Assembly of endophytic communities of Setaria viridis L. plants when grown in different soils and derived from different seeds

IF 3.3 3区生物学 Q2 MICROBIOLOGY

Phytobiomes Journal Pub Date : 2022-12-20 DOI:10.1094/pbiomes-08-22-0054-mf

Carolina Escobar Rodriguez, B. Mitter, Livio Antonielli, A. Sessitsch

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Abstract

The association of the plant microbiota is a successional process that starts with the seed and its intrinsic microbiota. The recently reported relevance of seeds as carriers of microbiota has encouraged investigations of the assembly of these communities in different tissues. Here, we address the contributions of both seed and soil bacterial microbiota in the assembly of communities within endospheres of adult plants by 16S rRNA gene-based Illumina sequencing. Surface-sterilized seeds of the model plant Setaria viridis L. were sown in sterile conditions and seedlings were transferred onto either their native soil or a foreign soil. Soil-derived bacterial colonizers contributed to the highest portion of endophytic microbiota, with varying community composition depending on the cultivation soil. In contrast, the contribution of seed microbiota in those of adult plants was less evident. Moreover, seedlings grown in their native soils resulted in plants with consistent endophytic assemblages, whereas a dramatic increase in variability was observed for rhizosphere and endophytic root communities of plants grown in foreign soils.

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不同土壤和不同种子下狗尾草植物内生群落的组装

植物微生物群的结合是一个从种子及其内在微生物群开始的连续过程。最近报道的种子作为微生物群载体的相关性鼓励了对这些群落在不同组织中的组装进行研究。在这里，我们通过基于16S rRNA基因的Illumina测序，探讨了种子和土壤细菌微生物群在成年植物内球体内群落组装中的作用。在无菌条件下播种模式植物狗尾草的表面灭菌种子，并将幼苗转移到其本国土壤或外国土壤上。土壤来源的细菌定植体对内生微生物群的贡献最大，其群落组成因种植土壤而异。相比之下，种子微生物群在成年植物中的贡献不那么明显。此外，在本国土壤中生长的幼苗使植物具有一致的内生组合，而在外国土壤中生长植物的根际和内生根群落的变异性显著增加。

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