Putative Invertebrate, Plant, and Wastewater Derived ssRNA Viruses in Plankton of the Anthropogenically Impacted Anacostia River, District of Columbia, USA.

IF 2.1 4区环境科学与生态学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Microbes and Environments Pub Date : 2022-01-01 DOI:10.1264/jsme2.ME21070

Caroline Solomon, Ian Hewson

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引用次数: 1

Abstract

The Anacostia River is a highly impacted watershed in the Northeastern United States which experiences combined sewage outfall in downstream waters. We examined the composition of RNA viruses at three sites in the river using viral metagenomics. Viromes had well represented Picornaviruses, Tombusviruses, Wolframviruses, Nodaviruses, with fewer Tobamoviruses, Sobemoviruses, and Densoviruses (ssDNA). Phylogenetic ana-lyses of detected viruses provide evidence for putatively autochthonous and allochthonous invertebrate, plant, and vertebrate host origin. The number of viral genomes matching Ribovaria increased downstream, and assemblages were most disparate between distant sites, suggesting impacts of the combined sewage overflows at these sites. Additionally, we recovered a densovirus genome fragment which was highly similar to the Clinch ambidensovirus 1, which has been attributed to mass mortality of freshwater mussels in Northeastern America. Taken together, these data suggest that RNA viromes of the Anacostia River reflect autochthonous production of virus particles by benthic metazoan and plants, and inputs from terrestrial habitats including sewage.

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美国哥伦比亚特区阿纳科斯蒂亚河浮游生物中推测的无脊椎动物、植物和废水衍生的ssRNA病毒。

阿纳科斯蒂亚河是美国东北部一个受到严重影响的分水岭，它在下游水域经历了污水的综合排放。我们利用病毒宏基因组学检测了河流中三个位点的RNA病毒组成。病毒组主要有小核糖核酸病毒、托姆巴斯病毒、wolfram病毒、诺达病毒，较少有托巴莫病毒、索比莫病毒和致密病毒(ssDNA)。对检测到的病毒进行系统发育分析，提供了假定的原生和外来无脊椎动物、植物和脊椎动物宿主起源的证据。与核糖核酸相匹配的病毒基因组数量在下游增加，并且在距离较远的地点之间的组合最不相同，这表明这些地点的综合污水溢出的影响。此外，我们还恢复了一个致密病毒基因组片段，它与导致美国东北部淡水贻贝大量死亡的Clinch ambidensovirus 1高度相似。综上所述，这些数据表明，Anacostia河的RNA病毒组反映了底栖后生动物和植物的原生病毒颗粒生产，以及来自包括污水在内的陆地栖息地的输入。

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来源期刊

Microbes and Environments 生物-生物工程与应用微生物

CiteScore

4.10

自引率

13.60%

发文量

审稿时长

3 months

期刊介绍： Microbial ecology in natural and engineered environments; Microbial degradation of xenobiotic compounds; Microbial processes in biogeochemical cycles; Microbial interactions and signaling with animals and plants; Interactions among microorganisms; Microorganisms related to public health; Phylogenetic and functional diversity of microbial communities; Genomics, metagenomics, and bioinformatics for microbiology; Application of microorganisms to agriculture, fishery, and industry; Molecular biology and biochemistry related to environmental microbiology; Methodology in general and environmental microbiology; Interdisciplinary research areas for microbial ecology (e.g., Astrobiology, and Origins of Life); Taxonomic description of novel microorganisms with ecological perspective; Physiology and metabolisms of microorganisms; Evolution of genes and microorganisms; Genome report of microorganisms with ecological perspective.