王伟东教授,博士生导师,神农领军人才,黑龙江省杰出青年基金获得者,黑龙江省政府特殊津贴专家,东北林业大学成栋杰出人才,黑龙江省优秀教师,黑龙江省生物质资源化利用工程中心主任。学术兼职农业农村部肥料登记评审委员会、中国微生物学会环境微生物专业委员会、中国微生物学会农业微生物专业委员会、中国微生物学会教学工作委员会、中国生态学会微生物生态专业委员会、中国植物营养与肥料学会生物与有机肥专业委员会、中国农学会秸秆资源综合利用分会常务委员会、中国农业工程学会农业资源环境与能源工程专委会委员,黑龙江省微生物学会副理事长、黑龙江省能源环境学会副理事长,黑龙江省黑土资源保护利用学会理事,黑龙江省科顾委委员。
l 联系方式
E-mail:wwdcyy@126.com,wdwang@nefu.edu.cn
电话:13836729365
地址:黑龙江省哈尔滨市香坊区和兴路26号,东北林业大学生命科学学院
邮编:150040
l 教育经历
1989/09-1993/07,黑龙江八一农垦大学农学系学习获农学学士学位
1999/09-2002/07,中国农业大学农学与生物技术学院学习获农学硕士学位
2002/09-2005/07,中国农业大学农学与生物技术学院学习获农学博士学位
l 工作经历
1993/07-2002/08,黑龙江八一农垦大学农学系(植物科技学院),助教、讲师
2002/09-2009/08,黑龙江八一农垦大学生命科学技术学院,讲师、副教授
2009/09-2023/04,黑龙江八一农垦大学生命科学技术学院,教授(二级),博导
2023/05-现 在,东北林业大学生命科学学院,教授(二级),博导
2003/11-2005/04,日本东京大学农学部外国人研究员
2007/09-2007/11,香港大学理学院访问学者
2012/11-2013/04,美国马萨诸塞大学阿莫斯特校区访问学者
l 专业特长
主要从事农林微生物学与微生物组学、寒区农林废弃物资源化利用、黑土保护利用、农林绿色低碳技术、益生菌与大健康等方面的教学和科研工作,研究兴趣包括:寒区特色微生物资源挖掘与作用机理、微生物降解与转化、农业面源污染防治、农林废弃物资源化(堆肥化、能源化、饲料化)、微生物肥料与生物有机肥、黑土保护与质量提升、农林基可降解材料(替土栽培基质、秸秆基可降解材料)、益生乳酸菌与代谢疾病调节等。
l 主持项目
[1] 国家重点研发计划项目课题,2025YFD1700201。
[2] 国家自然科学基金委区域创新发展联合基金重点项目,U22A20444。
[3] 黑龙江省"揭榜挂帅"科技攻关项目,2022ZXJ08B0。
[4] 国家自然科学基金面上项目,2170132,31270536。
[5] 国家科技支撑计划课题,2008BADC4B01。
[6] 黑龙江省重大科技攻关项目,GA07B501。
[7] 黑龙江省杰出青年科学基金,JC201002。
[8] 黑龙江省自然科学基金重点项目,ZD2018005。
[9] 国家重点研发计划课题子课题,2023YFD1500500-1,2018YFD0800906-03,2015BAD21B04,2012BAD12B05-3,2006BAD04A09,2006BAD07A10。
[10]科技部星火计划项目,2008GA670001。
[11]中国科学院战略性先导科技专项A类子任务,XDA28030203-2。
[12]全国基层农技推广体系改革与建设补助项目,JCTG17-04,JCTG19-06。
[13]黑龙江垦区科技攻关项目,HKKY190404。
[14]黑龙江省高校科技创新团队,2012TD00620。
[15]黑龙江垦区农技推广项目,HNK10TG-08。
l 主要发表论文(*为通讯作者)
[1] Xiaoqian Zhou, Binyu Cui, Xiaoyu Wang, Khan Aman*, and Weidong Wang*. Fermented Foods Strengthen Immunity against Viral Infections, Health and Metabolism, 2025, https://doi.org/10.53941/hm.2025.100026.
[2] Jinghong Wang, Wei Zhang, Chenying Wu, Yanhua Hong, Guinan Shen, Weiwei Wang, Hongzhi Tang, Kazuhiro Mochidzuki, Zongjun Cui, Aman Khan, Weidong Wang. Synergistic analysis of lignin degrading bacterial consortium and its application in rice straw fiber film. Science of the Total Environment, 927 (2024) 172386.
[3] Jinghong Wang , Congfeng Xu, Wei Zhang, Yanhua Hong, Guinan Shen, Weiwei Wang, Hongzhi Tang, Shenglong Zhang, Junting Pan, Weidong Wang*. Synergistic effect of two bacterial strains promoting anaerobic digestion of rice straw to produce methane. Environmental Research, https://doi.org/10.1016/j.envres.2024.118974.
[4] Shurong Ma*, Weidong Wang*, Haojun Cui, Yan Li, Wenyi Wang, Lili Chen and Zhouqing Han. Effects of Male and Female Strains of Salix linearistipularis on Physicochemical Properties and Microbial Community Structure in Saline-Alkali Soil, Microorganisms,https://doi.org/10.3390/microorganisms11102455.
[5] Xinhui Yu, YanjieWang, Lei Yan, Yanhong Wang, Jiaxin Lu, Yubo Huang, Shaojie Bi* and Weidong Wang*. Synergistic Effects of Anaerobic Co-Digestion of Chicken Manure and Corn Stover in Batch and Continuous Modes, Fermentation, 2023, 9, 666. https://doi.org/10.3390/fermentation9070666
[6] Jinghong Wang, Lingling Li, Hongmin Xu, Yali Zhang, Yuxin Liu, Fangzheng Zhang, Guinan Shen, Lei Yan, Weiwei Wang, Hongzhi Tang, Huajiao Qiu, Ji-Dong Gu,Weidong Wang*. Construction of a fungal consortium for effective degradation of rice straw lignin and potential application in bio-pulping. Bioresource Technology, 344 (2022) 126168.
[7] Weiran Zhang, Weiwei Wang, Jinghong Wang, Guinan Shen, Yuan Yuan, Lei Yan, Hongzhi Tang*,Weidong Wang*. Isolation and Characterization of a Novel Laccase for Lignin Degradation, LacZ1. Applied and Environmental Microbiology, 2021, 87, doi:10.1128/AEM.01355-21.
[8] Congfeng Xu, Xin Su, Jinghong Wang, Fangzheng Zhang, Guinan Shen, Yuan Yuan, Lei Yan, Hongzhi Tang, Fuqiang Song,Weidong Wang*.Characteristics and functional bacteria in a microbial consortium for rice straw lignin-degrading. Bioresource Technology, 331(2021)125066.
[9] Xuejiao Zhang, Zhiqiang Xiong, Siyu Zhang, Yuan Ge, Wei Ma, Lei Yan, Dengyu Li, Dongsheng Wang, Shuo Deng, Qing Zhao*,Weidong Wang*and Baoshan Xing*. Response of soil enzyme activity and bacterial community to black phosphorus nanosheets. Environmental Science: Nano, 2020,7, 404-413.
[10] Haipeng Wang, Jiawei Li, Yiquan Zhao, Congfeng Xu, Keqiang Zhang, Jiajia Li, Lei Yan, Ji-Dong Gu, Dan Wei, andWeidong Wang*. Establishing practical strategies to run high loading corn stover anaerobic digestion: Methane production performance and microbial responses. Bioresources Technology, 310 (2020) 123364.
[11] Yiquan Zhao, Congfeng Xu, Shiqi Ai, Haipeng Wang, Yamei Gao, Lei Yan, Zili Mei,Weidong Wang*. Biological pretreatment enhances the activity of functional microorganisms and the ability of methanogenesis during anaerobic digestion. Bioresources Technology,2019, 290: 121660.
[12] Lei Yan, Guoxing Wang, Shiqi Ai, Chaochen Huo, Yanjie Wang, Ji-Dong Gu,Weidong Wang*. Abundance of ammonia-oxidizing bacteria and archaea under different ventilation strategies during cattle manure composting. Journal of Environmental Management, 2018, 212: 375-383.
[13] Zhiqiang Xiong, Xuejiao Zhang, Siyu Zhang, Lei Lei, Wei Ma, Dengyu Li, Weidong Wang*, Qing Zhao*, Baoshan Xing. Bacterial toxicity of exfoliated black phosphorus nanosheets, Ecotoxicology and environmental safety, 2018,161:507-514.
[14] Yanxia Wang, Quan Liu, Lei Yan, Yamei Gao, Yanjie Wang,Weidong Wang*. A novel lignin degradation bacterial consortium for efficient pulping,Bioresource Technology,2013,139:113-119.
[15] Lei Yan, Yamei Gao, Yanjie Wang, Quan Liu, Zhiyuan Sun, Borui Fu, Xue Wen, Zongjun Cui,Weidong Wang*. Diversity of a mesophilic lignocellulolytic microbial consortium which is useful for enhancement of biogas production. Bioresource Technology, 2012, 111:49-54.
[16] Weidong Wang*, Lei Yan, Zongjun Cui, Yamei Gao, Yanjie Wang, Ruiyong Jing. Characterization of a microbial consortium capable of degrading lignocellulose. Bioresource Technology, 2011, 102 (19): 9321-9324.
[17] Shaojie Bi, Xiujie Hong, Hongzhi Yang, Xinhui Yu, Shumei Fang, Yan Bai, Jinli Liu,Yamei Gao, Lei Yan, Weidong Wang, Yanjie Wang*. Effect of hydraulic retention time on anaerobic co-digestion of cattle manure and food waste, Renewable Energy, 150 (2020) 213-220.
[18] Haipeng Wang, Teng Teeh Lim, Cuong Duong, Wei Zhang, Congfeng Xu, Lei Yan, Zili Mei and Weidong Wang*. Long-term Mesophilic Anaerobic Co-digestion Swine Manure with Corn Stover and Microbial Community Analysis, Microorganisms, 2020, 8, 188.
[19] Lei Yan, Zhenguo Li, Guoxing Wang, Jidong Gu*,Weidong Wang*. Diversity of ammonia-oxidizing bacteria and archaea in response to different aeration rates during cattle manure composting. Ecological Engineering, 2016, 93: 46-54.
[20] Wensheng Lan, Hui Li, Weidong Wang, Yoko Katayama, Ji-Dong Gu*. Microbial Community Analysis of Fresh and Old Microbial Biofilms on Bayon Temple Sandstone of Angkor Thom, Cambodia. Microbial Ecology, 2010,60:105-115.
[21] Haipeng wang , Yiquan Zhao, Anyi Yang, Lei Yan, Teng Teeh Lim , Ji-Dong Gu, Dan Wei* andWeidong Wang*.Anaerobic degestion of dairy manure in fixed bed CSTR-metahn productuoin and microbial diversity. BioResource, 2020, 15(4):7965-7979
[22] Yuan Yuan, Sidan Li, Jiao Feng, Guinan Shen, Lei Yan,Weidong Wang*. Dimensional stability improvement of corn stover biocomposites using two-part ligin-derived binder optimized with response surface methodology. BioResources, 2019, 14(3):5923-5942.
[23] Jing Wang, Weidong Wang, Ji-Dong Gu*. Community structure and abundance of ammonia-oxidizing archaea and bacteria after conversion from soybean to rice paddy in albic soils of Northeast China, Applied Microbiology Biotechnology, 2014, 98:2765-2778.
[24] Jing Wang,Hailiang Dong,Weidong Wang,Ji-Dong Gu*. Reverse-transcriptional gene expression of anammox and ammonia-oxidizing archaea and bacteria in soybean and rice paddy soils of Northeast China,Applied Microbiology Biotechnology, 2014, 98:2675-2686.
[25] Shaojie Bi, Xiujie Hong, Yan Bai, Jinli Liu, Xinhui Yu, Shumei Fang, Yamei Gao, Lei Yan, Zhihui Wang, Yanjie Wang*, andWeidong Wang*. Methane Production Dynamics of Co-Digestion of Cow Manure and Food Waste Under Mesophilic Condition. Journal of Biobased Materials and Bioenergy, 2019, 13: 257-263.
[26] Zhi-Qiang Xiong, Guo-Xing Wang, Zhao-Chen Huo, Lei Yan, Ya-Mei Gao, Yan-Jie Wang, Ji-Dong Gu*,Wei-Dong Wang*.Effect of Aeration Rates on the Composting Process and Loss of Nitrogen during Composting. Applied Environmental Biotechnology, 2017, 2(1), 20-27.
[27] Gao Yamei, Yang Anyi, Bao Jun, Ma Ruxia, Yan Lei, Wang Yanjie,Wang Weidong*. Bioreactor performance and microbial community dynamics in a production-scale biogas plant in Northeast of China. International Journal of Agricultural and Biological Engineering, 2017,10(1):191-201.
[28] Wenhao Chen, Lei Yan, Yamei Gao, Jun Bao, Yanjie Wang, Zhiyuan Sun,Weidong Wang*.The removal characteristics and diversity of microbial community capable of ammonia removal from compost, Annals of Microbiology, 2016:66(2), 635-642.
[29] Lei Yan,Zhenguo Li,Jun Bao,Guoxing Wang,Changhong Wang,Weidong Wang*.Diversity of ammonia-oxidizing bacteria and ammonia-oxidizing archaea during composting of municipal sludge. Annals of Microbiology,2015,65:1729-1739.
[30] Yamei GAO, Yiqiang Han, Hui Tang, Dongmei Sun, Yanjie Wang and Weidong Wang*. Analysis of Simple Sequence Repeats in Genomes of Rhizobia. Agricultural Sciences in China, 2008, 7(10): 1189-1195.
[31] Weidong Wang, Xiaofen Wang, Jianbin Liu, Masaharu Ishii, Yasuo Igarashi, and Zongjun Cui*. Effect of Oxygen Concentration on the Composting Process and Maturity. Compost Science and Utilization, 2007, 15(3):184-190.
[32]陈昭,王敬红,邓常宇,邹世杰,范寒雪,魏丹,孙宇峰,王伟东. 低温纤维素降解细菌Duganella sp.的分离及降解能力解析. 微生物学通报,2024,DOI: 10.13344/j.microbiol.china.231092
[33]窦鑫,郭鹏博,张伟,王敬红,陈昭,洪艳华,孙冬梅,王伟东. 贝莱斯芽孢杆菌(Bacillus velezensis)PZ-3 吸附载体的筛选及对玉米根际土壤微生物多样性的影响. 微生物学通报,2024,https://doi.org/10.13344/j.microbiol.china.240001
[34]徐红敏,王敬红,刘欢,申贵男,张正海,梅雪松,孙宇峰,董艳,魏丹,王伟东. 降解尿酸乳酸菌复合菌系的筛选与菌株组合提升降解效果,微生物学通报,2023, 50(6): 2545-2555.
[35]许从峰,张方政,张伟,申贵男,袁媛,晏磊,王伟东*.合成微生物群落用于木质纤维素生物质转化的研究进展.微生物学通报. 2020, 47(10): 3431-3441.
[36]李灵灵,王敬红,赵铎,刘嘉乐,申贵男,袁媛,高亚梅,晏磊,魏丹,王伟东*.木质素降解菌BYL-7的筛选及降解条件优化,微生物学通报,2020, 47(12): 4059-4071.
[37]苏鑫,王敬红,张方政,刘嘉乐,巩光禄,欧阳晓伦,魏丹,赵洪颜,宋福强,晏磊,王伟东*.复合菌系降解玉米秸秆过程中群落演替与秸秆降解的关系.微生物学报,2020, 60(12): 2675-2689.
[38]许从峰,艾士奇,申贵男,袁媛,晏磊,王伟东*.木质纤维素的微生物降解,生物工程学报,2019,11,2081-2091.
[39]董桂军,陈兴良,于洪娇,洪秀杰,袁媛,申贵男,晏磊,王彦杰,王伟东*.寒区长期秸秆全量还田对水稻土理化特性的影响,土壤与作物,2019,8(3):251-257.
[40]马茹霞,赵一全,李家威,霍朝晨,洪艳华,晏磊,王伟东*.玉米秸秆厌氧发酵过程中的氮源优化.可再生能源,2018,36(11):1593-1599.
[41]艾士奇,赵一全,孙志远,高亚梅,晏磊,唐鸿志*,王伟东*.复合菌系降解纤维素过程中微生物群落结构的变化.生物工程学报,2018, 34(11): 1794-1808.
[42]李家威,赵一全,王海鹏,高亚梅,晏磊,王伟东*.不同杂粮与大田作物秸秆厌氧发酵产气特性研究,中国沼气,2018,36(5):47-53.
[43]赵一全,马茹霞,李家威,晏磊,罗涛,梅自力,王伟东*.玉米秸秆厌氧发酵过程中添加氮素对微生物群落和沼气产量的影响.中国沼气,2018,36(5):66-72.
[44]熊志强,霍朝晨,张炜然,王长虹,晏磊,王伟东*.土霉素在牛粪堆肥过程中降解及与微生物群落结构的关系.土壤与作物,2018,7(2),111-119.
[45]邓兵,贾军,艾士奇,晏磊,高亚梅,王彦杰,王伟东*.常温降解玉米秸秆复合菌系及其微生物多样性研究.可再生能源,2017,35(8):1127-1134.
[46]王国兴,董桂军,艾士奇,熊志强,晏磊,高亚梅,王彦杰,王伟东*.通风量对堆肥化过程中氮素转化及nirK基因多样性和数量的影响.农业环境科学学报,2016,35(3):565-572.
[47]李莹,董桂军,方旭,刘小胖,王归归,艾士奇,王伟东*.简化的纤维素分解复合菌系F1的菌株组成动态.环境科学与技术,2016,39(8):35-39.
[48]毕少杰,孙宇,孙志远,高亚梅,晏磊,王彦杰,王伟东*.酸化处理对牛粪厌氧发酵有机酸和细菌多样性的影响.中国沼气.2015,33(4):18-25.
[49]杨安逸,晏磊,王彦杰,高亚梅,王伟东*.马铃薯渣与鸡粪混合原料厌氧发酵条件优化.可再生能源,2015, 33(3): 442-447.
[50]王翠,洪秀杰,李振国,常艳艳,张鸿雁,刘权,宴磊,王彦杰*,王伟东*.低温乳酸菌复合系的构建、培养条件优化及在玉米干秸秆微贮中的应用.微生物学通报,2013, 40(7):1202-1213.
[51]温雪,付博锐,王彦杰,高亚梅,刘权,晏磊,王伟东*.纤维素分解复合菌系WSC-9中厌氧细菌的分离.东北农业大学学报,2013,44(2):47-52.
l 授权发明专利
[1] 一种阿维菌素药渣肥料的制备方法,专利号:ZL 200910000680.6。
[2] 一种用于牛粪堆肥减少氨释放和保氮的复合菌剂,专利号:ZL201110242979.X。
[3] 从纤维素分解复合菌系中分离分解纤维素的厌氧菌的方法,专利号:ZL 201110452722.7。
[4] 一种用于木质素分解的细菌复合菌剂,专利号:ZL 201310057592.6。
[5] 一种嗜热嗜气解硫胺素芽孢杆菌、菌剂及其应用,专利号:ZL202011137722.3。
[6] 一种短芽孢杆菌、菌剂及其应用,专利号:ZL202011137747.3。
[7] 马铃薯渣玉米秸秆混合物发酵饲料及其制备方法和发酵剂,ZL 202010103007.1。
l 著作与教材
[1] 著作:木质纤维素分解复合菌系及其在农业废弃物资源化中的应用,科学出版社,第一著者(第二著者崔宗均),2017年12月,书号:ISBN978-7-5655-1300-8。
[2] 教材:微生物学,全国高等农林院校生物科学类专业“十二五”规划系列教材,中国农业大学出版社,主编(共同主编洪坚平),2015.08,书号:ISBN978-7-5655-1300-8。
l 获奖
[1] 农业农村部神农中华农业科技奖进步类一等奖(第三完成人),2024。
[2] 2023年中国生态环境十大科技进展(第三完成人),2024。
[3] 黑龙江省科学技术奖进步类一等奖(第一完成人),2019年。
[4] 黑龙江省科学技术奖自然类二等奖(第一完成人),2014年。
[5] 2011-2013全国农牧渔业丰收奖(农业技术推广贡献奖),2013年。
[6] 黑龙江省科学技术奖进步类三等奖(第一完成人),2011年。
[7] 黑龙江省科学技术奖进步类三等奖(第一完成人)2009年。
