Community composition drives siderophore dynamics in multispecies bacterial communities.

Siobhán O'Brien, Christopher T Culbert, Timothy G Barraclough
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Abstract

Background: Intraspecific public goods are commonly shared within microbial populations, where the benefits of public goods are largely limited to closely related conspecifics. One example is the production of iron-scavenging siderophores that deliver iron to cells via specific cell envelope receptor and transport systems. Intraspecific social exploitation of siderophore producers is common, since non-producers avoid the costs of production but retain the cell envelope machinery for siderophore uptake. However, little is known about how interactions between species (i.e., interspecific interactions) can shape intraspecific public goods exploitation. Here, we predicted that strong competition for iron between species in diverse communities will increase costs of siderophore cooperation, and hence drive intraspecific exploitation. We examined how increasing microbial community species diversity shapes intraspecific social dynamics by monitoring the growth of siderophore producers and non-producers of the plant-growth promoting bacterium Pseudomonas fluorescens, embedded within tree-hole microbial communities ranging from 2 to 15 species.

Results: We find, contrary to our prediction, that siderophore production is favoured at higher levels of community species richness, driven by increased likelihood of encountering key species that reduce the growth of siderophore non-producing (but not producing) strains of P. fluorescens.

Conclusions: Our results suggest that maintaining a diverse soil microbiota could partly contribute to the maintenance of siderophore production in natural communities.

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群落组成驱动多物种细菌群落中的铁载体动态。
背景:种内公共品通常在微生物种群中共享,其中公共品的益处在很大程度上仅限于密切相关的同种。一个例子是产生清除铁的铁载体,通过特定的细胞包膜受体和运输系统将铁传递到细胞中。种内对铁载体生产者的社会利用是常见的,因为非生产者避免了生产成本,但保留了铁载体摄取的细胞包膜机制。然而,关于物种之间的相互作用(即种间相互作用)如何影响种内公共产品的开发,人们知之甚少。在这里,我们预测不同群落中物种之间对铁的激烈竞争将增加铁载体合作的成本,从而推动种内开发。我们通过监测树洞微生物群落中2 - 15种促进植物生长的荧光假单胞菌的产铁体和非产铁体的生长,研究了微生物群落物种多样性的增加如何影响种内社会动态。结果:我们发现,与我们的预测相反,在较高的群落物种丰富度水平下,铁载体的产生更有利,这是由于遇到关键物种的可能性增加,这些关键物种会减少不产生(但不产生)铁载体的荧光P.菌株的生长。结论:我们的研究结果表明,保持土壤微生物群的多样性可能在一定程度上有助于维持天然群落中铁载体的生产。
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