The regulation of tobacco growth under preceding crop planting: insights from soil quality, microbial communities, and metabolic profiling

The regulation of tobacco growth under preceding crop planting: insights from soil quality, microbial communities, and metabolic profiling

IntroductionSpecific microorganisms and metabolites in soil play key roles in regulating organismal behavior. Currently, the effects of different preceding crops on the rhizosphere soil quality of flue-cured tobacco remain unclear.MethodsFour treatments were compared in the study: fallow + tobacco (...

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Main Authors: Peiyan Zhao, Houfa Zhou, Xiaolin Liao, Leifeng Zhao, Yuanxian Zheng, Tiane Xiong, Gaorun Zhang, Sirong Jiang, Jiming Wang, Yuansheng He, Jiangtao Li, Jieying Zhu, Yongjun Zhang, Yanrun Li, Fuzhao Nian, Di Liu
Format: Article
Language:English
Published: Frontiers Media S.A. 2025-02-01
Series:Frontiers in Plant Science
Subjects:
tobacco
preceding crops
soil quality
rhizosphere metabolites
soil microbial diversity
Online Access:https://www.frontiersin.org/articles/10.3389/fpls.2025.1530324/full
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Summary:IntroductionSpecific microorganisms and metabolites in soil play key roles in regulating organismal behavior. Currently, the effects of different preceding crops on the rhizosphere soil quality of flue-cured tobacco remain unclear.MethodsFour treatments were compared in the study: fallow + tobacco (CK), maize + tobacco (T1), rapeseed + tobacco (T2), and wheat + tobacco (T3).Results and discussionResults showed that preceding crops significantly enhanced soil nutrient levels and improved tobacco growth by altering rhizosphere metabolites and microbial community structure. Previous cultivation of maize and rapeseed significantly promoted tobacco growth, rapeseed and wheat cultivation enhanced the diversity of soil bacterial communities, and notably decreased the abundance of urea-degrading bacteria. In contrast, the preceding crop of maize reduced plant pathogenic fungi and promoted positive microbial interactions. Metabolomics analysis showed that different preceding crops altered lipids, organic acids, flavonoids, alkaloids, and terpenoids, enhancing secondary metabolite synthesis pathways in soil. Preceding crops regulated rhizosphere metabolites which potentially participated in soil carbon and nitrogen cycling, balancing soil nutrients, and improving tobacco yield. Overall, the three preceding crops altered the composition and function of metabolites and microbial community structures in rhizosphere soil, thereby increased soil nutrient concentration. Both maize and rapeseed cultivation significantly boosted tobacco growth and biomass. These findings offer new insights into the potential interactions between rhizosphere metabolites and microbial communities and strategies of comprehensively regulating tobacco growth.
ISSN:1664-462X

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