Bacterial diversity of herbal rhizospheric soils in Ordos desert steppes under different degradation gradients

Yuefeng Guo; Dan Zhang; Wei Qi

doi:10.7717/peerj.16289

Bacterial diversity of herbal rhizospheric soils in Ordos desert steppes under different degradation gradients

PeerJ. 2023 Nov 1:11:e16289. doi: 10.7717/peerj.16289. eCollection 2023.

Authors

Yuefeng Guo¹, Dan Zhang¹, Wei Qi²

Affiliations

¹ College of Desert Control Science and Engineering, Inner Mongolia Agricultural University, Hohhot, Inner Mongolia, Asia, China.
² Inner Mongolia Autonomous Region Water Conservancy Development Center, Hohot, Inner Mongolia, Asia, China.

Abstract

Objectives: This study explored the effects of different degradation gradients on bacterial diversity in the rhizospheric soils of herb plants.

Methods: The alpha diversity, species composition and correlations of bacterial communities in the rhizospheric soils of herb plants were studied using metagenomics 16SrDNA gene high-throughput sequencing.

Results: The diversity of bacterial communities in the rhizospheric soils of herb plants differed during the degradation of desert steppes. An analysis of bacterial community alpha diversity indices showed the bacterial diversity and species evenness of rhizospheric soils were best in moderately degraded desert steppes. Among all samples, a total of 43 phyla, 133 classes, 261 orders, 421 families, 802 genera and 1,129 species were detected. At the phylum level, the predominant bacterial phyla were: Actinobacteria, Proteobacteria, Acidobacteria, Gemmatimonadetes, Chloroflexi, Planctomycetes and Bacteroidetes. At the genus level, the predominant bacterial genera were: RB41, Sphingomonas, WD2101_soil_group_unclassified, Pseudomonas and Actinomyces. The relative abundance of unknown genera was very large, which deserves further research. At the phylum and genus levels, the species abundance levels under slight and moderate degradation were significantly higher than those under extreme degradation. Correlation network diagrams showed there were many nodes in both slightly deteriorated and moderately deteriorated soils, and the node proportions were large and mostly positively correlated. These results indicate the bacterial communities in rhizospheric soils under slight or moderate deterioration are relatively stable. The rhizospheric soil microbes of desert steppes can form a stable network structure, allowing them to adequately respond to environmental conditions.

Conclusions: The bacterial communities in the rhizospheric soils of herb plants differ between different degradation gradients. The species number, abundance and diversity of bacterial communities in rhizospheric soils are not directly correlated with degree of degradation. The abundance, species diversity and species abundance of bacterial communities in the rhizospheric soils of moderately degraded desert steppes are the highest and most stable. The soil bacterial diversity is lowest in severely degraded desert steppes.

Keywords: 16SrDNA; Degradation gradient of desert steppes; Diversity of bacterial communities; Rhizospheric soil.

MeSH terms

Acidobacteria / genetics
Bacteria / genetics
Humans
Plants
Proteobacteria / genetics
Rhizosphere*
Soil* / chemistry

Substances

Soil

Grants and funding

This work was supported by the Ordos Science and Technology Cooperation Key Project (2021EEDSCXQDFZ011); the Inner Mongolian Autonomous Region Directly Affiliated Universities Basic Scientific Research Operating Expenses Project (BR22-15-01); the Autonomous Region Application Technology Research and Development Fund Program (2021GG0085); and the Natural Science Foundation of Inner Mongolian Autonomous Region (2022MS03029). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.