Ocean acidification and viral replication cycles: Frequency of lytically infected and lysogenic cells during a mesocosm experiment in the NW Mediterranean Sea

Tsiola Anastasia; Pitta Paraskevi; Giannakourou AntoniaBourdin GuillaumeMarro SophieMaugendre LaurePedrotti Maria LuizaGazeau Frederic

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Ocean acidification and viral replication cycles: Frequency of lytically infected and lysogenic cells during a mesocosm experiment in the NW Mediterranean Sea

机译：Ocean acidification and viral replication cycles: Frequency of lytically infected and lysogenic cells during a mesocosm experiment in the NW Mediterranean Sea

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The frequency of lytically infected and lysogenic cells (FLIC and FLC, respectively) was estimated during an in situ mesocosm experiment studying the impact of ocean acidification on the plankton community of a low nutrient low chlorophyll (LNLC) system in the north-western Mediterranean Sea (Bay of Villefranche, France) in February/March 2013. No direct effect of elevated partial pressure of CO2 (pCO(2)) on viral replication cycles could be detected. FLC variability was negatively correlated to heterotrophic bacterial and net community production as well as the ambient bacterial abundance, confirming that lysogeny is a prevailing life strategy under unfavourable-for-the-hosts conditions. Further, the phytoplankton community, assessed by chlorophyll a concentration and the release of >0.4 mu m transparent exopolymeric particles, was correlated with the occurrence of lysogeny, indicating a possible link between photosynthetic processes and bacterial growth. Higher FLC was found occasionally at the highest pCO(2)-treated mesocosm in parallel to subtle differences in the phytoplankton community. This observation suggests that elevated pCO(2) could lead to short-term alterations in lysogenic dynamics coupled to phytoplankton-derived processes. Correlation of FLIC with any environmental parameter could have been obscured by the sampling time or the synchronization of lysis to microbial processes not assessed in this experiment. Furthermore, alterations in microbial and viral assemblage composition and gene expression could be a confounding factor. Viral-induced modifications in organic matter flow affect bacterial growth and could interact with ocean acidification with unpredictable ecological consequences. (C) 2016 Elsevier Ltd. All rights reserved.

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《Estuarine coastal and shelf science》 |2017年第15期|139-151|共13页
作者
Tsiola Anastasia; Pitta Paraskevi; Giannakourou AntoniaBourdin GuillaumeMarro SophieMaugendre LaurePedrotti Maria LuizaGazeau Frederic;
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作者单位

Hellen Ctr Marine Res, Inst Oceanog, POB 2214, Iraklion 71003, Greece;

Hellen Ctr Marine Res, Inst Oceanog, POB 712,46-7km Athinon Souniou Ave, Anavyssos Attiki 19013, Greece;

UPMC Univ Paris 06, Sorbonne Univ, UMR 7093, Observ Oceanol,LOV, F-06230 Villefranche Sur Mer, France;

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正文语种英语
中图分类海洋学;
关键词
Lysis; Lysogeny; Ocean acidification; Mediterranean sea; Mesocosm;

Ocean acidification and viral replication cycles: Frequency of lytically infected and lysogenic cells during a mesocosm experiment in the NW Mediterranean Sea

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