烟草种植土壤中细菌群落结构对不同磷添加量的响应

Response of bacterial community structure to different phosphorus additions in a tobacco-growing soil.

作者信息

Zhou Beibei, Cheng Shiqian, Peng Shuang, Li Wenqing, Li Chunying, Wang Qianqian, Wang Yiming, Guo Jinping

机构信息

School of Environment and Ecology, Jiangsu Open University, Nanjing, China.

State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences, Nanjing, China.

出版信息

Front Plant Sci. 2024 Mar 7;15:1344733. doi: 10.3389/fpls.2024.1344733. eCollection 2024.

DOI:10.3389/fpls.2024.1344733

PMID:38516665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10954889/

Abstract

INTRODUCTION

Phosphorus (P), which plays a vital role in plant growth, is continually added to soil to maximize biomass production, leading to excessive P accumulation and water eutrophication.

RESULTS

In this study, a pot experiment using a subtropical tobacco-growing soil fertilized with four P levels-no P, low P, medium P, and high P-was conducted and rhizosphere and bulk soils were analyzed.

RESULTS

P addition significantly increased tobacco biomass production (except under low P input) and total soil P and available P content (<0.05), whereas total nitrogen content decreased in the rhizosphere soils, although this was only significant with medium P application. P fertilization also significantly altered the bacterial communities of rhizosphere soils (<0.05), but those of bulk soils were unchanged (>0.05). Moreover, a significant difference was found between rhizosphere soils with low (LR) and high (HR) P inputs (<0.05). Additionally, compared with rhizosphere soils with no P (CKR), Shannon diversity showed a declining trend, which was significant with LR and HR (<0.05), whereas an increasing tendency was observed for Chao1 diversity except in LR (>0.05). Functional prediction revealed that P application significantly decreased the total P and N metabolism of microorganisms in rhizosphere soils (<0.05).

DISCUSSION

Collectively, our results indicate that maintaining sustainable agricultural ecosystems under surplus P conditions requires more attention to be directed toward motivating the potential of soil functional microbes in P cycling, rather than just through continual P input.

摘要

引言

磷（P）在植物生长中起着至关重要的作用，人们不断向土壤中添加磷以实现生物量生产最大化，这导致了磷的过量积累和水体富营养化。

结果

在本研究中，利用亚热带烟草种植土壤进行了盆栽试验，设置了四个磷水平——不施磷、低磷、中磷和高磷——并对根际土壤和非根际土壤进行了分析。

结果

施磷显著提高了烟草生物量产量（低磷输入条件下除外）以及土壤总磷和有效磷含量（<0.05），而根际土壤中的总氮含量有所下降，不过仅在施中磷时这一变化具有显著性。施磷还显著改变了根际土壤的细菌群落（<0.05），但非根际土壤的细菌群落未发生变化（>0.05）。此外，低磷（LR）和高磷（HR）输入的根际土壤之间存在显著差异（<0.05）。另外，与不施磷的根际土壤（CKR）相比，香农多样性呈下降趋势，在LR和HR条件下具有显著性（<0.05），而Chao1多样性呈增加趋势，LR条件下除外（>0.05）。功能预测表明，施磷显著降低了根际土壤中微生物的总磷和氮代谢（<0.05）。

讨论

总体而言，我们的结果表明，在磷过剩条件下维持可持续农业生态系统需要更多关注激发土壤功能微生物在磷循环中的潜力，而不仅仅是通过持续施磷。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1b34/10954889/55b2755a0a23/fpls-15-1344733-g001.jpg

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烟草种植土壤中细菌群落结构对不同磷添加量的响应

Response of bacterial community structure to different phosphorus additions in a tobacco-growing soil.

作者信息

机构信息

出版信息

INTRODUCTION

RESULTS

RESULTS

DISCUSSION

引言

结果

结果

讨论

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