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由湖泊栖居菌属形态各异的细菌诱导的淡水鞭毛虫群落的猎物特异性生长反应。

Prey-Specific Growth Responses of Freshwater Flagellate Communities Induced by Morphologically Distinct Bacteria from the Genus Limnohabitans.

作者信息

Grujčić Vesna, Kasalický Vojtěch, Šimek Karel

机构信息

Biology Centre CAS, v.v.i., Institute of Hydrobiology, České Budějovice, Czech Republic Faculty of Science, University of South Bohemia, České Budějovice, Czech Republic.

Biology Centre CAS, v.v.i., Institute of Hydrobiology, České Budějovice, Czech Republic.

出版信息

Appl Environ Microbiol. 2015 Aug;81(15):4993-5002. doi: 10.1128/AEM.00396-15. Epub 2015 May 15.

DOI:10.1128/AEM.00396-15
PMID:25979896
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4495212/
Abstract

Because their large growth potential is counterbalanced with grazing by heterotrophic nanoflagellates (HNF), bacteria of the genus Limnohabitans, which are common in many freshwater habitats, represent a valuable model for examining bacterial carbon flow to the grazer food chain. We conducted experiments with natural HNF communities taken from two distinct habitats, the meso-eutrophic Římov Reservoir and the oligo-mesotrophic Lake Cep (South Bohemia). HNF communities from each habitat at distinct seasonal phases, a late April algal bloom and a late May clear water phase, were each fed 3 Limnohabitans strains of differing cell sizes. Water samples were prefiltered (5 μm) to release natural HNF communities from zooplankton control and then amended with the Limnohabitans strains L. planktonicus II-D5 (medium sized, rod shaped), Limnohabitans sp. strain T6-5 (thin, long, curved rod), and Limnohabitans sp. strain 2KL-3 (large solenoid). Using temporal sampling and prey treatment, we determined HNF growth parameters such as doubling time, growth efficiency, and length of lag phase prior starting to exponential growth. All three Limnohabitans strains supported HNF growth but in significant prey-, site-, and season-dependent fashions. For instance, addition of the moderately large T6-5 strain yielded very rapid HNF growth with a short lag phase. In contrast, the curved morphology and larger cell size of strain 2KL-3 made this prey somewhat protected against grazing by smaller HNF, resulting in slower HNF growth and longer lag phases. These trends were particularly pronounced during the late May clear-water phase, which was dominated by smaller HNF cells. This may indicate a longer "adaptation time" for the flagellate communities toward the large prey size offered.

摘要

由于其巨大的生长潜力与异养纳米鞭毛虫(HNF)的捕食相互平衡,在许多淡水生境中常见的栖湖菌属细菌是研究细菌碳流向捕食者食物链的一个有价值的模型。我们用取自两个不同生境的天然HNF群落进行了实验,即中富营养的里莫夫水库和贫中营养的采普湖(南波希米亚)。在不同季节阶段,即4月下旬的藻类水华期和5月下旬的清水期,从每个生境采集的HNF群落分别被投喂3种不同细胞大小的栖湖菌菌株。水样经过预过滤(5微米)以解除浮游动物对天然HNF群落的控制,然后添加栖湖菌菌株浮游栖湖菌II-D5(中等大小,杆状)、栖湖菌属菌株T6-5(细长、弯曲的杆状)和栖湖菌属菌株2KL-3(大的螺线管状)。通过定时采样和猎物处理,我们确定了HNF的生长参数,如倍增时间、生长效率和开始指数生长前的滞后期长度。所有三种栖湖菌菌株都支持HNF生长,但方式上有显著的猎物、地点和季节依赖性。例如,添加中等大小的T6-5菌株导致HNF生长非常迅速,滞后期很短。相反,2KL-3菌株的弯曲形态和较大的细胞大小使这种猎物在一定程度上免受较小HNF的捕食,导致HNF生长较慢且滞后期较长。这些趋势在5月下旬的清水期尤为明显,该时期以较小的HNF细胞为主。这可能表明鞭毛虫群落对所提供的大型猎物大小有更长的“适应时间”。

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