Biocontrol activity and antifungal mechanisms of volatile organic compounds produced by Trichoderma asperellum XY101 against pear Valsa canker
文献类型: 外文期刊
作者: Zhang, Yang 1 ; Wu, Li 2 ; Lu, Ying 2 ; Li, Bo 2 ; Jin, Zhaoyang 2 ; Wang, Jun 3 ; Bai, Ruxiao 3 ; Wu, Qifeng 3 ; Fan, Qinglu 3 ; Tang, Jian-Hong 1 ; Yin, Feihu 3 ; He, Yujian 1 ;
作者机构: 1.Univ Chinese Acad Sci, Sch Future Technol, Beijing, Peoples R China
2.Univ Chinese Acad Sci, Sch Chem Sci, Beijing, Peoples R China
3.Xinjiang Acad Agr & Reclamat Sci, Inst Farmland Water Conservancy & Soil Fertilizer, Shihezi, Xinjiang, Peoples R China
4.Minist Agr & Rural Affairs, Key Lab Northwest Oasis Water Saving Agr, Shihezi, Peoples R China
5.Xinjiang Acad Agr & Reclamat Sci, Xinjiang Prod & Construct Corps Key Lab Efficient, Shihezi, Peoples R China
关键词:
期刊名称:PEST MANAGEMENT SCIENCE ( 影响因子:3.8; 五年影响因子:4.3 )
ISSN: 1526-498X
年卷期: 2025 年 81 卷 8 期
页码:
收录情况: SCI
摘要: BACKGROUNDSynthetic fungicides raise environmental and health concerns, and microorganisms are emerging as promising natural antagonists in plant protection. This study evaluated strain XY101 and its volatile organic compounds (VOCs) as biocontrol agents against pear Valsa canker caused by Vasal pyri, aiming to identify the antifungal mechanisms and key compounds.RESULTSThe biocontrol fungus was identified as Trichoderma asperellum. Trichoderma asperellum XY101 strongly suppressed the mycelial growth of Vasal pyri on culture plates. A colonization assay indicated that the VOCs produced by T. asperellum XY101 significantly reduced the pathogenicity of Vasal pyri on detached pear twigs, with an inhibition rate of 78.96%. Scanning electron microscopy (SEM) and laser confocal microscopy revealed that VOCs produced by T. asperellum XY101 caused abnormal changes in mycelial ultrastructure and damaged the integrity of fungal cell membrane. The results of headspace solid-phase microextraction-gas chromatography-mass spectrometry (HS-SPME-GC-MS) analysis showed the detection of 24 possible VOCs produced by strain XY101, with 3,7-dimethyl-1-octanol and 1-octen-3-ol identified as the primary antagonistic VOCs affecting pear Valsa canker. Transcriptome analysis demonstrated that these VOCs modulated gene expression in pathogenic fungal strains related to metabolism, membrane damage, pathogenicity, and resistance.CONCLUSIONTrichoderma asperellum XY101 and its VOCs, 3,7-dimethyl-1-octanol and 1-octen-3-ol, showed effective inhibitory effects against Vasal pyri, providing a basis for the development of VOCs-based biological fumigants to manage pear Valsa canker. (c) 2025 Society of Chemical Industry.
- 相关文献
作者其他论文 更多>>
-
Revisiting potassium-induced impacts on crop production and soil fertility based on thirty-three Chinese long-term experiments
作者:Liu, Zhanjun;Ai, Chao;Xu, Xinpeng;Liu, Zhanjun;Yuan, Xiaohu;Zhang, Zhenxing;Yang, Xueyun;Wang, Zhaohui;Fan, Qinglu
关键词:Unbalanced fertilization; Soil available potassium; Soil physical-chemical-microbiological; properties; Yield response; K-rich soils
-
Combination with moderate irrigation water temperature and nitrogen application rate enhances nitrogen utilization and seed cotton yield
作者:Ma, Zhanli;He, Jing;Zhang, Jinzhu;Li, Wenhao;Yin, Feihu;Wen, Yue;Liang, Yonghui;Ye, Hanchun;Liu, Jian;Wang, Zhenhua;Ma, Zhanli;He, Jing;Zhang, Jinzhu;Li, Wenhao;Wen, Yue;Liang, Yonghui;Ye, Hanchun;Liu, Jian;Wang, Zhenhua;Ma, Zhanli;He, Jing;Zhang, Jinzhu;Li, Wenhao;Wen, Yue;Liang, Yonghui;Ye, Hanchun;Liu, Jian;Wang, Zhenhua;Ma, Zhanli;He, Jing;Zhang, Jinzhu;Li, Wenhao;Wen, Yue;Liang, Yonghui;Ye, Hanchun;Liu, Jian;Wang, Zhenhua;Yin, Feihu;He, Jing
关键词:Cotton; Seed cotton yield; Soil nitrogen content; Cotton nitrogen content
-
Processing tomato (Lycopersicon esculentum Miller) yield and quality in arid regions through micro-nano aerated drip irrigation coupled with humic acid application
作者:Ma, Jiaying;Chen, Rui;Wen, Yue;Zhang, Jinzhu;Yin, Feihu;Javed, Tehseen;Zheng, Jiliang;Wang, Zhenhua;Ma, Jiaying;Chen, Rui;Wen, Yue;Zhang, Jinzhu;Yin, Feihu;Zheng, Jiliang;Wang, Zhenhua;Ma, Jiaying;Chen, Rui;Wen, Yue;Zhang, Jinzhu;Yin, Feihu;Zheng, Jiliang;Wang, Zhenhua;Ma, Jiaying;Chen, Rui;Wen, Yue;Zhang, Jinzhu;Yin, Feihu;Zheng, Jiliang;Wang, Zhenhua;Yin, Feihu
关键词:Humic acid; Micro-nano aeration; Irrigation amount; Processing tomato; Fruit quality; Yield
-
Optimizing potassium management for enhanced cotton yields in China's diverse agro-ecological regions
作者:Liang, Hongbang;Zhang, Jinzhu;Zhang, Jihong;Zhao, Yue;Zhao, Tao;Li, Deyi;Wang, Zhenhua;Liang, Hongbang;Zhang, Jinzhu;Zhang, Jihong;Zhao, Yue;Zhao, Tao;Li, Deyi;Wang, Zhenhua;Liang, Hongbang;Zhang, Jinzhu;Zhang, Jihong;Zhao, Yue;Zhao, Tao;Li, Deyi;Wang, Zhenhua;Liang, Hongbang;Zhang, Jinzhu;Zhang, Jihong;Zhao, Yue;Zhao, Tao;Li, Deyi;Wang, Zhenhua;Yin, Feihu
关键词:Meta-analysis; Generalized additive model; Soil properties; Cotton yield; K fertilizer
-
Improved MobileVit deep learning algorithm based on thermal images to identify the water state in cotton
作者:Jin, Kaijun;Zhang, Jihong;Liu, Ningning;Li, Miao;Ma, Zhanli;Wang, Zhenhua;Zhang, Jinzhu;Yin, Feihu;Jin, Kaijun;Zhang, Jihong;Liu, Ningning;Li, Miao;Ma, Zhanli;Wang, Zhenhua;Zhang, Jinzhu;Jin, Kaijun;Zhang, Jihong;Liu, Ningning;Li, Miao;Ma, Zhanli;Wang, Zhenhua;Zhang, Jinzhu;Jin, Kaijun;Zhang, Jihong;Liu, Ningning;Li, Miao;Ma, Zhanli;Wang, Zhenhua;Zhang, Jinzhu;Yin, Feihu
关键词:Cotton; Water state identification; Computer vision; Improved MobileVit algorithm; Deep learning
-
Effect of dynamic pressure and emitter type on irrigation and fertigation uniformity of drip irrigation systems
作者:Xing, Shaobo;Du, Kexin;Liu, Ningning;Li, Miao;Li, Wenhao;Zhang, Jihong;Zhang, Jinzhu;Wang, Zhenhua;Xing, Shaobo;Du, Kexin;Liu, Ningning;Li, Miao;Li, Wenhao;Zhang, Jihong;Zhang, Jinzhu;Wang, Zhenhua;Xing, Shaobo;Du, Kexin;Liu, Ningning;Li, Miao;Li, Wenhao;Zhang, Jihong;Zhang, Jinzhu;Wang, Zhenhua;Xing, Shaobo;Du, Kexin;Liu, Ningning;Li, Miao;Li, Wenhao;Zhang, Jihong;Zhang, Jinzhu;Wang, Zhenhua;Yin, Feihu
关键词:Dynamic pressure; Drip irrigation; Drip tape type; Irrigation uniformity; Fertigation uniformity
-
Enhancing the yield and water use efficiency of processing tomatoes (Lycopersicon esculentum Miller) through optimal irrigation and salinity management under mulched drip irrigation
作者:Ma, Jiaying;Liu, Jian;Wen, Yue;Ma, Zhanli;Zhang, Jinzhu;Yin, Feihu;Javed, Tehseen;Zhang, Jihong;Wang, Zhenhua;Ma, Jiaying;Liu, Jian;Wen, Yue;Ma, Zhanli;Zhang, Jinzhu;Zhang, Jihong;Wang, Zhenhua;Ma, Jiaying;Liu, Jian;Wen, Yue;Ma, Zhanli;Zhang, Jinzhu;Zhang, Jihong;Wang, Zhenhua;Ma, Jiaying;Liu, Jian;Wen, Yue;Ma, Zhanli;Zhang, Jinzhu;Yin, Feihu;Zhang, Jihong;Wang, Zhenhua;Yin, Feihu
关键词:processing tomatoes; soil water and salt transport; yield; water use efficiency; irrigation water salinity; mulched drip irrigation
