Impact of inoculation practices on microbiota assembly and community stability in a fabricated ecosystem

IF 3.3 3区 生物学 Q2 MICROBIOLOGY
Hsiao-Han Lin, Marta Torres, Catharine A. Adams, Peter F. Andeer, Trenton K. Owens, Kateryna Zhalnina, Lauren K. Jabusch, Hans K. Carlson, Jennifer Kuehl, Adam M. Deutschbauer, Trent Northen, N. Louise Glass, Jenny C. Mortimer
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Abstract

Studying plant-microbe-soil interactions is challenging due to their high complexity and variability in natural ecosystems. While fabricated ecosystems provide opportunities to recapitulate aspects of these systems in reduced complexity and controlled environments, inoculation can be a significant source of variation. To tackle this, we evaluated how different bacteria inoculation practices and plant harvesting time points affect the reproducibility of a microbial synthetic community (SynCom) in association with the model grass Brachypodium distachyon. We tested three microbial inoculation practices: seed inoculation, transplant inoculation, and seedling inoculation; and two harvesting points: early (14-day-old plants) and late (21 days post-inoculation). We grew our plants and bacterial strains in sterile devices (EcoFABs) and characterized the microbial community from root, rhizosphere, and sand using 16S ribosomal RNA gene sequencing. The results showed that inoculation practices significantly affected the rhizosphere microbial community only when harvesting at an early time point but not at the late stage. As the SynCom showed a persistent association with B. distachyon at 21 days post-inoculation regardless of inoculation practices, we assessed the reproducibility of each inoculation method and found that transplant inoculation showed the highest reproducibility. Moreover, plant biomass was not adversely affected by transplant inoculation treatment. We concluded that bacteria inoculation while transplanting coupled with a later harvesting time point gives the most reproducible microbial community in the EcoFAB-B. distachyon-SynCom fabricated ecosystem and recommend this method as a standardized protocol for use with fabricated ecosystem experimental systems.
接种措施对人工生态系统中微生物群聚集和群落稳定性的影响
由于植物-微生物-土壤相互作用在自然生态系统中的高度复杂性和可变性,研究它们具有挑战性。虽然人造生态系统提供了在降低复杂性和受控环境中概括这些系统的各个方面的机会,但接种可能是变异的重要来源。为了解决这个问题,我们评估了不同的细菌接种方法和植物收获时间点如何影响与模式草短茅(Brachypodium distachyon)相关的微生物合成群落(SynCom)的可重复性。我们测试了三种微生物接种方法:种子接种、移植接种和幼苗接种;两个采收点:早期(14天)和晚期(接种后21天)。我们在无菌装置(EcoFABs)中培养我们的植物和细菌菌株,并使用16S核糖体RNA基因测序从根、根际和沙子中鉴定微生物群落。结果表明,接种措施对根际微生物群落的影响仅在采收前期显著,而在采收后期无显著影响。由于无论接种方式如何,在接种21天后,SynCom都显示出与双歧杆菌的持续关联,因此我们评估了每种接种方法的可重复性,发现移植接种具有最高的可重复性。移栽接种处理对植株生物量无不利影响。我们得出结论,在移栽时接种细菌,加上较晚的收获时间点,在EcoFAB-B中可复制的微生物群落最多。distachyon-SynCom合成生态系统,并推荐该方法作为合成生态系统实验系统使用的标准化协议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.40
自引率
6.80%
发文量
42
审稿时长
4 weeks
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