Biodegradation of oxidized high-density polyethylene and oxo-degradable plastic using microalgae Dunaliella salina

IF 3.6 4区 环境科学与生态学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Environmental Pollutants and Bioavailability Pub Date : 2022-09-30 DOI:10.1080/26395940.2022.2128884
Hadiyanto Hadiyanto, A. Khoironi, I. Dianratri, K. Huda, S. Suherman, F. Muhammad
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引用次数: 5

Abstract

ABSTRACT This research aimed to evaluate the effectiveness of microalgae Dunaliella salina in the biodegradation process of oxidized oxium and HDPE plastics. Microalgae and microplastic interactions were evaluated in two 1 L glass bioreactors containing D. salina with oxium microplastics and oxidized HDPE at various concentrations (100 mg/500 mL, 200 mg/500 mL, and 300 mg/500 mL) for 15 d. The results showed a more significant decrease in alkene functional groups in oxium plastics than in HDPE. In addition, there was a change in the oxium functional group with the formation of carbonyl, ether, and primary alcohol. The growth rate of D. salina decreased significantly after interaction with oxidized HDPE microplastics compared to oxium interaction. We established that oxium plastics have a faster biodegradation ability owing to the addition of additives to the plastic. However, oxidation pre-treatment with H2O2 on HDPE plastic can also accelerate the plastic degradation process.
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利用盐藻降解氧化高密度聚乙烯和氧降解塑料
摘要本研究旨在评价微藻Dunaliella salina在氧化氧和HDPE塑料生物降解过程中的有效性。在两个1 L含盐藻的玻璃生物反应器中,研究了微藻与微塑料和氧化HDPE在不同浓度(100 mg/500 mL、200 mg/500 mL和300 mg/500 mL)下的相互作用。结果表明,氧化塑料中烯烃官能团的减少比HDPE更显著。此外,氧官能团随着羰基、醚和伯醇的形成而发生变化。与氧化HDPE微塑料相互作用相比,氧化HDPE微塑料与盐藻的生长速率明显降低。我们确定,由于在塑料中添加了添加剂,氧塑料具有更快的生物降解能力。然而,用H2O2对HDPE塑料进行氧化预处理也会加速塑料的降解过程。
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来源期刊
Environmental Pollutants and Bioavailability
Environmental Pollutants and Bioavailability Chemical Engineering-Chemical Health and Safety
CiteScore
4.30
自引率
3.00%
发文量
47
审稿时长
13 weeks
期刊介绍: Environmental Pollutants & Bioavailability is a peer-reviewed open access forum for insights on the chemical aspects of pollutants in the environment and biota, and their impacts on the uptake of the substances by living organisms. Topics include the occurrence, distribution, transport, transformation, transfer, fate, and effects of environmental pollutants, as well as their impact on living organisms. Substances of interests include heavy metals, persistent organic pollutants, and emerging contaminants, such as engineered nanomaterials, as well as pharmaceuticals and personal-care products as pollutants.
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