两种不同介质中河流模型细菌群落的动态变化揭示了与单一培养物相比，大多数菌株的演替方向不同，且生长增强。

The Dynamic of a River Model Bacterial Community in Two Different Media Reveals a Divergent Succession and an Enhanced Growth of Most Strains Compared to Monocultures.

机构信息

Ecology of Aquatic Systems, Université libre de Bruxelles, Campus Plaine, CP 221, 1050, Brussels, Belgium.

Laboratory of Molecular Bacteriology (Rega Institute), Katholieke Universiteit Leuven, Herestraat 49, 3000, Leuven, Belgium.

出版信息

Microb Ecol. 2019 Aug;78(2):313-323. doi: 10.1007/s00248-019-01322-w. Epub 2019 Jan 24.

DOI:10.1007/s00248-019-01322-w

PMID:30680433

Abstract

The dynamic of a community of 20 bacterial strains isolated from river water was followed in R2 broth and in autoclaved river water medium for 27 days in batch experiments. At an early stage of incubation, a fast-growing specialist strain, Acinetobater sp., dominated the community in both media. Later on, the community composition in both media diverged but was highly reproducible across replicates. In R2, several strains previously reported to degrade multiple simple carbon sources prevailed. In autoclaved river water, the community was more even and became dominated by several strains growing faster or exclusively in that medium. Those strains have been reported in the literature to degrade complex compounds. Their growth rate in the community was 1.5- to 7-fold greater than that observed in monoculture. Furthermore, those strains developed simultaneously in the community. Together, our results suggest the existence of cooperative interactions within the community incubated in autoclaved river water.

摘要

在批式实验中，我们跟踪了从河水分离出的 20 株细菌的群落动态，这些细菌在 R2 肉汤和高压灭菌河水培养基中培养了 27 天。在培养的早期阶段，一种生长迅速的专性菌，不动杆菌属，在两种培养基中都占据了主导地位。此后，两种培养基中的群落组成出现分歧，但在重复实验中高度重现。在 R2 中，有几种先前报道过能降解多种简单碳源的菌株占优势。在高压灭菌的河水中，群落更加均匀，由几种在该培养基中生长更快或专性生长的菌株所主导。这些菌株在文献中被报道能降解复杂化合物。它们在群落中的生长速度比在纯培养中观察到的速度快 1.5 到 7 倍。此外，这些菌株在群落中同时发育。总之，我们的结果表明，在高压灭菌河水培养的群落中存在着合作相互作用。

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两种不同介质中河流模型细菌群落的动态变化揭示了与单一培养物相比，大多数菌株的演替方向不同，且生长增强。

The Dynamic of a River Model Bacterial Community in Two Different Media Reveals a Divergent Succession and an Enhanced Growth of Most Strains Compared to Monocultures.

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