Microplastics and their interaction with microorganisms in Bosten Lake water

IF 9.7 1区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL
Xiaorui Liang , Jing Ye , Rui Cao , Jingwen Shuai , Jianpin Zhang , Reheman Aimaiti , Shanshan Meng , Kangkang Wang , Alessio Gomiero , Jide Wang , Wei Wang , Jie Yang
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Abstract

Microplastic pollution in inland freshwater lakes, formed from melting ice, atmospheric precipitation, and groundwater, remains under-researched. This study examines microplastic (MPS) presence and distribution in Bosten Lake and their interaction with microorganisms. We employed a Confocal Raman spectrometer to identify MPS types and 16S rRNA high-throughput sequencing to analyze microbial diversity and composition. In May, the lake's average microplastic concentration was 108.20 particles per liter (PCS/L), decreasing to 21.67 PCS/L by October. Transparent and yellow fibrous microplastics, predominantly 0.2–0.5 mm in size, were most common. Key microplastics in May included PEEK (27%), PMMA (25%), and PET (9%), while October saw a prevalence of PET (35%), PS (13%), and PA (9%). Higher microplastic concentrations correlated with reduced microbial diversity. In May, the high microplastic concentration group (MH) showed increased Planctomycetota, while in October, Patescibacteria and Bacteroidota rose significantly in the high plastic group (OH), known for microplastic degradation. MH also had a higher abundance of Cryptomycota compared to OH. Functional analysis indicated that MH had more genes related to bisphenol, benzene, and chlorine compounds, whereas OH had genes linked to methane, nitrogen, and organic matter degradation. Microplastic concentrations peaked near the lake inlet and tourist areas, affecting microbial quantity, diversity, structure, and function. This research enhances our understanding of MPS distribution and environmental microbial shifts in similar settings, providing essential data for environmental management strategies at Bosten Lake.
博斯腾湖水体中的微塑料及其与微生物的相互作用
内陆淡水湖中的微塑料污染是由融化的冰、大气降水和地下水形成的,对其研究仍然不足。本研究考察了博斯腾湖中微塑料(MPS)的存在和分布及其与微生物的相互作用。我们采用共焦拉曼光谱仪来识别微塑料(MPS)的类型,并采用 16S rRNA 高通量测序来分析微生物的多样性和组成。5 月份,湖中微塑料的平均浓度为 108.20 微粒/升(PCS/L),10 月份降至 21.67 微粒/升(PCS/L)。透明和黄色的纤维状微塑料最为常见,主要为 0.2-0.5 毫米大小。5 月份的主要微塑料包括 PEEK(27%)、PMMA(25%)和 PET(9%),而 10 月份的主要微塑料包括 PET(35%)、PS(13%)和 PA(9%)。微塑料浓度越高,微生物多样性越少。五月份,高微塑料浓度组(MH)中的板霉菌属(Planctomycetota)有所增加,而在十月份,以微塑料降解而闻名的高塑料浓度组(OH)中的楯状杆菌属(Patescibacteria)和类杆菌属(Bacteroidota)显著增加。与 OH 组相比,MH 组的隐杆菌群数量也更高。功能分析表明,MH 组有更多与双酚、苯和氯化合物有关的基因,而 OH 组则有与甲烷、氮和有机物降解有关的基因。微塑料浓度在入湖口和旅游区附近达到峰值,影响了微生物的数量、多样性、结构和功能。这项研究加深了我们对类似环境中微塑料颗粒分布和环境微生物变化的了解,为博斯腾湖的环境管理策略提供了重要数据。
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来源期刊
Journal of Cleaner Production
Journal of Cleaner Production 环境科学-工程:环境
CiteScore
20.40
自引率
9.00%
发文量
4720
审稿时长
111 days
期刊介绍: The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.
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