Temporal changes in the morphological and microbial diversity of biofilms on the surface of a submerged stone in the Danube River.

IF 1.8 4区 生物学 Q3 BIOLOGY Biologia futura Pub Date : 2024-09-01 Epub Date: 2024-07-06 DOI:10.1007/s42977-024-00228-0
Judit Makk, Marwene Toumi, Gergely Krett, Nóra Tünde Lange-Enyedi, Iris Schachner-Groehs, Alexander K T Kirschner, Erika Tóth
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Abstract

Epilithic biofilms are ubiquitous in large river environments and are crucial for biogeochemical processes, but their community structures and functions remain poorly understood. In this paper, the seasonal succession in the morphological structure and the taxonomic composition of an epilithic bacterial biofilm community at a polluted site of the Danube River were followed using electron microscopy, high-throughput 16S rRNA gene amplicon sequencing and multiplex/taxon-specific PCRs. The biofilm samples were collected from the same submerged stone and carried out bimonthly in the littoral zone of the Danube River, downstream of a large urban area. Scanning electron microscopy showed that the biofilm was composed of diatoms and a variety of bacteria with different morphologies. Based on amplicon sequencing, the bacterial communities were dominated by the phyla Pseudomonadota and Bacteroidota, while the most abundant archaea belonged to the phyla Nitrososphaerota and Nanoarchaeota. The changing environmental factors had an effect on the composition of the epilithic microbial community. Critical levels of faecal pollution in the water were associated with increased relative abundance of Sphaerotilus, a typical indicator of "sewage fungus", but the composition and diversity of the epilithic biofilms were also influenced by several other environmental factors such as temperature, water discharge and total suspended solids (TSS). The specific PCRs showed opportunistic pathogenic bacteria (e.g. Pseudomonas spp., Legionella spp., P. aeruginosa, L. pneumophila, Stenotrophomonas maltophilia) in some biofilm samples, but extended spectrum β-lactamase (ESBL) genes and macrolide resistance genes could not be detected.

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多瑙河水下石头表面生物膜形态和微生物多样性的时间变化。
附着性生物膜在大型河流环境中无处不在,对生物地球化学过程至关重要,但人们对其群落结构和功能的了解仍然很少。本文采用电子显微镜、高通量 16S rRNA 基因扩增子测序和多重/类群特异性 PCR 技术,对多瑙河污染地点的附生细菌生物膜群落的形态结构和分类组成的季节性演替进行了跟踪研究。生物膜样本是从多瑙河沿岸地区的同一块水下石头上采集的,每两个月采集一次,该地区位于一个大城市的下游。扫描电子显微镜显示,生物膜由硅藻和形态各异的多种细菌组成。根据扩增子测序,细菌群落以假单胞菌门和类杆菌门为主,而最丰富的古细菌属于亚硝化细菌门和纳米古细菌门。不断变化的环境因素对附岩微生物群落的组成产生了影响。水体中粪便污染的临界水平与 Sphaerotilus(一种典型的 "污水真菌 "指标)相对丰度的增加有关,但附生生物膜的组成和多样性也受到其他一些环境因素的影响,如温度、水排放和总悬浮固体(TSS)。特异性 PCR 在一些生物膜样本中发现了机会致病菌(如假单胞菌属、军团菌属、铜绿假单胞菌、嗜肺 杆菌、嗜麦芽血单胞菌),但未能检测到广谱 β-内酰胺酶(ESBL)基因和耐大环内酯类药物基因。
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来源期刊
Biologia futura
Biologia futura Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.50
自引率
0.00%
发文量
27
期刊介绍: How can the scientific knowledge we possess now influence that future? That is, the FUTURE of Earth and life − of humankind. Can we make choices in the present to change our future? How can 21st century biological research ask proper scientific questions and find solid answers? Addressing these questions is the main goal of Biologia Futura (formerly Acta Biologica Hungarica). In keeping with the name, the new mission is to focus on areas of biology where major advances are to be expected, areas of biology with strong inter-disciplinary connection and to provide new avenues for future research in biology. Biologia Futura aims to publish articles from all fields of biology.
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