王云权，博士，副研究员，博士生导师。主要从事不同空间尺度下包气带和地下饱水带水分、污染物迁移机理和模型开发的工作。在全水分土壤水力模型开发、土壤水力参数转化函数开发和土壤蒸发理论等方面取得了一系列原创成果。特别是开发了能够同时表征土壤结构、毛细和吸附作用的土壤水力参数模型，解决了传统模型不能描述干、湿端水力特征的缺点（目前模型已更新到第四版）。主持国家自然科学面上/青年项目，湖北省联合基金重点项目以及生态保护、化工场地地下水污染模拟保护等方向多项横向课题。以第一/通讯作者发表于水文领域top期刊《Water Resources Research》（7篇）和《Journal of Hydrology》（3篇）。担任美国土壤学会旗下著名刊物《Vadose zone Journal》副主编（2024-），获期刊2024杰出副主编奖励。担任自然资源学会干旱半干旱区水资源研究专业委员会委员（2023-）。当前的研究兴趣聚焦在包气带-饱水带水分、溶质迁移模型研发、耦合深度学习技术和物理模型的混合模型研发和参数化方案研发，旨在为大尺度包气带-饱水带水分和溶质运移模拟中的异质性、尺度难题提供解决方案。热诚欢迎感兴趣的学生报考博士/硕士研究生。代表性论文Zhou, J., Wang, Y*., Qi, P., Ma, R., Vereecken, H., Minasny, B., & Zhang, Y. (2025). Soil Physics‐Informed Neural Networks to estimate bimodal soil hydraulic properties. Water Resources Research, 61(10), e2024WR039337.Wang, Y*., Ma, R., & Vereecken, H. (2025). A generalized framework to describe unimodal and bimodal soil hydraulic properties over full water saturation range. Water Resources Research, 61(2), e2024WR038450.Qiao, S., Ma, R., Wang, Y., Sun, Z., French, H. K., & Wang, Y. (2025). A New Capillary and Adsorption‒Force Model Predicting Hydraulic Conductivity of Soil During Freeze‒thaw Processes. Water Resources Research, 61(1), e2023WR036857.Wang, Y*. (2024). Prediction of the weighted-mean soil water diffusivity in supporting the falling rate stage of evaporation. Advances in Water Resources, 104657.Wang, Y*., Ma, R., & Zhu, G. (2023). Representation of the influence of soil structure on hydraulic conductivity prediction. Journal of Hydrology, 619, 129330.Su, M., Ma, R., Wang, Y., Sun, Z., Yin, M., & Ge, M. (2023). Tracing the soil water flux in variably saturated zones using temperature data. Water Resources Research, 59(5), e2022WR033677.Wang, Y*., Ma, R., & Zhu, G. (2022). Improved Prediction of Hydraulic Conductivity With a Soil Water Retention Curve That Accounts for Both Capillary and Adsorption Forces. Water Resources Research, 58(4), e2021WR031297.Wang, Y*., Zhou, J., Ma, R., Zhu, G., & Zhang, Y. (2022). Development of a New Pedotransfer Function Addressing Limitations in Soil Hydraulic Models and Observations. Water Resources Research, 58(6), e2021WR031406.Wang , Y*., Merlin, O., Zhu, G., & Zhang, K. (2019). A physically based method for soil evaporation estimation by revisiting the soil drying process. Water Resources Research. doi:10.1029/2019wr025003.Wang , Y*., M. J, and Z. Deng, (2018), Alternative model for predicting soil hydraulic conductivity over the complete moisture range, Water Resources Research., DOI:10.1029/2018WR023037.Wang, Y*., J. Ma, H. Guan, and G. Zhu, (2017), Determination of the saturated film conductivity to improve the EMFX model in describing the soil hydraulic properties over the entire moisture range, Journal of Hydrology, 549, 38-49.Wang, Y*., J. Ma, and H. Guan, (2016). A mathematically continuous model for describing the hydraulic properties of unsaturated porous media over the entire range of matric suctions, Journal of Hydrology, 541, 873-888.Wang, Y., J. Ma*, Y. Zhang, M. Zhao, and W. M. Edmunds (2013), A new theoretical model accounting for film flow in unsaturated porous media, Water Resources Research., 49, doi:10.1002/wrcr.20390.