Detail publikačního výsledku

Understanding microplastic retention in surface flow constructed wetlands: The impact of aquatic macrophytes

MILOLOZA, M.; PUTAR, U.; STARIN, M.; NOVAK, J.; KALČÍKOVÁ, G.

Originální název

Understanding microplastic retention in surface flow constructed wetlands: The impact of aquatic macrophytes

Anglický název

Understanding microplastic retention in surface flow constructed wetlands: The impact of aquatic macrophytes

Druh

Článek WoS

Originální abstrakt

Microplastics are increasingly entering both natural and constructed wetlands, but their distribution, retention, and interactions with aquatic macrophytes remain poorly understood. This study investigated the fate and retention of three common types of microplastics - polyethylene microbeads, tire wear particles, and polyacrylonitrile fibers - each introduced at a concentration of 547 particles/L into a laboratory surface flow constructed wetland. The experimental setup included unvegetated and vegetated experiments with four submerged macrophytes of different leaf morphology and a floating macrophyte to evaluate the role of vegetation in microplastic retention and their impact on plant health over 12 days. The results showed that the majority of microplastics are associated with the air-water or sediment-water interfaces after entering the wetland. Fibers and tire wear particles were mainly found in the sediment, regardless of the presence of vegetation. Of the microbeads, 25 % settled in the unvegetated wetland, while 56 % were found in the sediment of the vegetated constructed wetland, suggesting that vegetation promotes the settling of buoyant microplastics. Overall, the constructed wetland exhibited high retention efficiency for all microplastic types, with over 99.9 %, regardless of the vegetation present. Microplastics were observed to attach to macrophytes, and plant morphology was a key factor influencing retention. No significant effects on the electron transport system and only minor, non-particlespecific effects on chlorophyll a content were observed. These results highlighted the effectiveness of constructed wetlands in retaining microplastics and the need for further research on the interactions between plants and microplastics to optimize wetland design for microplastics management.

Anglický abstrakt

Microplastics are increasingly entering both natural and constructed wetlands, but their distribution, retention, and interactions with aquatic macrophytes remain poorly understood. This study investigated the fate and retention of three common types of microplastics - polyethylene microbeads, tire wear particles, and polyacrylonitrile fibers - each introduced at a concentration of 547 particles/L into a laboratory surface flow constructed wetland. The experimental setup included unvegetated and vegetated experiments with four submerged macrophytes of different leaf morphology and a floating macrophyte to evaluate the role of vegetation in microplastic retention and their impact on plant health over 12 days. The results showed that the majority of microplastics are associated with the air-water or sediment-water interfaces after entering the wetland. Fibers and tire wear particles were mainly found in the sediment, regardless of the presence of vegetation. Of the microbeads, 25 % settled in the unvegetated wetland, while 56 % were found in the sediment of the vegetated constructed wetland, suggesting that vegetation promotes the settling of buoyant microplastics. Overall, the constructed wetland exhibited high retention efficiency for all microplastic types, with over 99.9 %, regardless of the vegetation present. Microplastics were observed to attach to macrophytes, and plant morphology was a key factor influencing retention. No significant effects on the electron transport system and only minor, non-particlespecific effects on chlorophyll a content were observed. These results highlighted the effectiveness of constructed wetlands in retaining microplastics and the need for further research on the interactions between plants and microplastics to optimize wetland design for microplastics management.

Klíčová slova

Aquatic plants, Free water wetland, Microbeads, Tire wear microplastics, Textile fibres

Klíčová slova v angličtině

Aquatic plants, Free water wetland, Microbeads, Tire wear microplastics, Textile fibres

Autoři

MILOLOZA, M.; PUTAR, U.; STARIN, M.; NOVAK, J.; KALČÍKOVÁ, G.

Rok RIV

2026

Vydáno

01.04.2025

Nakladatel

Elsevier

Periodikum

Journal of Environmental Chemical Engineering

Svazek

13

Číslo

2

Stát

Spojené království Velké Británie a Severního Irska

Strany počet

9

URL

BibTex

@article{BUT201431,
  author="{} and  {} and  {} and  {} and Gabriela {Kalčíková}",
  title="Understanding microplastic retention in surface flow constructed wetlands: The impact of aquatic macrophytes",
  journal="Journal of Environmental Chemical Engineering",
  year="2025",
  volume="13",
  number="2",
  pages="9",
  doi="10.1016/j.jece.2025.116097",
  issn="2213-2929",
  url="https://www.webofscience.com/wos/woscc/full-record/WOS:001446364900001"
}