陆建忠，理学博士，博士后，武汉大学测绘遥感信息工程国家重点实验室副教授，硕士生导师。先后于2007年和2011年受邀请在香港理工大学从事访问研究；2014-2015年获得国家留学基金委资助公派法国图卢兹三大Ecolab实验室访问学者。研究兴趣为生态环境遥感和模拟预报，主要研究方向有环境遥感，遥感资料同化模拟，气候变化与生态环境响应，遥感大数据与生态环境深度学习预报。近年来承担了各类项目二十余项。相关研究成果已在鄱阳湖、洱海流域和香港海域生态环境监测管理方面得到应用，获湖北发展研究奖一等奖1项，测绘科技进步奖二等奖2项。担任20多个国际期刊审稿人，公开发表学术论文80余篇，申请授权国家发明专利8项，计算机软件著作权登记6项。

Mr. Jianzhong Lu received his doctor degree in geography from Wuhan University, Wuhan China in 2010. He is now an associate professor in State Key Laboratory of Information Engineering of Survey Mapping and Remote Sensing in Wuhan University. His research interests focus on remote sensing and numerical simulation of eco-environment. The main research direction includes remote sensing of environment, hydrology modelling and data assimilation, climate change and environment response, and deep learning in water resources management. He was funded to work in the Hong Kong Polytech University as an assistant researcher during 2007 and 2011 respectively, and worked as a visiting scholar in Ecolab, University Paul Sabatier - Toulouse III in France during Nov. 2014 to Nov. 2015, granted by China Scholarship Council. His scientific achievements have been operationally applied in the coastal water environment management system of Hong Kong, and the environmental monitoring and protection of Poyang Lake and Erhai Lake. He has been awarded the First prize of Hubei Development Research Award once, and the Second prize of National Surveying and Mapping Technology Progress Award twice. He is also the member of the national geographic condition monitoring committee of the Chinese society of surveying and mapping geographic information, the expert and training teacher of the Second National Survey of Pollution Sources in Hubei province. He served as paper reviewer for more than 20 international journals, and has published more than 80 papers, and authorized 8 National Invention Patents and 6 Computer Software Copyright Registration.

联系方式Contact

地址：武汉市珞喻路129号武汉大学信息学部星湖大楼904办公室（430079）

Tel：+86-27-68778755（O）；Email：lujzhong@whu.edu.cn

学习工作经历Education and Professional Experiences

2015年11月至今，武汉大学测绘遥感信息工程国家重点实验室，副教授

2014年11月-2015年11月，法国图卢兹三大Ecolab实验室，访问学者

2011年11月-2012年4月，香港理工大学土木与结构工程系，助理研究员

2010年7月-2014年11月，武汉大学测绘遥感信息工程国家重点实验室，博士后、讲师

2005年9月-2010年6月，武汉大学测绘遥感信息工程国家重点实验室，理学博士

2001年9月-2005年6月，武汉大学资源与环境科学学院，理学学士

学术兼职Social responsibilities

中国测绘地理信息学会地理国情监测工作委员会首届委员（2017-）

湖北省第二次全国污染源普查专家与培训师资（2018-2020）

第五届国际水科学论坛（5th International Electronic Conference on Water Sciences，ECWS-5）科学委员会Scientific Committee（2020-2021）

WATER期刊客座编辑（2020-2021，2021-2022）

《水利水电技术（中英文）》期刊编委会特聘委员（2021-2022），优秀审稿人（2020）

承担科研项目Granted Research Projects

国家重点研发计划：重特大灾害空天地一体化协同监测应急响应关键技术研究及示范，子课题：重特大灾害应急通讯与信息服务集成平台研制

国家重点研发计划：国产多系列遥感卫星历史资料再定标技术，子课题：海洋卫星历史数据再定标系统与专题数据集构建

湖北省自然科学基金：基于分布式径流系数的无资料区遥感水文模型研究，主持

湖北省自然科学基金：遥感辅助的湖泊水环境数值模型研究，主持

武汉市应用基础前沿项目：基于时空偏差校正降尺度的全球气候变化对流域水文影响研究，主持

国家科技重大专项子课题：洱海流域生态环境综合管理平台建设与业务化运行

国家测绘地理信息公益性科研专项：卫星遥感与地面传感网一体化的湖泊流域地理国情监测关键技术研究

国家高技术研究发展计划子课题：基于多时相遥感数据的森林干扰信息的自动提取

国家自然科学基金：遥感辅助的高动态鄱阳湖悬浮泥沙模拟预测与时空一致性评价，主持

国家自然科学基金：基于遥感与数值模拟的采砂扰动下鄱阳湖水体悬浮泥沙时空动态研究

国家自然科学基金重点项目：基于遥感的鄱阳湖水沙时空格局及其形成机制研究，子课题负责

中国博士后科学基金：采砂扰动下的鄱阳湖悬浮泥沙遥感监测与模拟预报，主持

江西省重点研发计划：流域水循环遥感动态监测大数据处理与示范应用，合作主持

江西省科技计划项目：鄱阳湖湖底地形与湖盆冲淤变化监测关键技术研究，合作主持

江西省重大生态安全问题监控协同创新中心专项项目：天地一体化江西省水文水资源动态监测与信息共享服务

江西省水工程安全与资源高效利用工程研究中心开放基金重点项目：基于遥感与水动力模拟的拟建水利工程对鄱阳湖悬浮泥沙影响，主持

中央高校基本科研业务费学科交叉项目：基于遥感资料的湖泊流域未控区径流模拟预报，主持

中央高校基本科研业务费项目：遥感与数值模拟耦合的渤海悬浮泥沙监测方法研究，主持

浙江省测绘科学技术研究院委托项目：浙江省生态坏境地理国情动态监测技术服务

代表性论文Selected Journal Papers

Tian Q,Lu J, Chen X. 2022. A novel comprehensive agricultural drought index reflecting time lag of soil moisture to meteorology: A case study in the Yangtze River basin, China.Catena209, 105804

Sajjad A,Lu J, Chen X, et al., 2021. Riverine flood mapping and impact assessment using remote sensing technique: a case study of Chenab flood-2014 in Multan district, Punjab, Pakistan.Natural Hazardshttps://doi.org/10.1007/s11069-021-05033-9

Yang S, Chen X,Lu J, et al., 2021. Impacts of Agricultural Topdressing Practices on Cyanobacterial Bloom Phenology in an Early Eutrophic Plateau Lake, China.Journal of Hydrology594: 125952

Yang H, Wang H,Lu J, et al., 2021. Full lifecycle monitoring on drought-converted catastrophic flood using Sentinel-1 SAR: A case study of Poyang Lake Region during Summer 2020.Remote Sensing13(17), 3485

Tan Z, Li Y, Zhang Q, Liu X, Song Y, Xue C,Lu J. 2021. Assessing effective hydrological connectivity for floodplains with a framework integrating habitat suitability and sediment suspension behavior.Water Research2021, 201: 117253

Dao D M,Lu J, Chen X, et al., 2021. Predicting tropical monsoon hydrology using CFSR and CMADS data over the Cau River basin in Vietnam.Water13: 1314

Liu Z,Lu J, Huang J, et al., 2021. Projection of reference crop evapotranspiration under future climate change in Poyang Lake Watershed, China.Journal of Hydrologic Engineering26(1): 05020042.

Jiang H, Liu Y,Lu J. 2021. A new algorithm for monitoring Backflow from Fiver to Lake (BRL) using satellite images: A case of Poyang Lake, China.Water13: 1166

Liang D,Lu J, Chen J, et al., 2020. An investigation of the hydrological influence on the distribution and transition of wetland cover in a complex lake-floodplain system using time-series remote sensing and hydrodynamic simulation.Journal of Hydrology587:125038.

Lu J, Liu Z, Liu W, et al., 2020. Assessment of CFSR and CMADS weather data for capturing extreme hydrologic events in the Fuhe River Basin of the Poyang Lake.Journal of the American Water Resources Association56(5): 917-934

Sajjad A,Lu J, Chen X, et al., 2020. Operational Monitoring and Damage Assessment of Riverine Flood-2014 in The Lower Chenab Plain, Punjab, Pakistan, Using Remote Sensing and GIS Techniques.Remote Sensing12(4):714

Wang H, Zhong H,Lu J, et al., 2020. Understanding the river-lake relationship after the operation of TGR based on SWAT Model.Journal of Coastal Research104:593-600

Xu Y, Feng L, Zhao D,Lu J. 2020. Assessment of Landsat atmospheric correction methods for water color applications using global AERONET-OC data.International Journal of Applied Earth Observation and Geoinformation93:102192

Hou X, Shao J, Chen X, Li J,Lu J, 2020. Changes in the soil erosion status in the middle and lower reaches of the Yangtze River basin from 2001 to 2014 and the impacts of erosion on the water quality of lakes and reservoirs.International Journal of Remote Sensing41(8):3175-3196

Sajjad A,Lu J, Chen X, et al., 2019. The riverine flood catastrophe in August 2010 in South Punjab, Pakistan: potential causes, extent and damage assessment.Applied Ecology and Environmental Research17(6): 14121-14142

Lu J, Li H, Chen X, et al., 2019. Numerical study of remote sensed dredging impacts on the suspended sediment transport in China's Largest Freshwater Lake.WATER, 11(12): 2449

Liang D,Lu J, Chen X, et al., 2019. Numerical simulation of hydrological and hydrodynamic responses to channel erosion in China’s largest freshwater lake.Applied Ecology and Environmental Research17(3): 6865-6886

Zhang L, Chen X,Lu J, et al., 2019. Precipitation projections using a spatiotemporally distributed model: a case study in the Poyang Lake watershed based on the MRI-CGCM3.Hydrology and Earth System Sciences23(3):1649-1666

Lu J, Zhang L, Cui X, et al., 2019. Assessing the Climate Forecast System Reanalysis weather data driven hydrological model for the Yangtze River Basin in China.Applied Ecology and Environmental Research17(2):3615-3632

Zhang P, Qiao Y …Lu J, 2019. Using a hierarchical model framework to assess climate change and hydropower operation impacts on the habitat of an imperiled fish in the Jinsha River, China.Science of the Total Environment646: 1624-1638

Lu J, Chen X, Zhang L, et al., 2018. Water balance assessment of an ungauged area in Poyang Lake watershed using a spatially distributed runoff coefficient model.Journal of Hydroinformatics20(5): 1009-1024

Tang L, Cai X, Gong W,Lu J, et al., 2018. Increased Vegetation Greenness Aggravates Water Conflicts during Lasting and Intensifying Drought in the Poyang Lake Watershed, China.FORESTS9(1):24

Lu J, Cui X, Chen X, et al., 2017. Evaluation of hydrological response to climate variability using SWAT model: application to the Fuhe Basin of Poyang Lake watershed, China.Hydrology Research48(6): 1730-1744

Lu J, Chen X, Zhang P, et al., 2017. Evaluation of spatiotemporal differences in suspended sediment concentration derived from remote sensing and numerical simulation for coastal waters.Journal of Coastal Conservation21(1): 197–207

Zhang L,Lu J, Chen X, et al., 2017. Stream flow simulation and verification in ungauged zones by coupling hydrological and hydrodynamic models: a case study of the Poyang Lake ungauged zone.Hydrology and Earth System Sciences21(11): 5847–5861

Qi H,Lu J, Chen X, et al., 2016. Water age prediction and its potential impacts on water quality using hydrodynamic model for Poyang Lake, China.Environment Science and Pollution Research23(13), 13327-13341

Zhang P,Lu J, Feng L, et al., 2015. Hydrodynamic and inundation modeling of China’s largest freshwater lake aided by remote sensing data.Remote Sensing7(4): 4858-4879

Zhang P, Chen X,Lu J, et al., 2015. Assimilation of remote sensing observations into a sediment transport model of China’s largest freshwater lake: spatial and temporal effects.Environmental Science and Pollution Research22(23):18779-18792

Tao C, Chen X,Lu J, et al., 2015. Assessing impacts of different land use scenarios on water budget of Fuhe River, China using SWAT model.International Journal of Agricultural Biological Engineering8(3):95-106.

Lu J, Wai W H O, Chen X, et al., 2014. Flow prediction using ENVISAT RA-2 sea surface height validated model: A case study for the effect of Hong Kong-Zhuhai-Macau Bridge in the Pearl River Estuary, China.Aquatic Ecosystem Health & Management7(3): 305-315

Lu J, Chen X, Tian L, et al., 2014. Numerical simulation aided MODIS capture of sediment transport for the Bohai Sea in China.International Journal of Remote Sensing, 35(11-12): 4225-4238

Lu J, Chen X, Cai X, et al., 2014. Geomatics-based water capacity monitoring for Quake Lake and its web service implementation.Desalination and Water Treatment52(13-15): 2700-2708

Zhang P, Wai W H O,Lu J, et al., 2014. Numerical modeling of cohesive sediment transport in a tidal bay with current velocity assimilation.Journal of Oceanography70(6): 505-519

Zhang P, Wai W H O, Chen X,Lu J, et al., 2014. Improving sediment transport prediction by assimilating satellite images in a tidal bay model of Hong Kong.WATER6(3), 642-660

Chen B,Lu J, Wai W H O, et al., 2012. Development of dynamic three-dimensional coastal information System: a case study in Hong Kong,Journal of Hydroinformatics14(3):815-828

Chen X,Lu J, Cui T, et al., 2010. Coupling remote sensing retrieval with numerical simulation for SPM study - Taking Bohai Sea in China as a case.International Journal of Applied Earth Observation and Geoinformation12(S2):203-211

Tian L,Lu J, Chen X, et al., 2010. Atmospheric correction of HJ-1A/B CCD images over Chinese coastal water using MODIS-Terra aerosol data.Science China: Technical Sciences53(S1): 191-195

Lu J, Chen X, Zhang J, et al., 2007. Spatial data management and analysis system for flood hazard mitigation of Poyang Lake watershed, China.Annals of GIS, 2007, 13(1-2): 10-17

李克诚，陆建忠，张可睿，等，基于改进U-Net的CMIP5全球气候模式降尺度方法及其在鄱阳湖流域的应用．湖泊科学，2022, 34(1)

田晴，陆建忠，陈晓玲，等，基于长时序CCI土壤湿度数据的长江流域干旱时空演变．长江流域资源与环境，2022.

刘子豪，陆建忠，黄建武，等，基于全球气候模式集合的鄱阳湖流域未来潜在蒸散量及其干旱效应研究．生态学报，2021, 41(17): 6936-6948

左正康，张飞舟，，陆建忠，基于时空分布的CMIP5气候多模式集合优化．北京大学学报（自然科学版），2020,56(5): 805-814.

许杨，王野，陆建忠，等，基于FUI模型的柬埔寨洞里萨湖水体颜色研究．华中师范大学学报（自然科学版），2020,54(3):454-462+471

姜淞川，陆建忠，陈晓玲，等，基于LSTM网络鄱阳湖抚河流域径流模拟研究．华中师范大学学报（自然科学版）．2020, 54(1):40-51

刘子豪，陆建忠，黄建武，等，基于CMIP5模式鄱阳湖流域未来潜在蒸散量预估．湖泊科学，2019,31(6): 1685-1697

刘子豪，陆建忠，陈晓玲，等，基于Budyko假设的抚河流域径流变化归因识别分析．河南科学，2019,37(8): 1303-1310

陆建忠，张辰，金艳，等，流域土壤侵蚀对椒江口悬浮泥沙时空分布的影响．华中师范大学学报（自然科学版），2018,52(6):901-910

廖明伟，陆建忠，钟滨，等，卫星遥感与地面传感网一体化的湖泊流域地理国情监测关键技术研究．中国科技成果，2018,19(20):34-36

张辰，陆建忠，陈晓玲，基于输出系数模型的云南洱海流域农业非点源污染研究．华中师范大学学报（自然科学版），2017.51(1):108-114

李海军，陈晓玲，陆建忠，等，考虑采砂影响的鄱阳湖丰水期悬浮泥沙数值模拟．湖泊科学，2016,28(2),421-431

陈晓玲，陈莉琼，陆建忠，从武汉内涝看城市水生态管理及新型人地关系构建．生态学报，2016,36(16):4952-4954

张鹏，陈晓玲，陆建忠，等，基于遥感的鄱阳湖丰水期悬浮泥沙数值模拟预测．武汉大学学报（信息科学版），2016,41(11),1-8

陆建忠，崔肖林，陈晓玲，基于综合指数法的鄱阳湖流域水资源评价研究．长江流域资源与环境，2015,24(2):212-218

崔肖林，陆建忠，陈晓玲，等，不同气候条件的抚河流域SWAT径流模拟与验证．长江科学院院报，2015,31(9):14-20

陆建忠，陈晓玲，张峰，基于GIS与氮产出量的江西省农业污染评价研究．华中师范大学学报（自然科学版），2014, 48(4):587-591

陆建忠，王飞，陈晓玲，等，基于系统聚类的鄱阳湖流域水功能区划研究．水资源与水工程学报，2014, 25(5): 6-11

齐亨达，陆建忠，陈晓玲，等，鄱阳湖水动力模型的遥感验证研究．水资源与水工程学报，2014,25(6):18-23

陆建忠，陈晓玲，肖靖靖，等，改进的输出系数法在农业污染源估算中的应用．华中师范大学学报（自然科学版），2012,46(3):373-378.

张鹏，陆建忠，陈晓玲，等，MODIS遥感数据辅助的鄱阳湖水体范围变化数值模拟．武汉大学学报（信息科学版），2012,37(9):1087-1091

陆建忠，陈晓玲，李辉，等，基于GIS/RS和USLE鄱阳湖流域土壤侵蚀变化．农业工程学报，2011,27(2):337-344

张鹏，陈晓玲，陆建忠，等，基于CCMP卫星遥感海面风场数据的渤海风浪模拟研究．海洋通报，2011,30(3):266-271

李建，陈晓玲，陆建忠，等，森林火灾遥感监测方法适用性研究．华中师范大学学报（自然科学版），2011,45(3):13-18

陈晓玲，陆建忠，蔡晓斌，等，基于空间信息技术的堰塞湖库容分析方法研究．遥感学报，2008,12(6):881-888