Virome responses to heating of a forest soil suggest that most dsDNA viral particles do not persist at 90°C

IF 9.8 1区 农林科学 Q1 SOIL SCIENCE
Sara E. Geonczy, Luke S. Hillary, Christian Santos-Medellín, Jane D. Fudyma, Jess W. Sorensen, Joanne B. Emerson
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Abstract

Many fundamental characteristics of soil viruses remain underexplored, including the effects of high temperatures on viruses and their hosts, as would be encountered under disturbances like wildland fire, prescribed burning, and soil solarization. In this study, we leveraged three data types (DNase-treated viromes, non-DNase-treated viromes, and 16S rRNA gene amplicon sequencing) to measure the responses of soil viral and prokaryotic communities to heating to 30ºC, 60ºC, or 90ºC, in comparison to field and control conditions. We investigated (1) the response of dsDNA viral communities to heating of soils from two horizons (O and A) from the same forest soil profile, (2) the extent to which specific viral taxa could be identified as heat-sensitive or heat-tolerant across replicates and soil horizons, and (3) prokaryotic and virus-host dynamics in response to heating. We found that both viral and prokaryotic communities responded similarly to the treatment variables. Community composition differed most significantly by soil source (O or A horizon). Within both soil horizons, viral and prokaryotic communities clustered into three groups, based on beta-diversity patterns: the ambient community (field, control, and 30ºC samples) and the 60ºC and 90ºC communities. As DNase-treated viromic DNA yields were below detection limits at 90ºC, we infer that most viral capsids were compromised after the 90ºC treatment, indicating a maximum temperature threshold between 60ºC and 90ºC for most viral particles in these soils. We also identified groups of heat-tolerant and heat-sensitive vOTUs across both soil sources. Overall, we found that over 70% of viral populations, like their prokaryotic counterparts, could withstand temperatures as high as 60ºC, with shifts in relative abundance explaining most community compositional differences across heating treatments.
病毒体对森林土壤加热的反应表明,大多数 dsDNA 病毒颗粒在 90°C 温度下不会持续存在
土壤病毒的许多基本特征仍未得到充分探索,包括高温对病毒及其宿主的影响,如在野外火灾、规定焚烧和土壤日晒等干扰下可能遇到的情况。在这项研究中,我们利用三种数据类型(经 DNase 处理的病毒体、未经 DNase 处理的病毒体和 16S rRNA 基因扩增片段测序)来测量土壤病毒和原核生物群落对加热到 30ºC、60ºC 或 90ºC 的反应,并与野外和对照条件进行比较。我们研究了(1)dsDNA 病毒群落对来自同一森林土壤剖面的两个地层(O 和 A)土壤加热的反应;(2)在不同复制和土壤层中特定病毒类群对热敏感或耐热的程度;以及(3)原核生物和病毒-宿主对加热的动态反应。我们发现,病毒和原核生物群落对处理变量的反应相似。不同土壤来源(O 或 A 层)的群落组成差异最大。在两种土壤层中,病毒和原核生物群落根据贝塔多样性模式分为三组:环境群落(现场、对照和 30ºC 样品)以及 60ºC 和 90ºC 群落。由于经 DNase 处理的病毒组 DNA 在 90ºC 时的产量低于检测限,我们推断大多数病毒的外壳在 90ºC 处理后已受损,这表明这些土壤中大多数病毒颗粒的最高温度阈值介于 60ºC 和 90ºC 之间。我们还在两种土壤来源中发现了耐热和对热敏感的 vOTU。总之,我们发现 70% 以上的病毒种群和它们的原核对应物一样,可以承受高达 60ºC 的温度,相对丰度的变化可以解释不同加热处理中大多数群落组成的差异。
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来源期刊
Soil Biology & Biochemistry
Soil Biology & Biochemistry 农林科学-土壤科学
CiteScore
16.90
自引率
9.30%
发文量
312
审稿时长
49 days
期刊介绍: Soil Biology & Biochemistry publishes original research articles of international significance focusing on biological processes in soil and their applications to soil and environmental quality. Major topics include the ecology and biochemical processes of soil organisms, their effects on the environment, and interactions with plants. The journal also welcomes state-of-the-art reviews and discussions on contemporary research in soil biology and biochemistry.
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