Soil P-stimulating bacterial communities: response and effect assessment of long-term fertilizer and rhizobium inoculant application.

IF 6.2 2区环境科学与生态学 Q1 GENETICS & HEREDITY Environmental Microbiome Pub Date : 2024-11-07 DOI:10.1186/s40793-024-00633-x

Wanling Wei, Mingchao Ma, Xin Jiang, Fangang Meng, Fengming Cao, Huijun Chen, Dawei Guan, Li Li, Jun Li

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Abstract

Background: Phosphorus (P) plays a vital role in plant growth. The pqqC and phoD genes serve as molecular markers for inorganic and organic P breakdown, respectively. However, the understanding of how P-mobilizing bacteria in soil respond to long-term fertilization and rhizobium application is limited. Herein, soil that had been treated with fertilizer and rhizobium for 10 years was collected to investigate the characteristics of P-mobilizing bacterial communities. Five treatments were included: no fertilization (CK), phosphorus fertilizer (P), urea + potassium fertilizer (NK), NPK, and PK + Bradyrhizobium japonicum 5821 (PK + R).

Results: The soybean nodule dry weight was highest in the P treatment (1.93 g), while the soybean yield peaked in the PK + R treatment (3025.33 kg ha^- 1). The abundance of the pqqC gene increased in the rhizosphere soil at the flowering-podding stage and in the bulk soil at the maturity stage under the P treatment, while its abundance increased in the bulk soil at the flowering-podding stage and in the rhizosphere soil at the maturity stage under the PK + R treatment. The abundance of the phoD gene was enhanced in the bulk soil at the flowering-podding stage under the PK + R treatment. The Shannon and Ace indexes of pqqC- and phoD-harboring bacteria were higher in the rhizosphere soil at maturity under the PK + R treatment compared to other treatments. Furthermore, a comprehensive analysis of the neutral community model and co-occurrence pattern demonstrated that the application of P fertilizer alone led to an increase in the distribution and dynamic movement of pqqC-harboring bacteria, but resulted in a decrease in complexity of network structure. On the other hand, rhizobium inoculation enhanced the distribution and dynamic movement of phoD-harboring bacteria, as well as the stability and complexity of the network structure. Pseudomonas and Nitrobacter, as well as Steptomyces, Stella, and Nonomuraea, may be crucial genera regulating the composition and function of pqqC- and phoD-harboring communities, respectively.

Conclusions: These findings affirm the crucial role of fertilization and rhizobium inoculation in regulating pqqC- and phoD-harboring bacterial communities, and highlight the significance of long-term phosphate-only fertilization and rhizobium inoculation in enhancing dissolved inorganic phosphorus and mineralized organophosphorus, respectively.

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土壤钾刺激细菌群落：长期施用肥料和根瘤菌接种剂的反应和效果评估。

背景：磷（P）在植物生长中起着至关重要的作用。pqqC 和 phoD 基因分别是无机磷和有机磷分解的分子标记。然而，人们对土壤中的钾移动细菌如何对长期施肥和施用根瘤菌做出反应的了解还很有限。本文收集了经过 10 年施肥和根瘤菌处理的土壤，以研究钾动员细菌群落的特征。试验包括五个处理：不施肥（CK）、磷肥（P）、尿素+钾肥（NK）、氮磷钾（NPK）、PK+日本农杆菌 5821（PK+R）：结果：P 处理的大豆结核干重最高（1.93 克），而 PK + R 处理的大豆产量最高（3025.33 千克/公顷-1）。在 P 处理中，pqqC 基因在开花结荚期根瘤土壤和成熟期块根土壤中的丰度增加，而在 PK + R 处理中，pqqC 基因在开花结荚期块根土壤和成熟期根瘤土壤中的丰度增加。在 PK + R 处理下，phoD 基因在开花结荚期块状土壤中的丰度增加。与其他处理相比，PK + R 处理下成熟期根瘤土壤中 pqqC 和 phoD 侵染细菌的香农指数和 Ace 指数较高。此外，对中性群落模型和共生模式的综合分析表明，只施用 P 肥料会导致 pqqC-arboring 细菌的分布和动态移动增加，但导致网络结构的复杂性降低。另一方面，接种根瘤菌增强了 phoD-arboring 细菌的分布和动态移动，以及网络结构的稳定性和复杂性。假单胞菌和硝化细菌以及担子菌、斯特拉菌和野野村菌可能是分别调节 pqqC- 和 phoD- 讨厌群落的组成和功能的关键菌属：这些研究结果肯定了施肥和接种根瘤菌在调节 pqqC- 和 phoD- 讨厌细菌群落中的关键作用，并强调了长期只施磷肥和接种根瘤菌分别在提高溶解无机磷和矿化有机磷方面的意义。

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

Environmental Microbiome Immunology and Microbiology-Microbiology

CiteScore

7.40

自引率

2.50%

发文量

审稿时长

13 weeks

期刊介绍： Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.