context, attention towards the characterization of chemical additives in plastics and their potential risks to both human health and ecosystems is now increasing. While significant research has been conducted on organic chemicals, data on inorganic additives (e.g., metallic compounds) remain limited. In this study, we analyzed the metal(loid) content in different types of plastics to better understand the presence of inorganic additives in these materials, their distribution across different polymer types, and their potential impacts. We investigated pristine plastic pellets, single-use plastic materials and recycled plastic pellets made from both conventional and compostable polymers. We observed a notable enrichment of metal(loid)s (particularly Ti, Al, and Zn) across a range of plastic types, especially when comparing pre-production pellets with final consumer materials, suggesting that these additives are incorporated during the final stages of production. Samples of polyethylene terephthalate displayed elevated levels of Sb, while compostable plastics exhibited specific trends related to Sn and In: they are abundant in the pellets, since they are used as catalyst in polymer production. This study provides a comprehensive comparison of metal additives in different plastic polymers and across different production phases. It highlights the need for characterizing metal(loid) content in plastic to understand the potential connected risks. Additionally, the findings underscore the role of compostable plastics as potential carriers of metal(loid)s to terrestrial and aquatic environments, raising concerns about their degradation and impact.

Anglický abstrakt

Plastic pollution is a well-known environmental issue, yet the ecotoxicological implications are still underexplored. In this context, attention towards the characterization of chemical additives in plastics and their potential risks to both human health and ecosystems is now increasing. While significant research has been conducted on organic chemicals, data on inorganic additives (e.g., metallic compounds) remain limited. In this study, we analyzed the metal(loid) content in different types of plastics to better understand the presence of inorganic additives in these materials, their distribution across different polymer types, and their potential impacts. We investigated pristine plastic pellets, single-use plastic materials and recycled plastic pellets made from both conventional and compostable polymers. We observed a notable enrichment of metal(loid)s (particularly Ti, Al, and Zn) across a range of plastic types, especially when comparing pre-production pellets with final consumer materials, suggesting that these additives are incorporated during the final stages of production. Samples of polyethylene terephthalate displayed elevated levels of Sb, while compostable plastics exhibited specific trends related to Sn and In: they are abundant in the pellets, since they are used as catalyst in polymer production. This study provides a comprehensive comparison of metal additives in different plastic polymers and across different production phases. It highlights the need for characterizing metal(loid) content in plastic to understand the potential connected risks. Additionally, the findings underscore the role of compostable plastics as potential carriers of metal(loid)s to terrestrial and aquatic environments, raising concerns about their degradation and impact.

Klíčová slova

Plastic additives, Pollution, Leaching, Microplastics, Trace elements

Klíčová slova v angličtině

Plastic additives, Pollution, Leaching, Microplastics, Trace elements

Autoři

BINDA, G.; CARNATI, S.; PASSIGNANI, N.; HURLEY, R.; NIZZETTO, L.; SPANU, D.; KALČÍKOVÁ, G.; POZZI, A.

Rok RIV

2026

Vydáno

15.06.2025

Nakladatel

Elsevier

Periodikum

Environmental Pollution

Svazek

375

Číslo

126364

Stát

Spojené království Velké Británie a Severního Irska

Strany počet

10

URL

BibTex

@article{BUT201432,
  author="{} and  {} and  {} and  {} and  {} and  {} and Gabriela {Kalčíková} and  {}",
  title="A screening of metal(loid) content in conventional and compostable plastic polymers: understanding the sources and the connected environmental implications☆",
  journal="Environmental Pollution",
  year="2025",
  volume="375",
  number="126364",
  pages="10",
  doi="10.1016/j.envpol.2025.126364",
  issn="0269-7491",
  url="https://www.webofscience.com/wos/woscc/full-record/WOS:001490027500002"
}