【个人简介】
赵昕悦,女,1990年4月出生,中共党员,副教授,博士生导师,应用生物科学系教师党支部书记,荷兰代尔夫特理工大学访问学者,校引进人才,“东农学术英才”高层次人才基金获得者,《Separations》客座编辑,《Eco-Environment & Health》、《中国给水排水》、《湿地科学与管理》、《水生态学杂志》等期刊青年编委,深圳市标准技术研究院农业专家,国家自然科学基金函评专家,并担任多个国内外知名学术期刊审稿人。主要从事人工湿地环境微生物生态修复、污水生物强化处理、环境可持续性评估研究。近5年主持国家自然科学基金、中国博士后科学基金(特别资助)等国家及省部级科研项目8项,主要参与完成科研项目6项。发表SCI等论文70余篇,其中,以第一作者/通讯作者在Water Research、Chemical Engineering Journal等环境领域顶级期刊发表论文39篇,包括SCI收录论文30篇(中科院一区SCI论文26篇、ESI高被引论文5篇,篇均影响因子>10)、EI收录论文4篇,单篇最高被引100余次。基于已有研究成果获得授权专利13项,科研成果与企业合作对接。作为副主编出版国家级教材一部,出版专著(独著)一部。
【学习经历】:
2008.09-2012.07,东北农业大学,生命科学学院,学士;
2012.09-2014.07,哈尔滨工业大学,环境学院,硕士;
2014.09-2018.06,哈尔滨工业大学,环境学院,博士;
2016.09-2018.04,代尔夫特理工大学(Delft University of Technology),土木与地球科学学院,联合培养博士
【工作经历】:
2018.09-2020.01,东北农业大学,资源与环境学院,讲师;
2020.01-2022.12,东北农业大学,资源与环境学院,副教授/硕士生导师;
2023.01-至今,东北农业大学,资源与环境学院,副教授/博士生导师
【主讲课程】:
本科生课程:《水污染控制工程》、《蛋白质与酶工程》
硕士生课程:《现代酶工程修复与环境技术》
博士生课程:《博士专业英语》
【教学成果及获奖】:
[1] 第七届黑龙江省高校青年教师教学竞赛 工科组一等奖
[2] 第十三届东北农业大学青年教师教学竞赛 工科组一等奖
[3] 第十二届东北农业大学青年教师教学竞赛 工科组二等奖
[4] 第二届东北农业大学教学创新大赛 副高组二等奖
[5] “水污染控制工程”课程荣获2022年东北农业大学教案设计大赛 二等奖
[6] “水污染控制工程”课程荣获2023年东北农业大学课程思政优秀案例奖
[7] 2023年资源与环境学院青年教师教学技能大赛 第一名
[8] 2020年资源与环境学院青年教师教学技能大赛 第一名
[9] 主持校级课程思政项目1项
[10] 发表教改论文1篇 第一作者
[11] 指导学生获第九届中国国际“互联网+”大学生创新创业大赛黑龙江省银奖(2023年)
【研究方向】:
本人研究方向主要围绕环境微生物修复及环境可持续性分析开展。
具体科研工作一:开发微生物复合菌剂,突破低温环境下系统生物脱氮的局限性;构建低温高效的微生物复合菌剂,用以改善人工湿地系统中功能微生物代谢活性,从而提高污水的处理效率,使出水水质达到相应的国家标准。
具体科研工作二:延伸与拓展基于“生物强化”的污水处理技术,揭示微生物学污水净化机制,并实现系统可持续性应用。重点关注微生物群落动态演替,反应器的运行调控,数学模型的建立及过程优化。此外,采用生态设计理念构建决策系统,旨在为污水生物处理技术的可持续性发展提供关键设计参数和工况参考。
【学术兼职】:
[1]《Separations》客座编辑
[2]《Eco-Environment & Health》青年编委
[3]《中国给水排水》青年编委
[4]《湿地科学与管理》青年编委
[5]《水生态环境杂志》青年编委
[6]《市政技术》青年编委
[7]《当代化工研究》编委
[8] 农业农村部生猪养殖设施工程重点实验室成员
[9] 住房建设部智慧海绵城市重点实验室成员
[10] 深圳市标准技术研究院农业专家库成员
[11] 国家科技部专家库成员
[12] 国家自然科学基金函评专家
[13] 国际水协会(IWA)会员
[14] Water Research、Chemical Engineering Journal、Journal of hazardous materials、Bioresource Technology等环境领域高水平SCI Top 期刊审稿人
【科研课题】:
主要从事人工湿地环境微生物生态修复及环境可持续性评估研究。近5年主持国家自然科学基金、中国博士后科学基金特别资助等国家及省部级科研项目8项,主要参与完成科研项目6项:
[1] 国家自然科学基金(青年基金)“昼夜交替下人工湿地根际微生物响应机制研究:以生活污水脱氮为例”,2023.01-2025.12,30万元,主持
[2] 中国博士后科学基金(特别资助)“基于人工湿地处理农村畜禽养殖废水脱氮的根际微生物响应机制研究”,2023.07-2026.06,18万元,主持
[3] 中国水产科学研究院黑龙江水产研究所 “水生渔业生态浮游动植物及水体水质检测横向课题”,2023.11-2026.12,9万元,主持
[4] 中国博士后科学基金(面上项目)“基于LCA生态设计的技术参数与多维目标的互作机制研究:以生物强化人工湿地为例”,2020.11-2023.10,8万元,主持
[5] 黑龙江省自然科学基金(联合引导项目)“基于LCA的多元方法耦合联动生态设计体系搭建及其在低温生物炭基人工湿地生物强化中的应用”,2020.07-2023.12,10万元,主持
[6] 黑龙江省博士后科学基金(面上项目)“基于生命周期评价的污水处理生态设计机制及其案例研究”,2020.11-2023.10,7万元,主持
[7] 东农学者计划“学术骨干”项目 “低温人工湿地系统生物强化脱氮及生态设计研究”,2018.12-2023.11,20万元,主持
[8] 2022年东北农业大学“课程思政”试点课程 “水污染控制工程”,2022.04-2024.03,0.5万元,主持
【学术论文】:
发表SCI等论文70余篇,其中,以第一作者/通讯作者发表论文39篇,包括SCI收录论文30篇(中科院一区SCI论文26篇、ESI高被引论文5篇,篇均影响因子>10)、EI收录论文4篇,单篇最高被引100余次。
代表性论文:
[1] Xinyue Zhao, Mengran Guo, Yunan Wang, Ming Jin, Ning Hou, Haiming Wu*. Toxic effects of Nanoplastics on biological nitrogen removal in constructed wetlands: evidence from Iron utilization and metabolism. Water Research,2024,256,121577 (SCI, IF=12.800,中科院一区)
[2] Xiangwei Meng, Mengran Guo, Yunan Wang, Yan Liu, Ming Jin, Yufei Meng, Shunwen Bai, Ning Hou, Xinyue Zhao*. Response mechanism of microalgae-based constructed wetland to day-night alternations. Chemical Engineering Journal. 2024, 487, 150544. (SCI, IF=15.100,中科院一区)
[3] Tuoshi Zhang, Yibo Shi, Yan Liu, Jinyi Yang, Mengran Guo, Shunwen Bai, Ning Hou, Xinyue Zhao*. A study on microbial mechanism in response to different nano-plastics concentrations in constructed wetland and its carbon footprints analysis. Chemical Engineering Journal. 2024, 480:148023. (SCI, IF=15.100, 中科院一区)
[4] Xinyue Zhao, Mengran Guo, Tuoshi Zhang, Shunwen Bai*, Yufei Meng, Yushi Tian, Jixian Yang, Fang Ma. Spatiotemporal dynamics of root exudates drive microbial adaptation mechanisms under day-night alterations in constructed wetlands. Chemical Engineering Journal. 2023, 477:147311. (SCI, IF=16.744,中科院一区)
[5] Xiangwei Meng, Ming Jin, Qianzi Feng, Aiqi Sha, Shunwen Bai, Xinyue Zhao*. Resource and energy utilization of swine wastewater treatment: recent progress and future directions. Separations. 2023, 10:591. (SCI, IF=2.6)
[6] Mengran Guo, Genji Yang, Xiangwei Meng, Tuoshi Zhang, Chunyan Li, Shunwen Bai, Xinyue Zhao*. Illuminating plant-microbe interaction: How photoperiod affects rhizosphere and pollutant removal in constructed wetland? Environment International. 2023,179:108144. (SCI, IF=11.800,中科院一区)
[7] Xinyue Zhao, Yan Liu, Ming Jin, Tuoshi Zhang, Wen Shi, Chunyan Li*, Rhizosphere microbial dynamics in response to Desmondesmus sp. ZM-3 and carbon footprint analysis in constructed wetland. Journal of Cleaner Production. 2023, 408: 137128. (SCI, IF=11.100,中科院一区)
[8] Xinyue Zhao, Tuoshi Zhang, Xi Chen, Mengran Guo, Xiangwei Meng, Xiaohui Wang, Shunwen Bai*. Exploring the resilience of constructed wetlands to harmful algal blooms disturbances: A study on microbial response mechanisms. Bioresource Technology. 2023, 383: 129251. (SCI, IF=11.400,中科院一区)
[9] Xinyue Zhao, Tuoshi Zhang, Bin Dang, Mengran Guo, Ming Jin, Chunyan Li, Ning Hou, Shunwen Bai*, Microalgae-based constructed wetland system enhances nitrogen removal and reduce carbon emissions: Performance and mechanisms. Science of the Total Environment. 2023, 877: 162883. (SCI, IF=9.800,中科院一区)
[10] Xinyue Zhao, Xiangwei Meng, Bin Dang, Tuoshi Zhang, Wen Shi, Ning Hou, Qingsheng Yan, Chunyan Li*, Succession dynamics of microbial communities responding to the exogenous microalgae ZM-5 and analysis of the environmental sustainability of a constructed wetland system. Bioresource Technology. 2023, 371: 128642. (SCI, IF=11.889,中科院一区)
[11] Shunwen Bai, Juntong Chen, Mengran Guo, Nanqi Ren, Xinyue Zhao*. Vertical-scale spatial influence of radial oxygen loss on rhizosphere microbial community in constructed wetland. Environment International. 2023, 171: 107690. (SCI, IF=13.352,中科院一区)
[12] Xinyue Zhao, Mengran Guo, Juntong Chen, Zhixuan Zhuang, Tuoshi Zhang, Xiaohui Wang, Chunyan Li, Ning Hou, Shunwen Bai*. Successional dynamics of microbial communities in response to concentration perturbation in constructed wetland system. Bioresource Technology. 2022, 361: 127733. (SCI, IF=11.889,中科院一区)
[13] Xinyue Zhao, Juntong Chen, Mengran Guo, Chunyan Li, Ning Hou, Shunwen Bai*. Constructed wetlands treating synthetic wastewater in response to day-night alterations: Performance and mechanisms. Chemical Engineering Journal. 2022, 446:137460. (SCI, IF=16.744,中科院一区)
[14] Xinyue Zhao, Yuting Zhang, Hanyi Jiang, Hailian Zang, Yue Wang, Shanshan Sun, Chunyan Li*, Efficient vanillin biosynthesis by recombinant lignin-degrading bacterium Arthrobacter sp. C2 and its environmental profile via life cycle assessment. Bioresource Technology. 2022, 347: 126434. (SCI, IF=11.889,中科院一区)
[15] Xinyue Zhao, Xiangwei Meng, Yan Liu, Shunwen Bai, Bei Li, Hang Li, Ning Hou, Chunyan Li*, Single-cell sorting of microalgae and identification of optimal conditions by using response surface methodology coupled with life-cycle approaches. Science of the Total Environment. 2022, 832:155061. (SCI, IF=10.753,中科院一区)
[16] Xianyue Li, Rongchen Wang, Chenyang Shao, Dapeng Li, Shunwen Bai, Ning Hou*, Xinyue Zhao*, Biochar and Hydrochar from Agricultural Residues for Soil Conditioning: Life Cycle Assessment and Microbially Mediated C and N Cycles. ACS Sustainable Chemistry & Engineering. 2022, 10, 3574-3583. (SCI, IF=9.224,中科院一区)
[17] Xinyue Zhao, Juntong Chen, Xiangwei Meng, Lanqing Li, Xue Zhou, Jianguo Li, Shunwen Bai*, Environmental profile of natural biological vanillin production via life cycle assessment. Journal of Cleaner Production. 2021, 308: 127399. (SCI, IF=11.072,中科院一区)
[18] Xinyue Zhao, Yuting Zhang, Yi Cheng, Hongliang Sun, Shunwen Bai*, Chunyan Li*. Identifying environmental hotspots and improvement strategies of vanillin production with life cycle assessment. Science of the Total Environment. 2021, 769:144771. (SCI, IF=10.753,中科院一区)
[19] Xinyue Zhao, Shunwen Bai*, Yinan Tu, Xuedong Zhang, Henri Spanjers. Parameter optimization of environmental technologies using a LCA-based analysis scheme: a bioaugmentation case study. Science of the Total Environment. 2020, 737:140284. (SCI, IF=10.753,中科院一区)
[20] Xinyue Zhao, Chaofan Zhang, Shunwen Bai*. Eco-Efficiency of end-of-pie systems: An extended environmental cost efficiency framework for wastewater treatment. Water, 2020, 12(2): 454. (SCI, IF=3.530)
[21] Xinyue Zhao, Shunwen Bai, Chunyan Li*, Jixian Yang, Fang Ma. Bioaugmentation of atrazine removal in constructed wetland: performance, microbial dynamics, and environmental impacts. Bioresource Technology. 2019, 289: 121618. (SCI, IF=11.889,中科院一区)
[22] Xinyue Zhao, Shunwen Bai*, Xuedong Zhang. Establishing a decision-support system for eco-design of biological wastewater treatment: a case study of bioaugmented constructed wetland. Bioresource Technology. 2019, 274: 425-429.(SCI, IF=11.889,中科院一区)
[23] Xinyue Zhao, Li Wang, Fang Ma, Jixian Yang*. Characterisation of an efficient atrazine-degrading bacterium, Arthrobacter sp. ZXY-2: an attempt to lay the foundation for potential bioaugmentation applications. Biotechnology for Biofuels, 2018, 11(113):1-10. (SCI, IF=7.670,中科院一区)
[24] Xinyue Zhao, Jixian Yang, Xuedong Zhang, Li Wang, Fang Ma*. Evaluation of bioaugmentation using multiple life cycle assessment approaches: A case study of constructed wetland. Bioresource Technology, 2017, 244: 407-415. (SCI, IF=11.889,中科院一区)
[25] Xinyue Zhao, Li Wang, Linna Du, Jixian Yang, Jing Dong, Fang Ma*. Optimization of culturing conditions for isolated Arthrobacter sp. ZXY-2, an effective atrazine-degrading and salt-adaptive bacterium. RSC advances, 2017, 7:33177-33184. (SCI, IF=4.036)
[26] Xinyue Zhao, Fang Ma, Cuijie Feng, Shunwen Bai, Jixian Yang*, Li Wang*. Complete genome sequence of Arthrobacter sp. ZXY-2 associated with effective atrazine degradation and salt adaptation. Journal of Biotechnology, 2017, 248:43-47. (SCI, IF=3.503)
[27] Xinyue Zhao, Jixian Yang, Fang Ma*. Set organic pollution as an impact category to achieve more comprehensive evaluation of Life Cycle Assessment in wastewater-related issues. Environmental Science and Pollution Research. 2017, 25:5960-5968. (SCI, IF=5.190)
[28] Xinyue Zhao, Li Wang*, Fang Ma, Shunwen Bai, Jixian Yang. Pseudomonas sp. ZXY-1, a newly isolated and highly efficient atrazine-degrading bacterium, and optimization of biodegradation using response surface methodology. Journal of Environmental Sciences. 2017, 54:152-159. (SCI, IF=5.565)
[29] Xinyue Zhao, Jixian Yang, Shunwen Bai, Fang Ma, Li Wang*. Microbial population dynamics in response to bioaugmentation in a constructed wetland system under 10℃. Bioresource Technology, 2016, 205: 166-173. (SCI, IF=11.889,中科院一区)
[30] Xinyue Zhao, Shan Qiu, Fang Ma, Jixian Yang*. Screening COD degrading bacteria from soil of constructed wetland and technical conditions optimization of construction strains. Advanced Materials Research, 2013, 807-809, 342-349.
【授权专利】:
基于已有研究成果获得授权专利13项:
[1] 一株产油小球藻ZM-5及其应用(ZL202111021380.3)
[2] 一株乌拉尔菌HC6及其低温生产2,3-丁二醇的应用(ZL202310526702.2)
[3] 一种节杆菌C2及其重组节杆菌在降解木质素中的应用(ZL202310527459.6)
[4] 一种低温堆肥微生物复合菌剂及其制备方法和应用(ZL202011091765.2)
[5] 一株高效阿特拉津降解菌及其应用以及筛选方法(ZL201610026144.3)
[6] 阿特拉津降解菌ZXY-2的培养基(ZL201610338985.8)
[7] 一种菌根强化水生美人蕉降解水中污染物的方法(ZL201610179628.1)
[8] 一株高效阿特拉津降解菌及其筛选方法以及在农田废水中阿特拉津的生物降解的应用(ZL201510335229.5)
[9] 一种布水均匀的人工湿地装置(ZL201520332923.7)
[10] 一种人工湿地模拟系统出水调节装置(ZL201520090938.7)
[11] 一种内置多电极体系的导流板式微生物电解池及其使用方法(ZL201410001377.9)
[12] 一种降解生活污水复合菌剂的制备方法(CN103540549A)
[13] 生物炭耦合协同降解TCC微生物菌剂及其制备方法(CN115537366A)
【学术专著】:
[1] 国家级教材《环境生物学》,副主编,ISBN 978-7-03-064028-4
[2] 专著《水污染与水环境治理》,独著,ISBN 979-8-88882-411-5
【联系方式】:
1. 通信地址:黑龙江省哈尔滨市香坊区长江路600号东北农业大学资源与环境学院707,150030
2. 电子邮箱:zhaoxy@neau.edu.cn
