Spatio-Temporal Variation in the Phyllospheric Microbial Biodiversity of Alternaria Alternata-Infected Tobacco Foliage

Yuan-Feng Dai; Xiao-Mao Wu; Han-Cheng Wang; Wen-Hong Li; Liu-Ti Cai; Ji-Xin Li; Feng Wang; Shafaque Sehar; Imran Haider Shamsi

doi:10.3389/fmicb.2022.920109

Spatio-Temporal Variation in the Phyllospheric Microbial Biodiversity of Alternaria Alternata-Infected Tobacco Foliage

Front Microbiol. 2022 Jul 28:13:920109. doi: 10.3389/fmicb.2022.920109. eCollection 2022.

Authors

Yuan-Feng Dai^{1

2

3}, Xiao-Mao Wu¹, Han-Cheng Wang², Wen-Hong Li⁴, Liu-Ti Cai², Ji-Xin Li⁵, Feng Wang², Shafaque Sehar⁶, Imran Haider Shamsi⁶

Affiliations

¹ Department of Plant Protection, Institute of Crop Protection, College of Agriculture, Guizhou University, Guiyang, China.
² Guizhou Provincial Academician Workstation of Microbiology and Health, Guizhou Academy of Tobacco Science, Guiyang, China.
³ Bijie Tobacco Company, Bijie, China.
⁴ Guizhou Institute of Plant Protection, Guizhou Academy of Agricultural Sciences, Guiyang, China.
⁵ Guizhou Tobacco Company of CNTC, China National Tobacco Corporation, Guiyang, China.
⁶ Zhejiang Key Laboratory of Crop Germplasm Resource, Department of Agronomy, College of Agriculture and Biotechnology, Zhejiang University, Hangzhou, China.

Abstract

Phyllospheric microbial composition of tobacco (Nicotiana tabacum L.) is contingent upon certain factors, such as the growth stage of the plant, leaf position, and cultivar and its geographical location, which influence, either directly or indirectly, the growth, overall health, and production of the tobacco plant. To better understand the spatiotemporal variation of the community and the divergence of phyllospheric microflora, procured from healthy and diseased tobacco leaves infected by Alternaria alternata, the current study employed microbe culturing, high-throughput technique, and BIOLOG ECO. Microbe culturing resulted in the isolation of 153 culturable fungal isolates belonging to 33 genera and 99 bacterial isolates belonging to 15 genera. High-throughput sequencing revealed that the phyllosphere of tobacco was dominantly colonized by Ascomycota and Proteobacteria, whereas, the most abundant fungal and bacterial genera were Alternaria and Pseudomonas. The relative abundance of Alternaria increased in the upper and middle healthy groups from the first collection time to the third, whereas, the relative abundance of Pseudomonas, Sphingomonas, and Methylobacterium from the same positions increased during gradual leaf aging. Non-metric multi-dimensional scaling (NMDs) showed clustering of fungal communities in healthy samples, while bacterial communities of all diseased and healthy groups were found scattered. FUNGuild analysis, from the first collection stage to the third one in both groups, indicated an increase in the relative abundance of Pathotroph-Saprotroph, Pathotroph-Saprotroph-Symbiotroph, and Pathotroph-Symbiotroph. Inclusive of all samples, as per the PICRUSt analysis, the predominant pathway was metabolism function accounting for 50.03%. The average values of omnilog units (OUs) showed relatively higher utilization rates of carbon sources by the microbial flora of healthy leaves. According to the analysis of genus abundances, leaf growth and leaf position were the important drivers of change in structuring the microbial communities. The current findings revealed the complex ecological dynamics that occur in the phyllospheric microbial communities over the course of a spatiotemporal varying environment with the development of tobacco brown spots, highlighting the importance of community succession.

Keywords: Alternaria alternata; biolog-eco; high-throughput sequencing; microbial community; microbial functional diversity; tobacco brown spot.