水培种植的四种常见粮食作物根际微生物群落动态及对植物促生微生物的响应

Microbial Community Dynamics and Response to Plant Growth-Promoting Microorganisms in the Rhizosphere of Four Common Food Crops Cultivated in Hydroponics.

作者信息

Sheridan C, Depuydt P, De Ro M, Petit C, Van Gysegem E, Delaere P, Dixon M, Stasiak M, Aciksöz S B, Frossard E, Paradiso R, De Pascale S, Ventorino V, De Meyer T, Sas B, Geelen D

机构信息

In Vitro Biology and Horticulture, Department of Plant Production, Faculty of Bioscience Engineering, Ghent University, 653 Coupure Links, 9000, Ghent, Belgium.

Controlled Environment Systems Research Facility, School of Environmental Sciences, University of Guelph, Guelph, ON, NIG 2W1, Canada.

出版信息

Microb Ecol. 2017 Feb;73(2):378-393. doi: 10.1007/s00248-016-0855-0. Epub 2016 Sep 19.

DOI:10.1007/s00248-016-0855-0

PMID:27645138

Abstract

Plant growth promoting microorganisms (PGPMs) of the plant root zone microbiome have received limited attention in hydroponic cultivation systems. In the framework of a project aimed at the development of a biological life support system for manned missions in space, we investigated the effects of PGPMs on four common food crops (durum and bread wheat, potato and soybean) cultivated in recirculating hydroponic systems for a whole life cycle. Each crop was inoculated with a commercial PGPM mixture and the composition of the microbial communities associated with their root rhizosphere, rhizoplane/endosphere and with the recirculating nutrient solution was characterised through 16S- and ITS-targeted Illumina MiSeq sequencing. PGPM addition was shown to induce changes in the composition of these communities, though these changes varied both between crops and over time. Microbial communities of PGPM-treated plants were shown to be more stable over time. Though additional development is required, this study highlights the potential benefits that PGPMs may confer to plants grown in hydroponic systems, particularly when cultivated in extreme environments such as space.

摘要

植物根际微生物群中的植物促生微生物（PGPMs）在水培种植系统中受到的关注有限。在一个旨在为载人太空任务开发生物生命支持系统的项目框架内，我们研究了PGPMs对在循环水培系统中种植的四种常见粮食作物（硬粒小麦和面包小麦、马铃薯和大豆）整个生命周期的影响。每种作物都接种了一种商业PGPM混合物，并通过靶向16S和ITS的Illumina MiSeq测序对与其根际、根面/内生菌以及循环营养液相关的微生物群落组成进行了表征。结果表明，添加PGPMs会导致这些群落的组成发生变化，不过这些变化在不同作物之间以及随时间推移而有所不同。经PGPM处理的植物的微生物群落在一段时间内表现得更加稳定。尽管还需要进一步发展，但这项研究突出了PGPMs可能赋予水培系统中生长的植物的潜在益处，特别是在诸如太空等极端环境中种植时。

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水培种植的四种常见粮食作物根际微生物群落动态及对植物促生微生物的响应

Microbial Community Dynamics and Response to Plant Growth-Promoting Microorganisms in the Rhizosphere of Four Common Food Crops Cultivated in Hydroponics.

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