Department of Civil, Chemical, Environmental and Materials Engineering (DICAM)-University of Bologna, Italy.
Institute for Ecopreneurship, School of Life Sciences, FHNW, Muttenz, Switzerland.
Mar Pollut Bull. 2024 Dec;209(Pt A):117115. doi: 10.1016/j.marpolbul.2024.117115. Epub 2024 Oct 22.
Polyethylene significantly contributes to marine plastic pollution. This study focuses on isolating bacteria from sea water and microplastic samples collected from the Tyrrhenian Sea and evaluating their ability to degrade virgin plasticizers-free linear low-density polyethylene (LLDPE) films. The isolates grew on the plastic film under aerobic conditions in shaken flasks leading to LLDPE mass losses of up to 2.597 ± 0.971 % after 60 days incubation. Biofilm formation on the film surface was confirmed by adhered protein quantification while film surface erosion and appearance of functional groups were revealed using SEM and FTIR analyses confirming biodegradation capabilities especially for isolates Bacillus velezensis MT9, Vreelandella venusta MT1 and Vreelandellatitanicae MT11. This is the first report on the biodegradation of plasticizers-free non pretreated LLDPE films by marine Bacillus sp. and Vreelandella sp.; most of the LLDPE biodegradation studies have been so far performed on plasticizer containing, pre-treated, or naturally weathered films.
聚乙烯对海洋塑料污染有重大贡献。本研究专注于从收集自第勒尼安海的海水和微塑料样本中分离细菌,并评估其降解原始增塑剂自由线性低密度聚乙烯(LLDPE)薄膜的能力。在有氧条件下,分离菌在摇瓶中于塑料薄膜上生长,导致 LLDPE 在 60 天孵育后质量损失高达 2.597±0.971%。通过附着蛋白定量证实了薄膜表面的生物膜形成,而 SEM 和 FTIR 分析则揭示了薄膜表面侵蚀和功能基团的出现,证实了特别是 Bacillus velezensis MT9、Vreelandella venusta MT1 和 Vreelandellatitanicae MT11 这三种分离菌的生物降解能力。这是首次报道海洋 Bacillus sp. 和 Vreelandella sp. 对原始增塑剂自由、未经预处理的 LLDPE 薄膜的生物降解;迄今为止,大多数 LLDPE 生物降解研究都集中在含有增塑剂、预处理或自然风化的薄膜上。
