河流间室的时空宏基因组学揭示了城市受影响河流中的病毒群落动态

Josué Rodríguez-Ramos, Angela Oliverio, Mikayla A. Borton, Robert Danczak, Birgit M. Mueller, Hanna Schulz, Jared Ellenbogen, Rory M. Flynn, Rebecca A. Daly, LeAundra Schopflin, Michael Shaffer, Amy Goldman, Joerg Lewandowski, James C. Stegen, Kelly C. Wrighton
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摘要

虽然河流生态系统只占地球总面积的一小部分,但它们是微生物和病毒协调的全球生物地球化学循环的关键调节器。然而,大多数研究要么使用没有空间解析的数据,要么在不能反映微生物短暂生命周期的时间点收集数据。为了解决这一差距,我们通过对德国受污水影响的Erpe河的地表水和孔隙水进行采样,评估了病毒和微生物群落在48小时内的变化情况。我们每3小时采样一次,得到32个样本,获得宏基因组以及地球化学和代谢物测量值。从我们的宏基因组中,我们鉴定了6,500个病毒和1,033个微生物宏基因组组装基因组(MAGs),并发现了不同的群落成员和丰度与每个河室相关(例如,地表水中的竞争菌科和孔隙水中的硫脲菌科)。我们发现,17%的病毒mag聚集在废水处理厂和河流等其他生态系统的病毒上。我们的研究结果还表明,70%的病毒群落在地表水中持续存在,而只有13%的病毒群落在从地下带提取的孔隙水中持续存在。最后,我们预测了73个病毒基因组和38个微生物基因组之间的联系。这些相互关联的宿主包括竞争菌科的成员,我们认为它们是通过反硝化和固氮作用进行河流碳氮循环的潜在贡献者。总之,这些发现表明,来自这条城市河流的地表水微生物群成员在多个日循环中是稳定的。这些时间上的见解为试图限制河流生物地球化学循环动力学的生态系统模型提出了重要的考虑。
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Spatial and temporal metagenomics of river compartments reveals viral community dynamics in an urban impacted stream
Although river ecosystems constitute a small fraction of Earth’s total area, they are critical modulators of microbially and virally orchestrated global biogeochemical cycles. However, most studies either use data that is not spatially resolved or is collected at timepoints that do not reflect the short life cycles of microorganisms. To address this gap, we assessed how viral and microbial communities change over a 48-hour period by sampling surface water and pore water compartments of the wastewater-impacted River Erpe in Germany. We sampled every 3 hours resulting in 32 samples for which we obtained metagenomes along with geochemical and metabolite measurements. From our metagenomes, we identified 6,500 viral and 1,033 microbial metagenome assembled genomes (MAGs) and found distinct community membership and abundance associated with each river compartment (e.g., Competibacteraceae in surfacewater and Sulfurimonadaceae in pore water). We show that 17% of our viral MAGs clustered to viruses from other ecosystems like wastewater treatment plants and rivers. Our results also indicated that 70% of the viral community was persistent in surface waters, whereas only 13% were persistent in the pore waters taken from the hyporheic zone. Finally, we predicted linkages between 73 viral genomes and 38 microbial genomes. These putatively linked hosts included members of the Competibacteraceae , which we suggest are potential contributors to river carbon and nitrogen cycling via denitrification and nitrogen fixation. Together, these findings demonstrate that members of the surface water microbiome from this urban river are stable over multiple diurnal cycles. These temporal insights raise important considerations for ecosystem models attempting to constrain dynamics of river biogeochemical cycles.
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