Nitrate Nitrogen and pH Correlate with Changes in Rhizosphere Microbial Community Assemblages during Invasion of Ambrosia artemisiifolia and Bidens pilosa

The rhizosphere of invasive plants presumably develops different soil microbial assemblages compared with native plants, which may hinder or promote their invasion. However, to date, no studies have clearly explored rhizosphere microbial community assemblages during invasion. The invasive species Am...

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Published in:Microbiology spectrum 2023-02, Vol.11 (1), p.e0364922-e0364922
Main Authors: Wang, Liting, Li, Qiao, Li, Chunying, Wu, Chunpeng, Chen, Fengxin, Chen, Xue, Zhang, Fengjuan
Format: Article
Language:English
Subjects:
Ambrosia
Bidens
Hydrogen-Ion Concentration
Introduced Species
invasive Asteraceae plants
Microbial Ecology
Microbiota
Nitrates
Nitrogen
NO3-N
Plants
Research Article
Rhizosphere
rhizosphere soil microbial assemblages
Soil - chemistry
Soil Microbiology
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Summary:The rhizosphere of invasive plants presumably develops different soil microbial assemblages compared with native plants, which may hinder or promote their invasion. However, to date, no studies have clearly explored rhizosphere microbial community assemblages during invasion. The invasive species Ambrosia artemisiifolia L. and Bidens pilosa L. are widely distributed in China and are known to reduce local biodiversity and cause agricultural losses. Monoculture of A. artemisiifolia or B. pilosa, a mixture of each invasive and native species, and monoculture of native species were established to simulate different degrees of invasion. Metagenomic sequencing techniques were used to test microbial community structure and function. The aim was to explore the drivers of the assembly of peculiar functional microbes in the rhizosphere soil of invasive species during the long-term invasive-native species interaction. Compared with the native species, the relative abundance of 34 microbial genera was higher in the rhizosphere soil of the invasive species. The NO -N concentration in the rhizosphere soil from the and monocultures was lower than that from monocultures of the three native plants, whereas pH followed the opposite trend. The NO -N concentration was significantly and negatively correlated with , , , and . pH was positively correlated with , , , , , and . The differences in soil microbes, NO -N concentrations, and pH between native and invasive species suggest that the rhizosphere soil microbial assemblages may vary. The reduced NO -N concentration and increased pH corelated with changes in rhizosphere microbial community during and invasion. Soil microbial communities play a vital role in the growth of invasive plants. Invasive species may shape peculiar functional microbes in the rhizosphere soil of an invasive species to benefit its growth. However, the drivers of the assembly of soil microbial communities in the rhizosphere soil of invasive species remain unclear. Our study established the relationship between soil microbial communities and soil chemical properties during invasion by and . Additionally, it showed that the presence of the invasive plants correlated with changes in NO -N and pH, as well as in rhizosphere microbial community assemblage. Furthermore, the study provided important insights into the difference in the microbial community assembly between native and invasive plant species.
ISSN:2165-0497
2165-0497
DOI:10.1128/spectrum.03649-22