个人简介

2018年3499cc拉斯维加斯百人计划引进副教授,博导、硕导。聚焦水旱灾害与生态系统保护问题,开展气候变化与流域生态水文过程研究,在不同时空尺度揭示气候、植被和地形等要素对水循环和生态系统功能的影响模式和机制。主持和参与10余项国家级、省部级和校级科研项目(含国自然面上项目1项、重点研发计划子课题1项、“珠江人才计划”引进创新创业青年团队项目1项,省级自然科学基金1项,广东省水利厅科技咨询项目1项)。发表论文近40篇(含SCI论文30余篇),合作者遍布8个国家,h指数19,i10指数22。未来5年仍然以气候变化—土地利用—水文过程的关联关系为主体,通过野外观测、遥感、数据同化、模型等多种手段,深入研究植被生态系统功能和水分利用效率对环境变化尤其是极端气候如干旱和高温的响应特征和机制,摸清不同土地利用类型产水与耗水能力异同,从而为利用土地资源空间优化配置进行流域洪水管理的实践目标奠定基础,并以相关成果指导撰写基于自然的洪水管理理念与实践措施指南,加强我国小流域防洪抗旱和农业生产水资源保障工作。同时将关注点拓展到城市森林和绿地、湿地对气候变化和热岛效应的缓解作用,探讨城市绿地在应对气候变化过程中的应用前景和措施。

个人主页

ResearchGate: https://www.researchgate.net/profile/Hailong-Wang-2

Google Scholar: https://scholar.google.com/citations?user=oqY2tpcAAAAJ

ORCID: https://orcid.org/0000-0002-1091-0345

研究方向

流域生态水文过程与气候变化

土壤植被大气连续体水热盐运移观测与模拟

陆表蒸散发的估算与分割

基于土地利用的流域雨洪调控机理

遥感与数据同化在陆地生态水文学中的应用

工作经历

2018.09 -至今   3499cc拉斯维加斯,副教授

2015.06-2018.06 英国阿伯丁大学,博士后研究员

教育经历

2010.10-2015.04 澳大利亚弗林德斯大学环境学院,博士(生态水文学)

学位论文:Measurement and Simulation of Environmental Controls on Vegetation Water Use for Selected Native Species in South Australia (https://theses.flinders.edu.au/view/67930ccf-494d-4796-9b37-6c6c333c88cd/1

2007.09-2010.07 北京师范大学水科学研究院,硕士(环境科学)

学位论文:渭河流域关中地区农业节水潜力研究

2003.09-2007.07 南京农业大学资源与环境科学学院,本科(环境科学)

学位论文:苏南地区典型区域土壤中重金属迁移累积特征研究

科研项目

科技部十四五重点研发计划区域水平衡机制与国家水网布局优化研究2021.12-2025.11,子课题负责人,在研

科技部十四五重点研发计划粤港澳大湾区衍生复合灾害评估与应急避险关键技术2021.12-2024.11,参与,在研

国家自然科学基金面上项目,基于中游农业用地空间配置的流域土水协调关系研究2022.01-2025.12,主持,在研

青海省科技厅基础研究计划项目,青海湖流域沼泽草甸蒸散发分量及土壤储水量动态变化及驱动力分析2022.01-2024.12,课题骨干,在研

3499cc拉斯维加斯高校基本科研业务费青年教师团队项目,2021.01-2021.12,核心成员,已结题

广东省水利厅科技咨询项目,广东省跨市江河流域水量分配方案编制——龙江,2020.10-2022.06,主持,已结题

广东省科技厅,珠江人才计划引进创新创业团队项目面向枢纽性和控制性水利工程的水资源精细化模拟与调控新技术研发2020-2015年,课题负责人,在研

流域水循环模拟与调控国家重点实验室,开放基金项目,基于最大熵产理论的蒸散发估算与分割研究2019.05-2021.05,主持,在研

3499cc拉斯维加斯百人计划2018-2021年,主持,已结题

欧盟研究委员会(European Research Council),国际合作项目VEWAVegetation effects on water flow and mixing in high-latitude ecosystems,编号GA 3359102013-2018年,参与,已结题

英国利华休姆信托(Leverhulme Trust),国际合作项目PLATOPlant-water interlinkages in northern uplands-mediation of climate change,编号RPG-2014-0162014-2017年,参与,已结题

澳大利亚水务局和研究委员会,国家地下水研究中心,第4课题组Groundwater-vegetation-atmosphere interactions项目,2009-2014年,参与,已结题

学术兼职

期刊编辑

  1. Hydrological Processes(Associate Editor,2022年10月~)
  2. Frontiers in Climate(Associate Editor,2024年12月~,Review Editor,2021年3月~2024年12月);
  3. Water(Topic Editor,2021年3月~)

专业会员

  1. 美国地球物理学会AGU 
  2. 欧洲地球科学学会EGU
  3. 英国水文学会BHS
  4. 亚洲大洋洲地球科学协会AOGS
  5. 中国生态学会
  6. 中国地理学会

期刊审稿

  1. Hydrology and Earth System Sciences, Journal of Hydrology, Remote Sensing of Environment, Environmental Research Letters, Science of the Total Environment, Ecohydrology, Agricultural and Forest Meteorology, Journal of Geophysical Research: Biogeosciences, Hydrological ProcessesAchieves of Agronomy and Soil Science, International Journal of Biometeorology, Journal of Flood Risk Management, Natural Hazards, Hydrology Research

论文著作 (*为通讯作者)

苏文杭,闫龙,王海龙,胡鹏,胡龑航,李鑫雨,2024. 雅砻江干流着生藻类群落特征及生态位分析. 水利水电技术,已接收

Su W., Wang H.*, Gao L., 2024. Characterizing shifts in major land use types and the responses of water yield in a catchment with widespread peaty wetlands. Water Resources Managementhttps://doi.org/10.1007/s11269-024-03947-0

刘美婷,王海龙,2024. 基于Gash修正模型的野牡丹灌丛降雨截留模拟. 中国农村水利水电,10: 59-64. https://irrigate.whu.edu.cn/CN/10.12396/znsd.240337

Wang H., Guan H., Xu X., Gao L., Gutierrez-Jurado H.A., Simmons C.T., 2024. Topographic regulations on ecohydrological dynamics in a montane forest catchment and the implications for plant adaptation to environment. Journal of Hydrology, 637, 131412. https://doi.org/j.jhydrol.2024.131412

Wang H., Guan H., Liu B., Chen X., 2023. Impacts of climate extremes on vegetation dynamics in a transect along the Hu Line in China. Ecological Indicators, 155: 111043. https://doi.org/10.1016/j.ecolind.2023.111043

Zheng W., Yang Z., Wang X., Wang H., Yu X., Wang L., He B., 2022. Impacts of evaporation and inundation on near-surface salinity at a coastal wetland park. Marine Polution Bulletin, 185B: 114373. https://doi.org/10.1016/j.marpolbul.2022.114373

Liu M., Wang H.*, Liu X., Liu B., Chen X., Zhao Q., Meng Z., 2022. Intergration of carbon dioxide concentration in a simplified process-based model for evapotranspiration estimation in an old-growth forest. Forest Ecology and Management, 520: 120392. https://doi.org/10.1016/j.foreco.2022.120392

Zheng J., Wang H.*, Liu B., 2022. Impact of the long-term precipitation and land use changes on runoff variations in a humid subtropical river basin of China. Journal of Hydrology: Regional Studies, 42: 101136. https://doi.org/10.1016/j.ejrh.2022.101136

Wang, H., Zheng, J., 2022. Assessing the Effects of Surface Conditions on Potential Evapotranspiration in a Humid Subtropical Region of China. Frontiers in Climate, 4:813787. https://doi.org/10.3389/fclim.2022.813787

Wang, H., Duan, K., Liu, B., Chen, X., 2021. Assessing the large-scale plant-water relations in the humid subtropical Pearl River Basin of China. Hydrology and Earth System Sciences. 25(9): 4741-4758. https://doi.org/10.5194/hess-25-4741-2021

Huang, W., Wang, H.(*), 2021. Drought and intensified agriculture enhanced vegetation growth in the central Pear River Basin of China. Agricultural Water Management, 256: 107077. https://doi.org/10.1016/j.agwat.2021.107077

Zhu Z., Liu B., Wang H., Hu M., 2021. Analysis of the Spatiotemporal Changes in Watershed Landscape Pattern and Its Influencing Factors in Rapidly Urbanizing Areas Using Satellite Data. Remote Sensing, 13(6): 1168. https://doi.org/10.3390/rs13061168

Zhou R., Wang H.(*), Duan K., Liu B., 2021. Diverse Responses of Vegetation to Hydroclimate Across Temporal Scales in A Humid Subtropical Region. Journal of Hydrology: Regional Studies, 33, 100775, https://doi.org/10.1016/j.ejrh.2021.100775

Liu N., Deng, Z., Wang H., Luo Z., Gutierrez-Jurado H.A., He X., Guan H., 2020. Thermal remote sensing of plant water stress in natural ecosystems. Forest Ecology and Management, 476. https://doi.org/10.1016/j.foreco.2020.118433

Kleine, L., Tetzlaff, D., Smith, A., Wang, H., Soulsby, C., 2020. Using isotopes to understand evaporation, moisture stress and re-wetting in catchment forest and grassland soils of the summer drought of 2018. Hydrology and Earth System Sciences24(7): 3737–3752. https://doi.org/10.5194/hess-24-3737-2020

Wang, H., H. Guan, N Liu, C Soulsby, D Tetzlaff, X Zhang., 2020. Improving the Jarvis-type model with modified temperature and radiation functions for sap flow simulations. Journal of Hydrology, 587: 124981. https://doi.org/10.1016/j.jhydrol.2020.124981

Liu N., Wang H., He X., Deng Z., Zhang C., Zhang X., Guan H., 2019. A hybrid transpiration model for water-limited conditions, Journal of Hydrology, 578: 124104, https://doi.org/10.1016/j.jhydrol.2019.124104

Wang H., Tetzlaff D., Soulsby C., 2019. Hysteretic response of sap flow in Scots pine (Pinus sylvestris) to meteorological forcing in a humid low‐energy headwater catchment, Ecohydrology,  https://doi.org/10.1002/eco.2125

Liu N., Buckley T. N., He X., Zhang X., Zhang C., Luo Z., Wang H., Sterling N., Guan H.2019. Improvement of a simplified process‐based model for estimating transpiration under water‐limited conditions, Hydrological Processeshttps://doi.org/10.1002/hyp.13430

Liu B., Peng S., Liao Y., Wang H., 2019. The characteristics and causes of increasingly severe saltwater intrusion in Pearl River Estuary, Estuarine, Coastal and Shelf Science, 220, 54-63. https://doi.org/10.1016/j.ecss.2019.02.041

Wang, H., Tetzlaff, D., Buttle, J., Carey, S.K., Laudon, H., McNamara, J.P., Spence, C., Soulsby, C., 2019. Climate-phenology-hydrology interactions in northern high latitudes: Assessing the value of remote sensing data in catchment ecohydrological studies. Science of the Total Environment, 656, 19–28. https://doi.org/10.1016/j.scitotenv.2018.11.361

Wang, H., D. Tetzlaff, C. Soulsby, (2018). Modelling the effects of land cover and climate change on soil water partitioning in a boreal headwater catchment. Journal of Hydrology, 558: 520–531. https://doi.org/10.1016/j.jhydrol.2018.02.002

Tunaley, C., D. Tetzlaff, H. Wang, C. Soulsby, (2018). Spatio-temporal diel DOC cycles in a wet, low energy, northern catchment: highlighting and questioning the sub-daily rhythms of catchment functioning. Journal of Hydrology, 563, 962-974https://doi.org/10.1016/j.jhydrol.2018.06.056

Wang, H., D. Tetzlaff, C. Soulsby, (2017). Testing the Maximum Entropy Production approach for estimating evapotranspiration from closed canopy shrubland in a low-energy humid environment. Hydrological Processes, 31(25): 4613–4621. https://doi.org/10.1002/hyp.11363

Wang, H., D. Tetzlaff, J. J. Dick, and C. Soulsby (2017), Assessing the environmental controls on Scots pine transpiration and the implications for water partitioning in a boreal headwater catchment, Agricultural and Forest Meteorology, 240-241: 58-66. https://doi.org/10.1016/j.agrformet.2017.04.002

Ala-aho, P., C. Soulsby, H. Wang, D. Tetzlaff, (2017). Integrated surface-subsurface model to investigate the role of groundwater in headwater catchment runoff generation: a minimalist approach to parameterisation. Journal of Hydrology, 547: 664-677. https://doi.org/10.1016/j.jhydrol.2017.02.023

Yin, J., H. Wang, C. Zhan, Y. Lu, (2017). Evapotranspiration estimation approach on the basis of landsat-8 data with a two-layer framework. Journal of Applied Remote Sensing, 11(1): 016034. https://doi.org/10.1117/1.JRS.11.016034

Liu, N., H. Guan, Z. Luo, C. Zhang, H. Wang, X. Zhang, (2017). Examination of a coupled supply- and demand-induced stress function for root water uptake modeling. Hydrology Research., 48 (1): 66-76. https://doi.org/10.2166/nh.2016.173

Wang, H., H .Guan, C.T. Simmons, (2016). Modeling the environmental controls on tree water use at different temporal scales. Agricultural and Forest Meteorology. 225, 24-35. https://doi.org/10.1016/j.agrformet.2016.04.016

Wang, H., H. Guan, A. Guyot, C.T. Simmons, D.A. Lockington, (2016). Quantifying sapwood width for three Australian native species using electrical resistivity tomography. Ecohydrology. 9, 83-92. https://doi.org/10.1002/eco.1612

Wang, H., H. Guan, Z. Deng, C.T. Simmons, (2014). Optimization of canopy conductance models from concurrent measurements of sap flow and stem water potential on Drooping Sheoak in South Australia. Water Resources Research. 50, 6154-6167. https://doi.org/10.1002/2013WR01481

Wang, H., H. Guan, H.A. Gutiérrez-Jurado, C.T. Simmons, (2014). Examination of water budget using satellite products over Australia. Journal of Hydrology. 511, 546-554. https://doi.org/10.1016/j.jhydrol.2014.01.076

Yang, Y., H. Guan, J.L. Hutson, H. Wang, C. Ewenz, S. Shang, C.T. Simmons, (2013). Examination and parameterization of the root water uptake model from stem water potential and sap flow measurements. Hydrological Processes. 27, 2857-2863. https://doi.org/10.1002/hyp.9406

Wang, H., L. Li, H. Wang, and Y. Zhai (2011), Study on agricultural water-saving potential in Guanzhong region, in ISWREP 2011 - Proceedings of 2011 International Symposium on Water Resource and Environmental Protection, vol. 2, pp. 1111-1115. https://doi.org/10.1109/ISWREP.2011.5893209

王海龙,王会肖,刘海军,张传霞,农业水资源高效利用的若干问题研究,南水北调与水利科技20108(1): 82-87, 98

王海龙,王会肖,渭河流域关中地区农业节水潜力研究,南水北调与水利科技20108(4): 126-132

许新宜, 刘海军, 王红瑞王海龙,去区域气候变异的农业水资源利用效率研究,中国水利20102112-15

蔡燕,王会肖,王红瑞,王海龙,黄河流域水足迹研究,北京师范大学学报(自然科学版)2009455/6):616-620

王会肖,蔡燕,王海龙,李鹏,再生水农业利用现状及其研究进展,南水北调与水利科技 200974):98-100

刘海军,王海龙,许新宜,罗雨,李艳,李鹏,去区域气候变异的农业水资源利用效率计算方法研究,纪念中国农业工程学会成立三十周年暨中国农业工程学会2009年学术年会,2009(会议论文)

专利专著

实用新型专利:王海龙,刘美婷,郑晶华,一种降雨测量装置,专利号:ZL202120908585.2,授权日起20211029

软件著作权:王海龙,王琪,基于电阻率的树干断面结构自动辨识与计算系统[简称:ERT] V1.0,登记号:2022SR0549777,开发完成日期:2022年2月28日

指导研究生 【女生标※】

2019级:周润生,黄文焕

2020级:郑晶华,刘美婷

2021级:王   

2022级:苏文杭

2023级:贺敏倩

2024级:林伟杭

指导本科生女生】

2018级:陈晨,尹洁,滕朝阳

2019级:黄世豪,史威,万妤

2020级:黄校阳,解司阳,李靖,苏发嘉

指导本科生大创项目

降雨和土壤水脉冲对植物含水量的影响阈值研究(2020级李靖、解司阳)

柠檬树蒸腾与土壤水运移规律模拟(2022级黄嘉敏、罗烯月)

模拟(2022级黄嘉敏、气候适应性城市建设中的绿化降温机制与效果评估(2024级付应和、)

指导本科生竞赛项目

广东省水利厅第二届广东省智慧水利创新大赛,三等奖,“滨海小流域数字孪生地形模型构建方法研究”(2020级姜富轩、郑杨坤、赵乐豪、吴俊华、钟佛升)

江苏省水利厅首届大学生节水设计创新大赛,“淋浴系统冷水回收与再利用装置”(2022级胡首丞、美合日班·伊敏、曾云馨、何钦霞、丹增顿玉)

寄语学生

潜力无限,努力开发!

招聘信息

课题组招聘 3-5名博士后 开展合作研究。面向年龄在35岁以下(含),获得博士学位不超过3年,具备较高的学术水平和较强的科研能力的海内外优秀博士。