姓 名:杨晓燕 职 称:教授
邮 箱:yangxy@eastern-himalaya.cn
办公室地址:云南省大理市古城弘圣路2号大理大学三教501室
教育经历
2003.09-2006.07,农学博士,动物医学,四川农业大学
2000.09-2003.07,农学硕士,动物医学,西南民族大学
1996.09-2000.07,农学学士,动物医学,西南民族大学
工作经历
2018.07-至今,大理大学,东喜玛拉雅研究院
2006.09-2018.06,大理大学,农学与生物科学学院
荣誉奖励
云南省双一流课程《微生物学》负责人,2020;
大理大学教学质量奖特等奖2次(2014、2016),一等奖1次(2015),二等奖1次(2017),教学质量优秀教师5次;
指导学生获得过国家级竞赛铜奖,省级金奖、银奖、三等奖及校级各类奖励多项
科研兴趣
微生物生物资源挖掘、保护与应用;天然抗氧化产物;火生态学;流域生态学;微生物生物地理学
项目成果
国家自然科学基金地区科学基金项目,32360002,火干扰下的捕食线虫真菌适应机制及多样性研究,32万元,2024/01-2027/12,主持,在研
大理州科技专项,202301A020023,三江并流区微生物源天然抗氧化剂的筛选,2024/01-2026/12,40万元,主持,在研
国家自然科学基金地区科学基金项目,31360013,基于GIS的云南捕食线虫真菌系统发生生物地理学研究,2014/01-2017/12,50万元,主持,结题
国家自然科学基金地区科学基金项目,31100093,云南省温泉捕食线虫真菌生物多样性研究,2012/01-2014/12,21万元,主持,结题
国家自然科学基金云南联合项目,U1602262,滇西北高山溪流水生生物多样性及演化研究,2017/01-2020/12,参与,200万元,结题
代表性论文
Zhang, F.; Yang, Y.-Q.; Zhou, F.-P.; Xiao, W.; Boonmee, S.; Yang, X.-Y. 2024. Multilocus Phylogeny and Characterization of Five Undescribed Aquatic Carnivorous Fungi (Orbiliomycetes). J. Fungi. 10, 81. https://doi.org/10.3390/jof10010081
She Rong, Qi Fu-Liang, Chen Yi-Ting, Zhou Fa-Ping, Deng Wei, Lu Ya-Xian, Huang Zhi-Pang, Yang Xiao-Yan, Xiao Wen. 2023. Soil sampling methods for microbial study in montane regions. Global Ecology and Conservation.47:e2679.
Yang, X.; Zhang, F.; Yang, Y.; Zhou, F.; Boonmee, S.; Xiao, W.; Yang, X. 2023. Conidia Fusion: A Mechanism for Fungal Adaptation to Nutrient-Poor Habitats. J. Fungi. 9, 755. https://doi.org/10.3390/jof9070755
Zhang, F.; Yang, Y.-Q.; Zhou, F.-P.; Xiao, W.; Boonmee, S.; Yang, X.-Y. 2023. Morphological and Phylogenetic Characterization of Five Novel Nematode-Trapping Fungi (Orbiliomycetes) from Yunnan, China. Journal of Fungi. 9,735.
https:// doi.org/10.3390/jof907073Z5
Zhang F, Boonmee S, Yang Y-Q, Zhou F-P, Xiao W, Yang X-Y. 2023. Arthrobotrys blastospora sp. nov. (Orbiliomycetes): A Living Fossil Displaying Morphological Traits of Mesozoic Carnivorous Fungi[J]. Journal of Fungi. 9(4):451. https://doi.org/10.3390/jof9040451
Deng W, Zhang F, Li Y-P, Zhang X, Fornacca D, Yang X-Y and Xiao W. 2023. Uncovering
the biogeographic pattern of the widespread nematode-trapping fungi Arthrobotrys oligospora: watershed is the key[J]. Front. Microbiol. 14:1152751.
doi: 10.3389/fmicb.2023.1152751
Deng W, Yu G-B, Yang X-Y, Xiao W.2023.Testing the passive sampling hypothesis: The role of dispersal in shaping microbial species- area relationship[J].
Front. Microbiol. 14:1093695. doi: 10.3389/fmicb.2023.1093695
Jun, N., Yi-Ting, C., Yu-Ting, G., Cheng-Fa, Z., Li-Juan, L., Rong, S., Xiao-yan, Y., Wen, X., & Xu, Y. 2023. Antioxidant, anti-inflammatory, and anticancer function of Engleromyces goetzei Henn aqueous extract on human intestinal Caco-2 cells treated with t-BHP[J]. Food Science & Nutrition, 00, 1–14. https://doi.org/10.1002/ fsn3.3335
Wei Deng, Na Li, Chao‐Zhi Zhang, Rui An, Xiao‐Yan Yang & Wen Xiao. 2023. Extinction drives a discontinuous temporal pattern of species–area relationships in a microbial microcosm system[J]. Scientific Reports. 13:3720. https://doi.org/10.1038/s41598-023-30685-x
Wei Deng, Fa Zhang, Davide Fornacca, Xiao‐Yan Yang, Wen Xiao. 2023.Those Nematode‐Trapping Fungi That are not Everywhere: Hints Towards Soil Microbial Biogeography[J].
Journal of Microbiology. https://doi.org/10.1007/s12275-023-00043-7
Yao-Quan Yang, Fa Zhang, Zheng-Qiang, Fa-Ping Zhou, Xiao-Yan Yang & Wen Xiao. 2023. Morphological and multigene phylogenetic analyses reveal two new nematode- trapping fungi (Arthrobotrys, Orbiliaceae) from Yunnan, China [J]. Phytotaxa. 591 (4): 263–272. https://doi.org/10.11646/phytotaxa.591.4.3
Lu, Y.-X.; Deng, W.; Qi, F.-L.; Yang, X.-Y.; Xiao, W. 2023. Revived Amplicon Sequence Variants Monitoring in Closed Systems Identifies More Dormant Microorganisms [J]. Microorganisms. 11: 757.
Rong S., Hai-Qing, W.; Fornacca, D.; Fei-Teng, L.; Fa, Z.; Yao-Quan, Y.; Fa-Ping, Z.; Xiao-Yan, Y.; Wen, X. 2023. Independence Effects of Heat and Ash on Forest Soil Nematode-Trapping Fungi Communities [J]. Fire., 6: 27. https://doi.org/10.3390/fire6010027
Zhang F, Boonmee S, Bhat JD, Xiao W, Yang X-Y. 2022. New Arthrobotrys Nematode-Trapping Species (Orbiliaceae) from Terrestrial Soils and Freshwater Sediments in China[J]. J. Fungi, 8, 671. https://doi.org/10.3390/ jof8070671
Deng, W., Cheng, Y.-T., Li, Z.-Q., Zhou, F.-P., Yang, X.-Y., Xiao, W. 2022. Passive sampling hypothesis did not shape microbial species–area relationships in open microcosm systems[J]. Ecology and Evolution, 12, e9634. https://doi.org/10.1002/ece3.9634
Zhang F, Boonmee S, Monkai J, Yang X-Y, Xiao W. 2022. Drechslerella daliensis and D. xiaguanensis (Orbiliales, Orbiliaceae), two new nematode-trapping fungi from Yunnan, China [J]. Biodiversity Data Journal. 10: e96642. https://doi.org/10.3897/BDJ.10.e96642
Deng Wei, Yuan Cai‐Lian, Li Na, Liu Shuo‐Ran,Yang Xiao‐Yan, Xiao Wen. 2022. Island Formation History Determines Microbial Species‐Area Relationships[J]. Microbial Ecology. https://doi.org/10.1007/s00248-021-01906-5
Zhang Xin, Zhang Fa, Jiang Lin, Yang Yao-qian, Yang Xiao-yan, Xiao Wen. 2022. Two new nematode-trapping fungi (Arthrobotrys, Orbiliaceae) from Yunnan, China [J]. Phytotaxa. 568(3): 255-266.
DengW, Liu LL, Yu GB, Li N, Yang XY, Xiao W. 2022. Testing the Resource Hypothesis of Species–Area Relationships: Extinction Cannot Work Alone [J]. Microorganisms. 10, 1993. https://doi.org/10.3390/microorganisms10101993
Rong She, Xin-Juan Zhou, Hai-Qing Wang, Fa Zhang, Xiao-Yan Yang, Wen Xiao. 2021.Natural recovery from fire disturbance is more favorable than assisted recovery for the restoration of soil nematode- trapping fungi[J]. Can. J. Microbiol. 68: 329-339dx.
doi.org/10.1139/cjm-2021-0237
Deng Wei, Wang Jia-Liang, Matthew B. Scott, Fang Yi-Hao, Liu Shuo-Ran, Yang Xiao-Yan, Xiao Wen. 2020. Sampling methods affect nematode trapping fungi biodiversity patterns across an elevational gradient[J]. BMC Microbiology. 20(1):15.
She Rong, Zhou Xin-Juan, Wang Hai-Qing, Zhang Fa, Yang Xiao-Yan, Xiao Wen. 2020. Succession of soil nematode-trapping fungi following fire disturbance in forest[J]. Journal of Forest Research. 25(6): 433-438.
Zhang F, Liu Shuoran, Zhou Xinjuan, Monkai J, Hongsanan S, Shang Qiuju, Hyde KD, Yang Xiaoyan. 2020. Fusarium xiangyunensis (Nectriaceae), a remarkable new species of nematophagous fungi[J]. Phytotaxa. 450(3): 272-284.
Fa Zhang, Xin-Juan Zhou, Jutamart Monkai, Fei-Teng Li, Shuo-Ran Liu, Xiao-Yan Yang, Xiao Wen, Kevin D. Hude. 2020. Two new species of nematode-trapping fungi (Dactylellina, Orbiliaceae) from burned forest in Yunnan, China [J]. Phytotaxa. 452(1): 65-74.
Liu Shuoran, Su Hongyan, Su Xijun, Zhang Fa, Liao Guanghui, Yang Xiaoyan. 2014. Arthrobotrys xiangyunensis, a novel nematode-trapping fungus from hot-spring in Yunnan, China [J]. Phytotaxa.174(2): 089-096.
Yang Xiaoyan, Qi Xuefeng, Cheng Anchun, Wang Mingshu, Zhu Dekang, Jia Renyong, Chen Xiaoyue. 2010. Intestinal mucosal immune response in ducklings following oral immunization with attenuated duck enteritis virus vaccine [J]. The Veterinary Journal. 185: 199-203.
张欣, 齐宇坤, 张发, 邓巍, 杨晓燕,肖文. 2023.金沙江流域捕食线虫真菌空间分布格局及其驱动机制探究.长江流域资源与环境.32(3):515-523. (C刊,北大核心)
安睿, 邓巍, 李政强, 李静超, 杨晓燕. 2024. 密封泡菜母水的真菌群落动态及与理化因子的相关性[J/OL]. 微生物学通报. https://doi.org/10.13344/j.microbiol.china.230757(北大核心)
倪俊, 袁彩莲, 佘容, 赵成法, 李丽娟, 杨旭, 杨晓燕. 2023. 细胞代次对t-BHP诱导Caco-2细胞构建氧化应激模型的影响[J/OL]. 食品工业科技. 44(5):60-66. doi.org/10.13386/j.issn1002-0306.2022050222.(北大核心)
姜林, 邓巍, 张淑霞, 杨晓燕. 2023.野生鸟类趾爪携带细菌多样性及其潜在致病性种群分析[J]. 中国公共卫生. 39(1):36-41.(北大核心)
张欣, 邓巍, 朱娅佼, 李娜, 肖文, 杨晓燕. 2022. 澜沧江两条支流捕食线虫真菌水陆分布差异及关联性初探[J]. 生态学报. (12):1-8.(北大核心)
张欣, 张发, 邓巍, 杨晓燕, 李娜, 肖文. 2022. 三江并流区澜沧江干流捕食线虫真菌的水陆分布模式探究[J]. 水生态学杂志. DOI:10.15928/j.1674-3075.202201020002.(北大核心)
姜林, 邓巍, 李飞腾, 谭坤, 张淑霞, 杨晓燕. 2022. 鸟类传播捕食线虫真菌的可能性探究[J]. 野生动物学报. 43(2):412-420.(北大核心)
李静超, 邓巍, 佘容, 杨晓燕, 肖文. 2022. 泡菜母水中细菌群落的动态变化规律及结构解析[J]. 食品工业科技. 43(20):144-151(北大核心)
李政强, 邓巍, 安睿, 张发, 李静超, 杨晓燕. 2022. 泡菜母水细菌群落组成及潜在基因功能分析[J]. 食品研究与开发. 43(24):188-194.(北大核心)
周发平, 杨耀权, 张发, 李娜, 杨晓燕. 2022. 不同采样策略影响土壤捕食线虫真菌物种多样性检测结果[J]. 微生物学通报. 49(9):3591-3603,(北大核心)
邓巍, 王家亮, 刘李蕾, 房以好, 刘硕然, 杨晓燕, 肖文. 2019. 坡向的尺度差异对大理苍山捕食线虫真菌分布格局的影响[J]. 生态学报. 39(17):6452-6459.(北大核心)
王海清, 马瑞, 刘硕然, 李小艳, 杨晓燕. 2019. 酸奶中乳酸菌耐药性[J]. 中国公共卫生. 35(5):1027-1031.(北大核心)
范喜杰, 张欣, 张发, 刘硕然, 苏锡钧, 杨晓燕. 2018. 一株自发产生孢子捕食器的捕食线虫真菌—Dactylellina parvicolla WZ27[J]. 菌物学报. 37(3):305-313.(北大核心)
林慧彪, 李延鹏, 段继霞, 夏丰雨, 熊和菊, 王嘉宝, 杨晓燕, 肖文. 2016.滇金丝猴肠道寄生线虫的生防捕食线虫真菌筛选[J]. 四川动物. 1:31-37.(北大核心)
发明专利:杨晓燕, 佘容, 肖文. 一种刺激树干上捕食线虫真菌生长的营养基质及其制备方法和用法. ZL 202110865908.9
实用新型专利:杨晓燕, 王伟, 肖文, 胡靖, 林慧彪. 测定捕食线虫真菌对植物寄生线虫捕食率的辅助装置. ZL 201621242750.0
执教课程
主讲《微生物学》(本科生),大理大学,2006-至今;
主讲《病毒与生命》(本科生),大理大学,2012-至今;
主讲《微生物协·迫下的人类社会》(本科生),大理大学,2023-;
主讲《生物危害与生物安全》(本科生),大理大学,2014-至今;
主讲《基因工程》,(本科生),大理大学,2013年;
参讲本科课程:《专业导论》,《大型真菌资源开发与应用》,《生物化学实验》;
参讲硕士研究生课程:《生物多样性导论》,《生态学前沿》