Assessment of microbial diversity in various saline soils driven by salt content

IF 2 3区 农林科学 Q3 ECOLOGY Pedobiologia Pub Date : 2024-09-11 DOI:10.1016/j.pedobi.2024.150997
Dan Liu , Panpan Gao , Jiahe Niu , Zhaoqi Qu , Songnian Guo , Chenxiao Ding , Yanhong Lou , Quangang Yang , Hui Wang , Zhongchen Yang , Hongjie Di , Hong Pan , Yuping Zhuge
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Abstract

The Yellow River Delta, as an important reserve land resource area, faces soil salinization problems. Understanding the bacterial community composition in saline soils is an important foundation for control and utilization of saline soils. However, few studies have been conducted on the composition of bacterial communities in soils with different degrees of salinization. Thus, saline soils categorized into low-salinity (LS), medium-salinity (MS), and high-salinity (HS) based on electrical conductivity (EC) were collected. The 16S rRNA high-throughput sequencing analysis was performed to analyze the effects of salinities on soil bacterial community patterns, as well as the relationships between soil bacterial communities and environmental factors. The results showed that Actinobacteriota, Proteobacteria, Chloroflexi, Firmicutes, Acidobacteriota, Gemmatimonadota and Bacteroidota accounted for almost 90 % of all the bacterial community. The linear discriminant analysis effects (LDA > 3.7) showed that 6, 5 and 3 biomarkers were present in LS, MS and HS soils, respectively, which indicated EC was an important factor influencing the saline soil bacterial community patterns. Redundancy analysis further revealed that the primary environmental parameters impacting the bacterial community were pH, EC, nitrate nitrogen, available phosphorus, total phosphorus, and soil organic matter. According to network analysis, the microbial network complexity was increased steadily with increasing of soil salinity. These findings together revealed that bacterial communities could serve as a reliable way to assess and improve the quality of salinized soils.

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由含盐量驱动的各种盐碱地微生物多样性评估
黄河三角洲作为重要的后备土地资源区,面临着土壤盐碱化问题。了解盐碱土壤中的细菌群落组成是控制和利用盐碱土壤的重要基础。然而,关于不同盐碱化程度土壤中细菌群落组成的研究却很少。因此,我们收集了根据导电率(EC)分为低盐度(LS)、中盐度(MS)和高盐度(HS)的盐碱土。通过 16S rRNA 高通量测序分析了盐度对土壤细菌群落模式的影响,以及土壤细菌群落与环境因素之间的关系。结果表明,放线菌群、变形菌群、绿僵菌群、腐生菌群、酸性菌群、革囊菌群和类杆菌群占细菌群落总数的近 90%。线性判别分析效应(LDA > 3.7)显示,LS、MS 和 HS 土壤中分别存在 6、5 和 3 个生物标记,这表明 EC 是影响盐碱地细菌群落模式的重要因素。冗余分析进一步表明,影响细菌群落的主要环境参数是 pH 值、EC 值、硝酸盐氮、可利用磷、总磷和土壤有机质。根据网络分析,随着土壤盐度的增加,微生物网络的复杂性也在稳步上升。这些发现共同揭示了细菌群落可以作为评估和改善盐渍化土壤质量的可靠方法。
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来源期刊
Pedobiologia
Pedobiologia 环境科学-生态学
CiteScore
4.20
自引率
8.70%
发文量
38
审稿时长
64 days
期刊介绍: Pedobiologia publishes peer reviewed articles describing original work in the field of soil ecology, which includes the study of soil organisms and their interactions with factors in their biotic and abiotic environments. Analysis of biological structures, interactions, functions, and processes in soil is fundamental for understanding the dynamical nature of terrestrial ecosystems, a prerequisite for appropriate soil management. The scope of this journal consists of fundamental and applied aspects of soil ecology; key focal points include interactions among organisms in soil, organismal controls on soil processes, causes and consequences of soil biodiversity, and aboveground-belowground interactions. We publish: original research that tests clearly defined hypotheses addressing topics of current interest in soil ecology (including studies demonstrating nonsignificant effects); descriptions of novel methodological approaches, or evaluations of current approaches, that address a clear need in soil ecology research; innovative syntheses of the soil ecology literature, including metaanalyses, topical in depth reviews and short opinion/perspective pieces, and descriptions of original conceptual frameworks; and short notes reporting novel observations of ecological significance.
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