High niche specificity and host genetic diversity of groundwater viruses.

IF 10.8 1区 环境科学与生态学 Q1 ECOLOGY
Emilie Gios, Olivia E Mosley, Michael Hoggard, Kim M Handley
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Abstract

Viruses are key members of microbial communities that exert control over host abundance and metabolism, thereby influencing ecosystem processes and biogeochemical cycles. Aquifers are known to host taxonomically diverse microbial life, yet little is known about viruses infecting groundwater microbial communities. Here, we analysed 16 metagenomes from a broad range of groundwater physicochemistries. We recovered 1571 viral genomes that clustered into 468 high-quality viral operational taxonomic units. At least 15% were observed to be transcriptionally active, although lysis was likely constrained by the resource-limited groundwater environment. Most were unclassified (95%), and the remaining 5% were Caudoviricetes. Comparisons with viruses inhabiting other aquifers revealed no shared species, indicating substantial unexplored viral diversity. In silico predictions linked 22.4% of the viruses to microbial host populations, including to ultra-small prokaryotes, such as Patescibacteria and Nanoarchaeota. Many predicted hosts were associated with the biogeochemical cycling of carbon, nitrogen, and sulfur. Metabolic predictions revealed the presence of 205 putative auxiliary metabolic genes, involved in diverse processes associated with the utilization of the host's intracellular resources for biosynthesis and transformation reactions, including those involved in nucleotide sugar, glycan, cofactor, and vitamin metabolism. Viruses, prokaryotes overall, and predicted prokaryotic hosts exhibited narrow spatial distributions, and relative abundance correlations with the same groundwater parameters (e.g. dissolved oxygen, nitrate, and iron), consistent with host control over viral distributions. Results provide insights into underexplored groundwater viruses, and indicate the large extent to which viruses may manipulate microbial communities and biogeochemistry in the terrestrial subsurface.

地下水病毒的高度生态位特异性和宿主遗传多样性。
病毒是微生物群落的关键成员,它们控制着宿主的数量和新陈代谢,从而影响着生态系统过程和生物地球化学循环。众所周知,含水层寄生着分类学上多种多样的微生物,但人们对感染地下水微生物群落的病毒却知之甚少。在这里,我们分析了来自各种地下水理化性质的 16 个元基因组。我们恢复了 1571 个病毒基因组,它们被聚类为 468 个高质量的病毒操作分类单元(vOTUs)。据观察,至少有 15%的病毒具有转录活性,不过裂解可能受到资源有限的地下水环境的限制。大多数病毒未分类(95%),其余 5%为尾状病毒。与栖息在其他含水层中的病毒进行比较后发现,这些病毒没有共同的种类,这表明病毒的多样性还未得到充分开发。根据硅学预测,22.4%的病毒与微生物宿主种群有关,包括与超小型原核生物有关,如板结杆菌(Patescibacteria)和纳米古细菌(Nanoarchaeota)。许多预测的宿主与碳、氮和硫的生物地球化学循环有关。代谢预测显示存在 205 个假定的辅助代谢基因,这些基因参与与利用宿主细胞内资源进行生物合成和转化反应有关的各种过程,包括参与核苷酸糖、糖、辅助因子和维生素代谢的基因。病毒、原核生物总体以及预测的原核生物宿主表现出狭窄的空间分布,且相对丰度与相同的地下水参数(如溶解氧、硝酸盐和铁)相关,这与宿主对病毒分布的控制是一致的。研究结果提供了对未充分探索的地下水病毒的见解,并表明病毒可在很大程度上操纵陆地地下的微生物群落和生物地球化学。
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来源期刊
ISME Journal
ISME Journal 环境科学-生态学
CiteScore
22.10
自引率
2.70%
发文量
171
审稿时长
2.6 months
期刊介绍: The ISME Journal covers the diverse and integrated areas of microbial ecology. We encourage contributions that represent major advances for the study of microbial ecosystems, communities, and interactions of microorganisms in the environment. Articles in The ISME Journal describe pioneering discoveries of wide appeal that enhance our understanding of functional and mechanistic relationships among microorganisms, their communities, and their habitats.
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