期刊
JOURNAL OF MARINE SCIENCE AND ENGINEERING
卷 10, 期 6, 页码 -出版社
MDPI
DOI: 10.3390/jmse10060730
关键词
bacterial community; green rot disease; Saccharina japonica; seedlings
资金
- AGRICULTURE RESEARCH SYSTEM [CARS-50]
- FUNDAMENTAL RESEARCH FUNDS FOR THE CENTRAL UNIVERSITIES [202064006]
- SHANDONG PROVINCIAL NATURAL SCIENCE FOUNDATION, CHINA [ZR2019BD060]
- AGRICULTURE RESEARCH SYSTEM
This study analyzed the bacterial communities associated with GRD-infected seedlings in two hatcheries in Northern China and found different abundances of bacterial taxa associated with seedlings of varying disease severity. Predicted bacterial functions also differed between seedlings with mild and severe disease.
Bacteria are one of the causes of green rot disease (GRD) in Saccharina japonica mariculture, which may lead to complete failure of seedling production. However, the association between bacterial community and host disease severity remains largely unknown. Therefore, in this study, the bacterial communities associated with GRD-infected seedlings with naturally varying disease severity from two seedling hatcheries in Northern China were analyzed to investigate the interactions between bacterial communities and GRD. The results indicated incorrect nutrient supply in both sites. Gammaproteobacteria, Alphaproteobacteria, and Bacteroidetes were prevalent in all samples. Significant structural alterations were detected for epibacterial communities, which were further evidenced by differently abundant bacterial taxa associated with seedlings with varying disease severity. The predicted pathways of bacterial adhesion and antimicrobial compounds biosynthesis were significantly enriched in less severely diseased seedlings, whereas glutathione metabolism and lipopolysaccharide biosynthesis were significantly increased in more severely diseased seedlings. The predicted categories of a two-component system, flagellar assembly, bacterial chemotaxis, and biofilm formation were significantly enriched in the bacterioplankton in more severely infected seawater. The differential bacterial community compositions and predicted functions provide new clues to elucidate the mechanism underlying the interaction between GRD occurrence and bacterial communities.
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