Details

Autor(en) / Beteiligte

• Li, Tai
• Wang, Meihui
• Cui, Rufei
• Li, Bingchen
• Wu, Tong
• Liu, Yonglong
• Geng, Gui
• Xu, Yao
• Wang, Yuguang

Titel

Waterlogging stress alters the structure of sugar beet rhizosphere microbial community structure and recruiting potentially beneficial bacterial

Ist Teil von

• Ecotoxicology and environmental safety, 2023-09, Vol.262, p.115172-115172, Article 115172

Ort / Verlag

Netherlands: Elsevier Inc

Erscheinungsjahr

2023

Quelle

EZB Electronic Journals Library

Beschreibungen/Notizen

• Waterlogging has been shown to have a significant inhibitory effect on plant growth. However, the response mechanisms of the soil environment of sugar beet seedlings under waterlogging conditions still need to be fully understood. This study aimed to investigate the effects of waterlogging treatments on the content of effective nutrients and the microbial communities in the rhizosphere and non-rhizosphere using high-throughput sequencing. We set up waterlogging and non-waterlogging treatments, sampled sugar beet seedlings after 10 days of waterlogging, determined the effective soil nutrients in the rhizosphere and non-rhizosphere of the plants, and analyzed the differences in microbial diversity at ten days of waterlogging. The results showed that waterlogging significantly affected available potassium (AK) content. The Ak content of waterlogged soil was significantly higher than that of non-waterlogged soil. Waterlogging caused no significant difference in available nitrogen (AN) content and pH. Moreover, the plant growth-promoting bacteria Pseudomonas was significantly enriched in sugar beet waterlogged rhizospheres compared with the non-waterlogged ones. Similarly, the harmful fungi Gibellulopsis and Alternaria were enriched in sugar beet non-waterlogged rhizosphere. The network analysis revealed that waterlogging built a less complex root-microbial network than non-waterlogging. These findings implied that sugar beets subjected to waterlogging stress were enriched with beneficial microorganisms in the rhizosphere, potentially alleviating the stress. [Display omitted] •Potential beneficial bacteria enrichment in the rhizosphere of sugar beet under waterlogging stress.•Significant changes in rhizosphere microbial community diversity of sugar beet under waterlogging stress.•Network analysis revealed that waterlogging built a less complex root-microbial network than non-waterlogging.•Significant changes in soil physicochemical properties under waterlogging stress.