Factors Influencing Leaf- and Root-Associated Communities of Bacteria and Fungi Across 33 Plant Orders in a Grassland

Toju, Hirokazu; Kurokawa, Hiroko; Kenta, Tanaka

doi:10.3389/fmicb.2019.00241

Cited by 58 publications

(34 citation statements)

References 85 publications

(100 reference statements)

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“…Microbiological data collected from lettuce and reported in the literature provides evidence that different parts of the plant, i.e., leaves and roots support distinct microbial communities (Ibekwe and Grieve, 2004;Toju et al, 2019). While our culture based isolation of bacteria recovered a few species unique to leaves many of the isolates present on the phyllosphere were also present in the roots.…”

Section: Discussionmentioning

confidence: 49%

Microbiological and Nutritional Analysis of Lettuce Crops Grown on the International Space Station

Khodadad¹,

Hummerick²,

Spencer³

et al. 2020

Front. Plant Sci.

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Section: Discussionmentioning

confidence: 49%

Microbiological and Nutritional Analysis of Lettuce Crops Grown on the International Space Station

Khodadad¹,

Hummerick²,

Spencer³

et al. 2020

Front. Plant Sci.

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“…Previous studies indicated that plant endophytes showed significant host preferences ( Toju, Kurokawa & Kenta, 2019 ; Yao et al, 2019 ). Different plant species sharing similar environments recruit different microbial communities in roots ( Aleklett et al, 2015 ), which may be related to the metabolic characteristics of the host.…”

Section: Discussionmentioning

confidence: 99%

New insight into the divergent responses of plants to warming in the context of root endophytic bacterial and fungal communities

Wei

Jiang

Han

et al. 2021

PeerJ

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Plant adaptation under climate changes is critical to the maintenance of terrestrial ecosystem structure and function. Studying the response of the endophytic community to climate warming is a novel way to reveal the mechanism of host environmental adaptability because of the prominent role endophytes play in host nutrient acquisition and stress tolerance. However, host performance was generally neglected in previous relevant research, which limits our understanding of the relationships between the endophytic community and host responses to climate warming. The present study selected two plants with different responses to climate warming. Elymus nutans is more suitable for growing in warm environments at low altitude compared to Kobresia pygmaea. K. pygmaea and E. nutans were sampled along an altitude gradient in the natural grassland of Qinghai-Tibet Plateau, China. Root endophytic bacterial and fungal communities were analyzed using high throughput sequencing. The results revealed that hosts growing in more suitable habitats held higher endophytic fungal diversity. Elevation and host identity significantly affected the composition of the root endophytic bacterial and fungal community. 16S rRNA functional prediction demonstrated that hosts that adapted to lower temperatures recruited endophytic communities with higher abundance of genes related to cold resistance. Hosts that were more suitable for warmer and drier environments recruited endophytes with higher abundance of genes associated with nutrient absorption and oxidation resistance. We associated changes in the endophytic community with hosts adaptability to climate warming and suggested a synchronism of endophytic communities and hosts in environmental adaptation.

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“…Plant compartments/organs serve as specific nichesenvironmental surroundings that affect their growth and performance -colonized by a distinctive assemblage of microbial taxa (Muller et al, 2016;Beckers et al, 2017;Zheng and Gong, 2019). The most frequently studied plant organs are roots and leaves (Muller et al, 2016;Toju et al, 2019). Bamboo leaves and roots have different microbiota: root endophytic bacteria were dominant by Bacillus (Han et al, 2009), while the leafdwelled endophytes were mainly composed by Staphylococcus (Xu et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Niche Specialization and Functional Overlap of Bamboo Leaf and Root Microbiota

Lin

2020

Front. Microbiol.

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Leaves and roots harbor taxonomically diverse bacterial assemblages which enhance plant growth and performance by increasing nutrient supply and resistance to stress. An extensive investigation of bacterial diversity and composition between leaf and root microbiota of 15 bamboo species differing in rhizome types, lifeforms and sampling sites were conducted by high-through sequencing. The alpha diversity between leaf and root microbiota was not significantly different, whereas, their beta diversity differed remarkably. Niche specialization mainly in species from Actinobacteria was detected which prefer to colonize in roots than leaves. Community structure of leaf microbiota was highly resembled, however, the phylogeny inferred by host's chloroplast data was incongruent with microbiota dendrogram, indicating that phylosymbiosis didn't occur in bamboos and their associated microbiota. Large overlap in functional profiling of leaf and root-associated microbiota was found. Accordingly, we proposed that environmental conditions, structural variation and physiological differences between leaves and roots worked collaboratively for divergence of bamboo microbiota. This study confers to a robust knowledge of bamboo-microbe interaction and provides a list of bacterial lineages for investigation into specific plant-microbe interaction information of which could be used to enhance agricultural and forest productivity.

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Factors Influencing Leaf- and Root-Associated Communities of Bacteria and Fungi Across 33 Plant Orders in a Grassland

Cited by 58 publications

References 85 publications

Microbiological and Nutritional Analysis of Lettuce Crops Grown on the International Space Station

Microbiological and Nutritional Analysis of Lettuce Crops Grown on the International Space Station

New insight into the divergent responses of plants to warming in the context of root endophytic bacterial and fungal communities

Niche Specialization and Functional Overlap of Bamboo Leaf and Root Microbiota

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