沿海细菌和原生生物吸收病毒的碳和氮

Joaquín Martínez Martínez, David Talmy, Jeffrey A Kimbrel, Peter K Weber, Xavier Mayali
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摘要

游离病毒是生物圈中最丰富的生物颗粒类型,但由于缺乏有关异养原生生物消耗病毒和细菌降解病毒的定量知识,将病毒纳入生物地球化学模型的工作受到了阻碍。通过在三个独立的自然微生物群落微宇宙实验中添加同位素标记的病毒,然后利用单细胞分辨率和流式细胞仪进行同位素测量,我们量化了病毒 C 和 N 进入食病毒原生动物和细菌的通量,并比较了非生物因素和生物因素造成的病毒损失。我们发现,一些原生动物可以从病毒颗粒中获得其所需的大部分 C 和 N,而病毒 C 和 N 则会融入细菌的生物量中。我们发现,与单独的非生物过程相比,细菌和原生生物可使病毒的日清除率分别提高 33% 至 85%。我们的实验室培养实验表明,非生物过程在一周内清除了大约 50%的病毒,而加入生物过程后,病毒清除率提高了 83% 至 91%。我们的数据提供了直接证据,证明病毒的碳和氮通过原生动物的捕食和细菌的分解又回到了微生物循环中,这是一个全球性的重要通量,需要进一步研究,以更好地理解和预测水圈的碳和氮循环模型。
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Coastal bacteria and protists assimilate viral carbon and nitrogen
Free viruses are the most abundant type of biological particles in the biosphere, but the lack of quantitative knowledge about their consumption by heterotrophic protists and bacterial degradation has hindered the inclusion of virovory in biogeochemical models. Using isotope-labeled viruses added to three independent microcosm experiments with natural microbial communities followed by isotope measurements with single-cell resolution and flow cytometry, we quantified the flux of viral C and N into virovorous protists and bacteria and compared the loss of viruses due to abiotic vs biotic factors. We found that some protists can obtain most of their C and N requirements from viral particles and that viral C and N get incorporated into bacterial biomass. We found that bacteria and protists were responsible for increasing the daily removal rate of viruses by 33% to 85%, respectively, compared to abiotic processes alone. Our laboratory incubation experiments showed that abiotic processes removed roughly 50% of the viruses within a week, and adding biotic processes led to a removal of 83% to 91%. Our data provide direct evidence for the transfer of viral C and N back into the microbial loop through protist grazing and bacterial breakdown, representing a globally significant flux that needs to be investigated further to better understand and predictably model the C and N cycles of the hydrosphere.
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