跨域相互作用赋予冰川期溪流中底栖生物膜以稳定性

S. Busi, H. Peter, Jade Brandani, Tyler J. Kohler, S. Fodelianakis, P. Pramateftaki, Massimo Bourquin, G. Michoud, Leïla Ezzat, Stuart Lane, Paul Wilmes, T. Battin
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摘要

跨域相互作用是生物膜在自然环境中取得成功不可或缺的一部分,但人们对其了解甚少。在这里,我们描述了瑞士阿尔卑斯山冰川洪积平原排水溪流生物膜中的跨域相互作用。这些溪流是冰川退缩的结果,具有多种环境梯度和扰动(如河道地貌和排水量的变化),这些都取决于冰川消融后的时间。我们评估了溪流沿岸细菌和真核生物群落的共存情况,结果表明关键群落成员对群落网络的稳定性具有不成比例的影响。网络的拓扑结构(这里量化为由特定类群形成的组成节点的排列)与溪流类型及其明显的环境稳定性无关。然而,在流经冰川期地形的溪流中,网络对破碎的稳定性较高,而在冰川期地形的溪流中,网络对破碎的稳定性较低。我们发现,细菌、真核光自养生物和真菌是这些网络稳定性的核心,它们在原核和真核生物分类群被移除后会支离破碎。关键类群的数量并不总是很丰富,这表明它们的贡献中有潜在的功能成分。因此,我们的研究表明,单个类群在决定冰川溪流微生物群落稳定性方面发挥着关键作用。
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Cross-domain interactions confer stability to benthic biofilms in proglacial streams
Cross-domain interactions are an integral part of the success of biofilms in natural environments but remain poorly understood. Here, we describe cross-domain interactions in stream biofilms draining proglacial floodplains in the Swiss Alps. These streams, as a consequence of the retreat of glaciers, are characterised by multiple environmental gradients and perturbations (e.g., changes in channel geomorphology, discharge) that depend on the time since deglaciation. We evaluate co-occurrence of bacteria and eukaryotic communities along streams and show that key community members have disproportionate effects on the stability of community networks. The topology of the networks, here quantified as the arrangement of the constituent nodes formed by specific taxa, was independent of stream type and their apparent environmental stability. However, network stability against fragmentation was higher in the streams draining proglacial terrain that was more recently deglaciated. We find that bacteria, eukaryotic photoautotrophs, and fungi are central to the stability of these networks, which fragment upon the removal of both pro- and eukaryotic taxa. Key taxa are not always abundant, suggesting an underlying functional component to their contributions. Thus, we show that there is a key role played by individual taxa in determining microbial community stability of glacier-fed streams.
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