Potato soil core microbiomes are regionally variable across the continental US

IF 3.3 3区 生物学 Q2 MICROBIOLOGY Phytobiomes Journal Pub Date : 2023-10-19 DOI:10.1094/pbiomes-07-23-0060-r
Scott Klasek, James Crants, Touqeer Abbas, Katherine A. Ashley, Marian Bolton, Madelyn Celovsky, Neil Gudmestead, Jianjun Hao, Jorge Ibarra Caballero, Courtney Jahn, Gilbert Kamgan Nkuekam, Richard Lankau, Robert Larkin, Eglantina Lopez Echartea, Jeff S. Miller, Amber Moore, Julie Sherman Pasche, Matthew Ruark, Brenda K. Schroeder, Shan Shan, Victoria Skillman, Ali Srour, Anna Stasko, Kurt Steinke, Jane E. Stewart, Mike Thornton, Kimberly Zitnick-Anderson, Kenneth Frost, Carl Rosen, Linda Kinkel
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Abstract

Soil microbiomes play crucial roles in pathogen suppression, nutrient mobilization, and maintenance of plant health. Their complexity and variability across spatial and temporal scales provide challenges for identifying common targets–microbial taxa or assemblages–for management in agricultural systems. To understand how microbiomes in potato production soils vary across growing regions and identify commonly distributed taxa among them, we compiled a continental-scale bacterial and eukaryotic amplicon dataset of over 1300 communities with corresponding edaphic measurements from nine US field sites. Field site explained most of the variance across bacterial and eukaryotic (predominantly fungal) communities, while pH, organic matter, and NPK concentrations also varied with community structure. Bacterial and eukaryotic potato soil microbiomes show consistent phylum-level composition across locations at the continental scale, with regional-scale differences evident among genera and amplicon sequence variants (ASVs). Core community analysis identified 606 bacterial and 74 eukaryotic ASVs that were present, but unequally distributed, across all nine field sites. Many of these core ASVs belong to common soil genera, such as Bacillus and Mortierella, which may reveal functional potential involved in maintaining soil health across regionally variable soil systems.
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马铃薯土壤核心微生物群在美国大陆是区域可变的
土壤微生物群在抑制病原菌、调动养分和维持植物健康方面发挥着重要作用。它们在空间和时间尺度上的复杂性和可变性为确定农业系统管理的共同目标(微生物类群或组合)带来了挑战。为了了解马铃薯生产土壤中微生物组在不同种植区之间的差异,并确定其中常见的分类群,我们编制了一个大陆尺度的细菌和真核扩增子数据集,其中包括来自美国9个田间站点的1300多个群落,并进行了相应的土壤测量。田间地点解释了细菌和真核生物(主要是真菌)群落之间的大部分差异,而pH、有机质和氮磷钾浓度也随群落结构而变化。在大陆尺度上,细菌和真核马铃薯土壤微生物组在不同地点显示一致的门水平组成,在属和扩增子序列变异(asv)之间存在明显的区域尺度差异。核心群落分析鉴定出606种细菌和74种真核asv,但分布不均匀。这些核心asv中有许多属于常见的土壤属,如芽孢杆菌和摩氏菌,这可能揭示了在区域可变土壤系统中维持土壤健康的功能潜力。
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来源期刊
CiteScore
7.40
自引率
6.80%
发文量
42
审稿时长
4 weeks
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