| Literature DB >> 31293554 |
Junjie Liu1, Xiao Cui1,2, Zhuxiu Liu1,3, Zhaokui Guo4, Zhenhua Yu1, Qin Yao1, Yueyu Sui1, Jian Jin1, Xiaobing Liu1, Guanghua Wang1.
Abstract
Bacillus-like species are gram-positive bacteria that are ubiquitous in soils. Many of Bacillus-like bacteria are demonstrated as beneficial microbes widely used in industry and agriculture. However, the knowledge related to their diversity and distribution patterns in soils is still rudimentary. In this study, we developed a combined research method of using culture-dependent and high-throughput sequencing to investigate the composition and diversity of cultivable Bacillus-like bacterial communities across 26 soil samples obtained from the black soil zone in northeast China. Nearly all bacterial 16S rDNA sequences were classified into the order Bacillales. Fifteen genera were detected, with Bacillus, Paenibacillus, and Brevibacillus being the three most abundant genera. Although more than 2,000 OTUs were obtained across all samples, 33 OTUs were confirmed as the abundant species with a relative abundance over 5% in at least one sample. Pairwise analysis showed that the diversity of Bacillus-like bacterial communities were significantly and positively correlated with soil total carbon contents and soil sampling latitudes, which suggests that a latitudinal gradient diversity of Bacillus-like bacterial communities exists in the black soil zone. The principal coordinates analysis revealed that the Bacillus-like bacterial communities were remarkably affected by soil sampling latitudes and soil total carbon content. In general, this study demonstrated that a distinct biogeographic distribution pattern of cultivable Bacillus-like bacterial communities existed in the black soil zone, which emphasizes that the strategy of local isolation and application of beneficial Bacillus-like strains is rather important in black soil agriculture development.Entities:
Keywords: Bacillus; Illumina MiSeq sequencing; Mollisols; biogeographic distribution; principal coordinates analysis
Year: 2019 PMID: 31293554 PMCID: PMC6598460 DOI: 10.3389/fmicb.2019.01424
Source DB: PubMed Journal: Front Microbiol ISSN: 1664-302X Impact factor: 5.640
FIGURE 1Relative abundances of the dominant Bacillus-like bacterial groups at genus level. Relative abundances are based on the proportional frequencies of the Bacillus-like bacterial sequences that could be classified.
FIGURE 2Neighbor-joining phylogenetic tree showing the relationships of the representative sequences of 33 abundant OTUs of Bacillus-like bacterial communities obtained from the black soils. The numbers in the parentheses behind each OTU represents the average abundance of the OTU and the identity between the OTUs and the closest reference bacteria, and the numbers in the parentheses of reference bacterial strains indicate the accession numbers in the NCBI website.
FIGURE 3Maps showing alpha diversity of phylotype richness (OTUs) (A), and phylogenetic diversity (B) in 26 samples across the black soil zone.
FIGURE 4The linear relationships between the phylotype richness (OTUs), phylogenetic diversity (PD) and soil carbon content and latitudes.
FIGURE 5Principal coordinate analysis of Bacillus-like bacterial communities based on the unweighted pairwise UniFrac community distances between sites (A). The linear relationships between the PCoA1 score and latitude (B).
FIGURE 6Cluster analysis of Bacillus-like bacterial communities based on the Bray-Curtis distance matrix. The letters represent the sample location across the black soil zone. Such as CT1 and CT2 represent the locations of Cangtu 1 and Cangtu 2 from Liaoning Province, respectively, and additional detailed information for each sample location was shown in Supplementary Table S1.