Rhizosphere bacterial community is mainly determined by soil environmental factors, but the active bacterial diversity is mainly shaped by plant selection.

IF 4 2区 生物学 Q2 MICROBIOLOGY BMC Microbiology Pub Date : 2024-11-05 DOI:10.1186/s12866-024-03611-y
Yalong Xu, Jingjing Li, Chan Qiao, Jinchu Yang, Juan Li, Xueao Zheng, Chen Wang, Peijian Cao, Yan Li, Qiansi Chen
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Abstract

Background: The assembly of the rhizosphere community, even the diazotroph community, is mainly shaped by soil environmental factors (including soil climate and physiochemical characteristics) and plant selection. To better understand the driving forces on the active overall and nitrogen-fixing bacterial community compositions, we characterized the communities of tobacco rhizosphere soil collected from three sampling sites with a large geographic scale (> 600 km).

Results: The results indicate that the diversity and community composition of the overall bacterial and diazotroph communities are obviously differed according to the sampling sites. Still, no significant difference is found between the communities in rootzone and rhizosphere samples. Climate variables including mean annual precipitation (MAP) and mean annual temperature (MAT), soil physiochemical characteristics including available nitrogen (AN), available potassium (AK) and pH are main factors that affect the bacterial and diazotroph community structures in the three sampling sites. Furthermore, MAP and MAT, AN and available phosphorus (AP), total nitrogen (TN) and organic carbon (OC), AK and electrical conductivity (EC) showed similar effects, but pH showed independent effect on the composition of the overall bacteria and diazotroph communities. However, the alpha diversity indices of active overall and nitrogen-fixing bacteria in the rhizosphere are obviously higher than in the rootzone samples, and no significant differences are observed among different sampling sites. Proteobacteria is the predominant active phylum of all samples for overall and nitrogen-fixing bacteria. Escherichia-Shigella, Achromobacter, Streptomyces and Sphingomonas are the dominant active bacterial genera, and Bradyrhizobium, Skermanella and Extensimonas are dominant active nitrogen-fixing bacteria genera in rhizosphere. Furthermore, the high active abundance of Escherichia-Shigella but low abundance of Ralstonia in all three sampling sites indicate high root-knot nematode infection and low wilt disease endemic risk.

Conclusion: These results indicate that soil environmental factors contribute more to the tobacco rhizosphere bacterial community assemblage, but the rhizosphere contributes more to the diversity of active overall bacteria and nitrogen-fixing bacteria in the community. Our study provides novel knowledge for the assemble of rhizosphere bacterial and active bacteria communities across a large geographical scale.

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根瘤菌群落主要由土壤环境因素决定,但活性细菌多样性主要由植物选择决定。
背景:根瘤菌群落(甚至重氮营养群落)的组成主要受土壤环境因素(包括土壤气候和理化特性)和植物选择的影响。为了更好地了解活性细菌群落和固氮细菌群落组成的驱动力,我们对从三个地理尺度较大(大于 600 km)的采样点采集的烟草根圈土壤群落进行了表征:结果表明,不同采样点的整体细菌群落和重氮细菌群落的多样性和群落组成存在明显差异。不过,根区和根圈样本中的群落并无明显差异。年平均降水量(MAP)和年平均气温(MAT)等气候变量、可利用氮(AN)、可利用钾(AK)和 pH 值等土壤理化特征是影响三个采样点细菌和重氮营养群落结构的主要因素。此外,MAP 和 MAT、AN 和可利用磷(AP)、总氮(TN)和有机碳(OC)、可利用钾(AK)和电导率(EC)显示出相似的影响,但 pH 对整个细菌和斜营养群落的组成显示出独立的影响。然而,根瘤菌群中活跃的整体细菌和固氮菌的α多样性指数明显高于根区样本,且不同采样点之间无显著差异。在所有样本中,蛋白质细菌是总体和固氮菌中最主要的活性门。根圈中的优势活性菌属有石蒜 杆菌、 Achromobacter、链霉菌和 Sphingomonas,优势固氮菌属有 Bradyrhizobium、Skermanella 和 Extensimonas。此外,在所有三个采样点中,Escherichia-Shigella 的活性丰度较高,而 Ralstonia 的丰度较低,这表明根结线虫感染率较高,枯萎病流行风险较低:这些结果表明,土壤环境因素对烟草根圈细菌群落的组合贡献更大,但根圈对群落中活性细菌和固氮菌的多样性贡献更大。我们的研究为大地理范围内根圈细菌和活性细菌群落的组合提供了新的知识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Microbiology
BMC Microbiology 生物-微生物学
CiteScore
7.20
自引率
0.00%
发文量
280
审稿时长
3 months
期刊介绍: BMC Microbiology is an open access, peer-reviewed journal that considers articles on analytical and functional studies of prokaryotic and eukaryotic microorganisms, viruses and small parasites, as well as host and therapeutic responses to them and their interaction with the environment.
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