海拔梯度和化学参数对半干旱山区土壤细菌多样性变化的影响

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-10-01 Epub Date: 2023-11-23 DOI:10.1007/s12275-023-00085-x
Salman Khan, Chun Han, Awais Iqbal, Chao Guan, Changming Zhao
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引用次数: 0

摘要

海拔梯度通常被视为“自然实验或实验室”,可用于研究与环境条件变化有关的微生物多样性分布的变化,这些变化通常发生在小地理尺度上。我们使用MiSeq测序获得细菌序列,并将其聚类为操作分类单位(otu)。细菌16S rRNA测序分析获得的总reads数为1,090,555,从不同海拔采集的每个样本平均约为45,439。目前的研究发现,从海拔最低到最高的样品中细菌多样性模式不一致。983个otu在各海拔均有分布。在海拔2的土壤样品中发现了最独特的otu,其次是海拔1。在海拔_6处采集的土壤样品的独特otu最少。放线菌、原细菌、绿菌是目前研究中数量最多的细菌门类。铵态氮(NH4+-N)和总磷(TP)是影响海拔高度细菌多样性的主要因素1。pH是影响海拔s_2、海拔_3和海拔_4细菌多样性的主要因素。本研究结果为研究沿海拔梯度形成和维持土壤微生物多样性提供了新的思路,并对半干旱山地生态系统中微生物对环境变化的响应具有重要意义。
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Impact of Elevational Gradients and Chemical Parameters on Changes in Soil Bacterial Diversity Under Semiarid Mountain Region.

Elevation gradients, often regarded as "natural experiments or laboratories", can be used to study changes in the distribution of microbial diversity related to changes in environmental conditions that typically occur over small geographical scales. We obtained bacterial sequences using MiSeq sequencing and clustered them into operational taxonomic units (OTUs). The total number of reads obtained by the bacterial 16S rRNA sequencing analysis was 1,090,555, with an average of approximately 45,439 reads per sample collected from various elevations. The current study observed inconsistent bacterial diversity patterns in samples from the lowest to highest elevations. 983 OTUs were found common among all the elevations. The most unique OTUs were found in the soil sample from elevation_2, followed by elevation_1. Soil sample collected at elevation_6 had the least unique OTUs. Actinobacteria, Protobacteria, Chloroflexi were found most abundant bacterial phyla in current study. Ammonium nitrogen (NH4+-N), and total phosphate (TP) are the main factors influencing bacterial diversity at elevations_1. pH was the main factor influencing the bacterial diversity at elevations_2, elevation_3 and elevation_4. Our results provide new visions on forming and maintaining soil microbial diversity along an elevational gradient and have implications for microbial responses to environmental change in semiarid mountain ecosystems.

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CiteScore
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自引率
4.30%
发文量
567
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