College of Grassland Agriculture, Northwest A&F University, Yangling, 712100, China.
State Key Laboratory of Agrobiotechnology, The Chinese University of Hong Kong, Shatin, Hong Kong, 999077, China.
J Integr Plant Biol. 2021 Oct;63(10):1753-1774. doi: 10.1111/jipb.13154. Epub 2021 Aug 27.
The rhizosheath, a layer of soil grains that adheres firmly to roots, is beneficial for plant growth and adaptation to drought environments. Switchgrass is a perennial C4 grass which can form contact rhizosheath under drought conditions. In this study, we characterized the microbiomes of four different rhizocompartments of two switchgrass ecotypes (Alamo and Kanlow) grown under drought or well-watered conditions via 16S ribosomal RNA amplicon sequencing. These four rhizocompartments, the bulk soil, rhizosheath soil, rhizoplane, and root endosphere, harbored both distinct and overlapping microbial communities. The root compartments (rhizoplane and root endosphere) displayed low-complexity communities dominated by Proteobacteria and Firmicutes. Compared to bulk soil, Cyanobacteria and Bacteroidetes were selectively enriched, while Proteobacteria and Firmicutes were selectively depleted, in rhizosheath soil. Taxa from Proteobacteria or Firmicutes were specifically selected in Alamo or Kanlow rhizosheath soil. Following drought stress, Citrobacter and Acinetobacter were further enriched in rhizosheath soil, suggesting that rhizosheath microbiome assembly is driven by drought stress. Additionally, the ecotype-specific recruitment of rhizosheath microbiome reveals their differences in drought stress responses. Collectively, these results shed light on rhizosheath microbiome recruitment in switchgrass and lay the foundation for the improvement of drought tolerance in switchgrass by regulating the rhizosheath microbiome.
根鞘是一层紧密附着在根上的土壤颗粒,有利于植物生长和适应干旱环境。柳枝稷是一种多年生 C4 草,在干旱条件下可以形成接触根鞘。在这项研究中,我们通过 16S 核糖体 RNA 扩增子测序,对两种柳枝稷生态型(Alamo 和 Kanlow)在干旱或充分浇水条件下的四个不同根区的微生物组进行了特征描述。这四个根区包括:土壤、根鞘土、根面和根内皮层,它们都含有独特且重叠的微生物群落。根区(根面和根内皮层)显示出低复杂性的群落,主要由变形菌门和厚壁菌门组成。与土壤相比,蓝细菌门和拟杆菌门在根鞘土中被选择性富集,而变形菌门和厚壁菌门则被选择性耗竭。根鞘土中还特异性地富集了来自变形菌门或厚壁菌门的分类群。在干旱胁迫后,Citrobacter 和 Acinetobacter 在根鞘土中进一步富集,表明根鞘微生物组的组装受到干旱胁迫的驱动。此外,生态型特异性的根鞘微生物组的招募揭示了它们在干旱胁迫响应方面的差异。总的来说,这些结果揭示了柳枝稷根鞘微生物组的招募机制,并为通过调节根鞘微生物组来提高柳枝稷的耐旱性奠定了基础。
