杨文瑜,男,博士,1993年10月生,云南华坪人,云南省兴滇英才支持计划青年人才,云南大学东陆青年学者。现为生态与环境学院副教授、硕士生导师,担任高原湖泊生态与治理研究院教学科研秘书,兼任Carbon Research、Artificial Intelligence and Environment、《市政技术》等期刊青年编委。
先后主持和参与了云南省重点研发项目、德国萨克森州省级项目、中德重大水专项等科研项目。相关成果在国内外权威期刊发表论文30余篇,近五年以第一/通讯作者在Water Research、Earth's Future、The Innovation等期刊发表20余篇;出版专著1部。部分成果入选ESI高被引论文,并被可持续发展资源中心(RELX SDG Resource Centre)收录于第30届联合国气候变化大会(COP30)的专题合辑;相关方法和结论被德国亥姆霍兹环境研究中心纳入欧盟2050零污染愿景的项目研究报告;受邀在《澜沧江–湄公河创新走廊建设研讨会》、The Innovation Webinar等作学术报告。
从事生态水文过程模拟、径流污染机制解析、变化环境情景预测的研究,取得以下主要成绩:
[1] 发展了“多模型协同–多数据融合”的水文过程模拟体系,整合了高精度环境遥感、长序时地面观测、社会经济统计等多源异构数据,实现了城市–流域–全球多尺度水文模拟,阐明了极端洪水事件的关键驱动因素,及其及引发的社会经济风险。
[2] 完善了“时间动态–空间分异”的径流污染分析技术,基于高分辨率水质模型,引入基尼系数、景观生态学等跨学科理论,深刻揭示了城市道路沉积物、农业面源污染、抗生素等在暴雨径流冲刷下的多尺度迁移特征,及其在复杂景观格局中的空间分异规律。
[3]构建了“气候变化–人类活动”复合胁迫预测框架,耦合CMIP6气候强迫、SSP社会经济情景与可解释机器学习,刻画了复合干热、旱涝急转等气候事件与城市扩张、人口老龄化等人为因子在未来多路径下的时空动态,识别了变化环境下极端洪水与径流污染的演变特征和驱动机制,深刻揭示了气候变化与人类活动对流域水环境的协同效应。
联系方式
E-mail: wenyu.yang@ynu.edu.cn
教育与工作经历
[1] 2024.07–至今:云南大学,高原湖泊生态与治理研究院,副教授
[2] 2023.05–2024.06:德国亥姆霍兹环境研究中心(UFZ),水文地质系,博士后
[3] 2015.10–2023.08:德国德累斯顿工业大学(TU Dresden),水资源管理专业,工学博士
[4] 2011.09–2015.07:重庆大学,给排水科学工程专业,工学学士
科研项目
[1] 2025.01–2027.12:云南省科学技术厅重点研发计划 (202502AE090046),阳宗海流域农业面源污染迁移过程监控体系与防治关键技术应用,课题负责人,经费240万元。
[2] 2025.09–2026.09:云南省河湖水系生态保护与资源利用重点实验室开放基金 (2025YKL201),气候变化下阳宗海流域农业面源污染多尺度迁移过程与机制解析,项目负责人,经费3万元。
[3] 2024.08–2027.07:云南大学高层次引进人才项目 (20240088),多重胁迫下流域生态系统格局–过程–服务级联效应,项目负责人,经费100万元。
[4] 2023.03–2024.06:德国亥姆霍兹环境研究中心(UFZ)与萨克森开发银行(SAB)联合研究 (100669418),Resilient 0-Pollution Wastewater Systems in Climate Change,课题负责人,经费344万元。
[5] 2020.10–2024.02:国家建设高水平大学公派研究生项目 (202008080005),Integrated evaluation and improvement of urban drainage system health through multi-criteria assessment and green/grey infrastructures,项目负责人,经费45万元。
教学工作
[1] 2025–至今:主讲《环境信息系统》、《水环境数学模型》等本科生课程
[2] 2025–至今:主讲《水环境模型与应用》研究生课程
[3] 2024–至今:共同讲授《面源污染控制》、《环境污染控制与修复(西南联合研究生院)》等研究生课程
学术兼职
[1] 2025–至今:《市政技术》,青年编委
[2] 2025–至今:Artificial Intelligence and Environment,青年编委
[3] 2024–至今:Carbon Research,青年编委
[4] 2023–至今:Scientific Data、The Innovation、Journal of Hydrology,审稿人
[5] 2023–2024:Special Issue “Innovative Flood Risk Management under Changing Environments”,客座编辑
科研奖励
[1] 2025年获云南省兴滇英才支持计划青年人才
[2] 2025年获Carbon Research优秀青年编委
[3] 2024年获云南大学东陆青年学者人才
[4] 2023年获德累斯顿工业大学优秀博士毕业生奖励
[5] 2020年获国家CSC公派博士研究生奖学金
[6] 2016年获德国DAAD优秀硕士研究生奖学金
代表成果
[1] Yang, W., Schmidt, C., Wu, S., Zhao, Z., Li, R., Wang, Z., Wang, H., Hua, P., Krebs, P. & Zhang, J., 2025. Exacerbated anthropogenic water pollution under climate change and urbanization. Water Research. 280, 123449. (ESI高被引)
[2] Yang, W., Zhang, J., Hua, P. & Krebs, P., 2023. Investigating non-point pollution mitigation strategies in response to changing environments: A cross-regional study in China and Germany. Water Research. 244, 120432.
[3] Yang, W., Zhao, Z., Wang, Z., Wang, X., Li, R., Hua, P., Cheng, X., Liu, Y., Wang, H., Krebs, P. & Zhang, J., 2025. Climate change and population aging exacerbate flood risk to the elderly in European regions. Earth's Future. 13, e2025EF006366.
[4] Yang, W., Brüggemann, K., Seguya, K. D., Ahmed, E., Kaeseberg, T., Dai, H., Hua, P., Zhang, J. & Krebs, P., 2020. Measuring performance of low impact development practices for the surface runoff management. Environmental Science and Ecotechnology, 100010.
[5] Yang, W., Zhang, J. & Krebs, P., 2023. Investigating flood exposure induced socioeconomic risk and mitigation strategy under climate change and urbanization at a city scale. Journal of Cleaner Prodduction. 387, 135929.
[6] Zhao, Z., Yang, W.#, Hua, P., Krebs, P. & Zhang, J., 2025. Deicing salt exacerbating freshwater salinization under climate change and human activities. The Innovation, 100862.
[7] Yang, W., Zhao, Z., Pan, L., Li, R., Wu, S., Hua, P., Wang, H., Schmalz, B., Krebs, P. & Zhang, J., 2024. Integrated risk analysis for urban flooding under changing climates. Results in Engineering. 24, 103243.
[8] Yang, W., Zhang, J. & Krebs, P., 2022. Low impact development practices mitigate urban flooding and non-point pollution under climate change. Journal of Cleaner Prodduction. 347, 131320.
[9] Yang, W. & Zhang, J., 2021. Assessing the performance of gray and green strategies for sustainable urban drainage system development: A multi-criteria decision-making analysis. Journal of Cleaner Prodduction. 293, 126191.
[10] Yang, W., Zhang, J., Mei, S. & Krebs, P., 2021. Impact of antecedent dry-weather period and rainfall magnitude on the performance of low impact development practices in urban flooding and non-point pollution mitigation. Journal of Cleaner Prodduction. 320, 128946.
[11] Yang, W., Wang, Z., Wu, S., Li, R., Hua, P., Krebs, P. & Zhang, J., 2024. Climate change and urbanization inducing a tipping point in the hydrosphere. The Innovation Geoscience 2, 100074.
[12] Yang, W., Zhang, J., Hua, P. & Krebs, P., 2023. Global framework for flood risk management under climate change and urbanization. The Innovation Geoscience 1, 100009.
[13] Luo, M., Yang, W.#, Bai, L., Zhang, L., Huang, J.-W., Cao, Y., Xie, Y., Tong, L., Zhang, H., Yu, L., Zhou, L.-W., Shi, Y., Yu, P., Wang, Z., Yuan, Z., Zhang, P., Zhang, Y., Ju, F., Zhang, H., Wang, F., Cui, Y., Zhang, J., Jia, G., Wan, D., Ruan, C., Zeng, Y., Wu, P., Gao, Z., Zhao, W., Xu, Y., Yu, G., Tian, C., Jin, L. N., Dai, J., Xia, B., Sun, B., Chen, F., Gao, Y.-Z., Wang, H., Wang, B., Zhang, D., Cao, X., Wang, H. & Huang, T., 2024. Artificial intelligence for life sciences: A comprehensive guide and future trends. The Innovation Life 2, 100105.
[14] Luo, L., Zhang, J., Wang, H., Chen, M., Jiang, Q., Yang, W.#, Wang, F., Zhang, J., Swain, R. B., Meadows, M. E., Pradhan, P., Xiao, H., Cao, M., Lin, J., Zhao, Y., Zheng, Y., Chen, F., Zhao, W., Huang, L., Zeng, J., Jeppesen, E., Vázquez-Jiménez, R., Zheng, H., Jia, M., Zhang, L., Yan, D., Chen, Y., Liang, D., Liu, J., Chen, Z., Letu, H., Shao, J., Lasaponara, R., Wang, X., Xu, Z., Liu, J., Fu, B. & Guo, H., 2024. Innovations in science, technology, engineering, and policy (iSTEP) for addressing environmental issues towards sustainable development. The Innovation Geoscience 2, 100087.
[15] Yang, W., Wang, Z., Hua, P., Zhang, J. & Krebs, P., 2021. Impact of green infrastructure on the mitigation of road-deposited sediment induced stormwater pollution. Science of the Total Environment, 145294.
[16] Wang, Z., Yang, W.#, Hua, P., Zhang, J. & Krebs, P., 2021. Transmission risk of SARS-CoV-2 in the watershed triggered by domestic wastewater discharge. Science of the Total Environment, 150888.
[17] Hua, P., Yang, W. #, Qi, X., Jiang, S., Xie, J., Gu, X., Li, H., Zhang, J. and Krebs, P. (2020) Evaluating the effect of urban flooding reduction strategies in response to design rainfall and low impact development. Journal of Cleaner Production 242, 118515.
[18] Yang, Y., Wang, H., He, J., Yang, W., Cai, H., Jiao, L., Ma S., Sun X., Jilbert T., Paerl H.W., Jeppesen, E. (2026). Spatial heterogeneity in mechanisms of internal phosphorus loading from sediments in a subtropical plateau lake. Water Research, 125745.
[19] Li, R., Luo, Y., Zhu, X., Zhang, J., Hua, P., Wang, Z., Yang, W., Chen, Q. and Li, H. (2025) Increasing Health Burdens Driven by Global Trade Induced Air Pollution. Earth's Future 13(1), e2024EF004814.
[20] Li, R., Luo, Y., Zhu, X., Zhang, J., Wang, Z., Yang, W., Li, Y., and Li, H. (2024). Anthropogenic impacts on polycyclic aromatic hydrocarbons in surface water: Evidence from the COVID-19 lockdown. Water Research 262, 122143.
[21] Zhu, X., Li, H., Luo, Y., Li, Y., Zhang, J., Wang, Z., Yang, W. and Li, R. (2024) Evaluation and prediction of anthropogenic impacts on long-term multimedia fate and health risks of PFOS and PFOA in the Elbe River Basin. Water Research 257, 121675.
[22] Li, R., Luo, Y., Li, Y., Zhu, X., Zhang, J., Wang, Z., Yang, W. and Li, H. (2024) Synergistic Reduction in Air Pollutants and Health Benefits under China’s Dual-Carbon Policy. Environmental Science & Technology 58(22), 9467-9470.
[23] Zhao, Z., Sadaghiani, M.R.S., Yang, W., Hua, P., Zhang, J. and Krebs, P. (2024) Estimating storm runoff extreme in small ungauged catchments using an integrated modeling approach. Sustainable Horizons 9, 100092.
[24] Li, H., Sun, Y., Liu, Y., Liu, Q., Duan, Y., Zhou, L., Cai, H., Yang, W., Hamilton, D.P., Paerl, H.W., Wood, S.A., Jeppesen, E. and Wang, H. (2026) Taste and odor in water supplies: A review of producers, adverse effects, detection, and mitigation. Water Biology and Security, 100608.
[25] Zhao, H., Zhao, X., Liu, Y., Sun, Y., Duan, Y., Chen, J., Xie, P., Liu, Y., Miao, X., Wang, H., Xu, C., Liu, Q., Yang, W., Steinberg, C.E.W., MacIsaac, H., Wood, S.A., Jeppesen, E. and Paerl, H. (2025) Combined Effects of Irradiation, Nutrients, and Cyanobacterial Composition on Microcystin Concentration in Chinese Plateau Lakes. Environment & Health.
[26] Oyelakin, R., Yang, W.* and Krebs, P., 2024. Analysing Urban Flooding Risk with CMIP5 and CMIP6 Climate Projections. Water 16(3), 474.
[27] Ahmed, E., Al Janabi, F., Yang, W., Ali, A., Saddique, N. and Krebs, P. (2022) Comparison of flow simulations with sub-daily and daily GPM IMERG products over a transboundary Chenab River catchment. Journal of Water and Climate Change 13 (3): 1204–1224.
[28] Ahmed, E., Al Janabi, F., Yang, W., Saddique, N. and Krebs, P. (2020) Hydrologic Assessment of TRMM and GPM-Based Precipitation Products in Transboundary River Catchment (Chenab River, Pakistan). Water 12.
[29] 王玮,杨文瑜,陈利华,韩帅. (2023) 基于水力建模的水环境治理方案评估与优化. 资源节约与环保 260 (7): 33-38.
[30] 王玮,陈利华,杨文瑜,韩帅. (2022) 污染物迁移的建模分析在小型湖泊治理中的应用——以资阳市雁南湖为例. 能源与环境 4(8): 19-22.
[31] Wenyu Yang. 2024. Characterizing the performance of low impact development under changes in climate and urbanization. Dresden:Dresdner Berichte.
[32] 杨礼威;高铭哲;杨文瑜;王海军 (2026) 流域源汇景观-水质耦合关系量化分析系统V1.0,2026SR0110393
