Cave pools in Carlsbad Caverns National Park contain diverse bacteriophage communities and novel viral sequences

bioRxiv - Microbiology Pub Date : 2024-09-12 DOI:10.1101/2024.09.12.612726

Joseph Ulbrich, Nathaniel E. Jobe, Daniel Seth Jones, Thomas L. Kieft

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Abstract

Viruses are the most abundant biological entities on Earth, and they play a critical role in the environment and biosphere where they regulate microbial populations and contribute to nutrient cycling. Environmental viruses have been the most studied in the ocean, but viral investigations have now spread to other environments. Here, viral communities were characterized in four cave pools in Carlsbad Caverns National Park to test the hypotheses that (i) viral abundance is ten-fold higher than prokaryotic cell abundance in cavern pools, (ii) cavern pools contain novel viral sequences, and (iii) viral communities in pools from developed portions of the cave are distinct from those of pools in undeveloped parts of the same cave. The relationship between viral and microbial abundance was determined through direct epifluorescence microscopy counts. Viral metagenomes were constructed to examine viral diversity among pools, identify novel viruses, and characterize auxiliary metabolic genes (AMGs). Bacterial communities were characterized by 16S rRNA gene amplicon sequencing. Epifluorescence microscopy showed that the ratio of viral-like particles (VLPs) to microorganisms was approximately 22:1 across all sites. Viral communities from pools with higher tourist traffic were more similar to each other than to those from less visited pools, although surprisingly, viruses did not follow the same pattern as bacterial communities, which reflected pool geochemistry. Bacterial hosts predicted from viral sequences using iPHoP showed overlap with both rare and abundant genera and families in the 16S rRNA gene dataset. Gene-sharing network analysis revealed high viral diversity compared to a reference viral database as well as to other aquatic environments. AMG presence showed variation in metabolic potential among the four pools. Overall, Carlsbad Cavern harbors novel viruses with substantial diversity among pools within the same system, indicating that caves are likely an important repository for unexplored viromes.

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卡尔斯巴德洞穴国家公园的洞穴水池含有多种噬菌体群落和新型病毒序列

病毒是地球上最丰富的生物实体，它们在环境和生物圈中发挥着至关重要的作用，调节微生物种群，促进营养循环。对环境病毒的研究最多的是海洋，但现在病毒研究已扩展到其他环境。在此，研究人员对卡尔斯巴德洞穴国家公园（Carlsbad Caverns National Park）的四个洞穴水池中的病毒群落进行了特征描述，以验证以下假设：(i) 洞穴水池中的病毒丰度是原核细胞丰度的十倍；(ii) 洞穴水池中含有新型病毒序列；(iii) 洞穴中已开发部分水池中的病毒群落与同一洞穴中未开发部分水池中的病毒群落截然不同。病毒数量与微生物数量之间的关系是通过直接的荧光显微镜计数确定的。构建了病毒元基因组，以检查水池之间的病毒多样性、识别新型病毒并确定辅助代谢基因（AMGs）的特征。通过 16S rRNA 基因扩增片段测序确定了细菌群落的特征。荧光显微镜显示，所有地点的类病毒颗粒（VLPs）与微生物的比例约为 22:1。与游客较少的水池相比，游客较多的水池中的病毒群落更为相似，但令人惊讶的是，病毒群落与细菌群落并不遵循相同的模式，这反映了水池的地球化学特征。利用 iPHoP 根据病毒序列预测的细菌宿主与 16S rRNA 基因数据集中的稀有和丰富的属和科都有重叠。基因共享网络分析显示，与参考病毒数据库以及其他水生环境相比，病毒的多样性很高。AMG的存在表明四个水池的新陈代谢潜力存在差异。总体而言，卡尔斯巴德洞穴蕴藏着新型病毒，而且同一系统中不同池塘的病毒具有很大的多样性，这表明洞穴很可能是一个重要的未开发病毒群宝库。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Microbiology

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