微塑料对水蚤相关微生物组的原位和体外影响

Anna Krzynowek, Broos Van de Moortel, Nikola Pichler, Isabel Vanoverberghe, Johanna Lapere, Liliana M Jenisch, Daphné Deloof, Wim Thielemans, Koenraad Muylaert, Michiel Dusselier, Dirk Springael, Karoline Faust, Ellen Decaestecker
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引用次数: 0

摘要

水生环境中的微塑料污染日益受到全球关注。微塑料的定义是小于五毫米的塑料碎片,它们在淡水水库中积聚,尤其是在城市地区,对常住生物群造成了影响。本研究通过对淡水池塘进行现场取样和为期 23 天的受控体外暴露实验,研究了微塑料对水蚤(淡水生态系统中的一种关键生物)的表现和微生物组的影响。利用细菌 16S 核糖体 RNA 基因扩增子测序和全基因组枪式测序,我们分析了微生物组的组成和功能能力与微塑料污染水平的关系。与自然池塘相比,城市池塘的水和沉积物中含有更高浓度的微塑料,塑料成分也存在明显差异。与水蚤相关的微生物组相比,水体中细菌群落(即细菌集合体)的多样性和丰富程度更高。总体而言,原位研究表明,水蚤相关群落的组成受许多因素的影响,包括微塑料水平以及温度和氧化还原电位。功能分析显示,在高微塑料含量池塘的微生物群落中,聚对苯二甲酸乙二醇酯降解酶和抗生素抗性基因的相对丰度有所增加。在体外实验中,浮游细菌接种源极大地影响了水蚤的存活率和微生物组的组成。网络分析确定了水蚤微生物组中与微塑料相关的特定类群。我们的研究结果突出表明,城市化会导致微塑料和抗生素耐药性基因负担增加,通过分类学转变、功能富集和生存结果影响宿主相关微生物组,从而对水生生态系统的恢复能力产生潜在影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of microplastics on daphnia-associated microbiomes in situ and in vitro
Microplastic pollution in aquatic environments is a growing global concern. Microplastics, defined as plastic fragments smaller than five millimetres, accumulate in freshwater reservoirs, especially in urban areas, impacting resident biota. This study examined the effects of microplastics on the performance and microbiome of Daphnia, a keystone organism in freshwater ecosystems, through both in situ sampling of freshwater ponds and a controlled 23-day in vitro exposure experiment. Using bacterial 16S ribosomal RNA gene amplicon sequencing and whole-genome shotgun sequencing, we analyzed the microbiome's composition and functional capacity in relation to microplastic pollution levels. Urban ponds contained higher microplastic concentrations in water and sediment than natural ponds, with distinct differences in plastic composition. Bacterioplankton communities defined as bacterial assemblages in the water column, were more diverse and richer than Daphnia-associated microbiomes. Overall, the in situ study showed that the composition of the Daphnia-associated community was influenced by many factors including microplastic levels but also temperature and redox potential. Functional analysis showed increased relative abundances of polyethylene terephthalate degradation enzymes and antibiotic resistance genes in microbiomes from high-microplastic ponds. In the in vitro experiment, the bacterioplankton inoculum source significantly influenced Daphnia survival and microbiome composition. Network analysis identified specific taxa associated with microplastics within the Daphnia microbiome. Our findings highlight that urbanisation leads to higher microplastic and antibiotic resistance gene burdens, influencing host-associated microbiomes through taxonomic shifts, functional enrichment, and survival outcomes, with potential implications for the resilience of aquatic ecosystems.
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