The seeds of Plantago lanceolata comprise a stable core microbiome along a plant richness gradient

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY
Yuri Pinheiro Alves de Souza, Michael Schloter, Wolfgang Weisser, Yuanyuan Huang, Stefanie Schulz
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Abstract

Seed endophytic bacteria are beneficial to plants. They improve seedling growth by enhancing plant nutrient uptake, modulating stress-related phytohormone production, and targeting pests and pathogens with antibiotics. Seed endophyte composition can be influenced by pollination, plant cultivar, and soil physicochemical conditions. However, the effects of plant community richness on seed endophytes are unknown. To investigate the effects of increasing plant species richness on the diversity and composition of the seed microbiome, we made use of a well-established long-term biodiversity experiment in Germany (The Jena Experiment). We sampled seeds from different Plantago lanceolata blossoms in a plant diversity gradient ranging from monoculture to 16 species mixtures. The seeds were surface sterilized to remove seed surface-associated bacteria and subjected to a metabarcoding approach to assess bacterial community structure. Our data indicate a very stable core microbiome, which accounted for more than 90% of the reads and was present in all seeds independent of the plant richness level the seeds originated from. It consisted mainly of reads linked to Pseudomonas rhizosphaerae, Sphingomonas faeni and Pirellulla spp. 9% of the obtained reads were not part of the core microbiome and were only present in plots of specific diversity levels. The number of unique ASVs was positively correlated with plant richness. Interestingly, most reads described as non-core members belonged to the same genera described as the core microbiome, indicating the presence of different strains or species with possibly different functional properties important for seed performance. Our data indicate that Plantago lanceolata maintains a large seeds core microbiome across the plant richness gradient. However, the number of unique ASVs increases alongside the plant community richness, indicating that ecosystem biodiversity also mitigates diversity loss in seed endophytes.
沿植物丰富度梯度,车前子的种子构成了一个稳定的核心微生物组
种子内生细菌对植物有益。它们能提高植物对养分的吸收、调节与胁迫相关的植物激素的产生,并利用抗生素对付害虫和病原体,从而改善幼苗的生长。种子内生菌的组成会受到授粉、植物品种和土壤理化条件的影响。然而,植物群落丰富度对种子内生菌的影响尚不清楚。为了研究植物物种丰富度的增加对种子微生物组的多样性和组成的影响,我们利用了德国一个成熟的长期生物多样性实验(耶拿实验)。我们从植物多样性梯度(从单一物种到 16 种混合物)中的不同车前子花种子中采样。我们对种子进行了表面消毒,以去除种子表面相关细菌,并采用元条码方法评估细菌群落结构。我们的数据表明,核心微生物群非常稳定,占读数的 90% 以上,并且存在于所有种子中,与种子来源植物的丰富程度无关。9%的读数不属于核心微生物组,只存在于特定多样性水平的地块中。独特 ASV 的数量与植物丰富度呈正相关。有趣的是,大多数被描述为非核心成员的读数属于被描述为核心微生物组的相同属,这表明存在不同的菌株或物种,它们可能具有对种子性能非常重要的不同功能特性。我们的数据表明,在植物丰富度梯度上,车前草保持着一个庞大的种子核心微生物组。然而,随着植物群落丰富度的增加,独特的ASV数量也在增加,这表明生态系统的生物多样性也减轻了种子内生菌多样性的损失。
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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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