导师介绍

吕爱锋

1、个人简介 

吕爱锋, 博士,中国科学院地理科学与资源研究所副研究员,硕士研究生导师,水资源研究室副主任,中国科学院大学岗位教授。2000年毕业于山东师范大学人口、资源与环境学院,获地理科学学士学位;2003年毕业于中国科学院新疆生态与地理研究所,获地理信息系统应用方向硕士学位;20073月毕业于中科院地理科学与资源研究所,获生态系统生态学方向博士学位。长期从事流域系统模拟、水旱灾害过程模拟与管理以及内陆高寒干旱盆地水土资源综合研究。先后主持国家自然科学基金、水利部公益性项目课题、国家重点研发计划课题等项目20余项。已在国内外发表相关学术论文70余篇,其中SCI检索的论文30余篇,授权专利2项,获得软件著作权8项,参与完成著作3部,完成相关规划2项。目前研究方向主要包括:(1)无资料区水文信息获取研究;(2)水资源安全与承载力研究;(3)水资源的风险管理。联系方式:lvaf@igsnrr.ac.cn; lvaf@163.com 

2、科研成果 

[1] Lv, A(*); Zhang, Z.; Zhu, H. A Neural-Network Based Spatial Resolution Downscaling Method for Soil Moisture: Case Study of Qinghai Province. Remote Sens. 2021, 13, 1583.https://doi.org/10.3390/rs13081583 

[2] Zheng, Y.; Zhao, S.; Huang,J.; Lv, A(*). Analysis of the Spatiotemporal Pattern and Mechanism of Land Use Mixture:Evidence from China’s County Data. Land ,2021, 10, 370. https://doi.org/10.3390/land10040370 

[3] Qi, S; Lv, A(*). Applicability analysis of multiple precipitation products in the Qaidam Basin, Northwestern China. Environmental Science and Pollution Research,2021, https://doi.org/10.1007/s11356-021-13291-0.  

[4] Zheng, Y.; Yang, H.; Huang,J.; Wang, L.; Lv, A(*). The Impacts of the Geographic Distribution of Manufacturing Plants on Groundwater Withdrawal in China. Water 2021, 13, 1158.https://doi.org/10.3390/w13091158 

[5] Zhang Y, Hou J, Ma G, Zhai X, Lv A, Wang W, Wang Z, Regional differences of water regulation services of terrestrial ecosystem in the Tibetan Plateau: Insights from multiple land covers, Journal of Cleaner Production, 283,2021,125216, 

[6] Mehmood, A.; Jia, S.; Lv, A.; Zhu, W.; Mahmood, R.; Saifullah, M.;Adnan, R.M. Detection of Spatial Shift in Flood Regime of the Kabul River Basin in Pakistan, Causes, Challenges, and Opportunities. Water, 2021, 13, 1276. https://doi.org/10.3390/w13091276 

[7] Zhu H, Zhang Z; Lv A (*). Evaluation of Satellite-Derived Soil Moisture in Qinghai Province Based on Triple Collocation, water, 2020, 12. 

[8] Lv A (*)., Qu B, Jia S Zhu W. Influence of three phases of El Ni?o–Southern Oscillation on daily precipitation regimes in China . Hydrol. Earth Syst. Sci., 2019,23, 883–896. 

[9] Zheng Y, Wang L, Chen H, Lv A (*).Does the Geographic Distribution of Manufacturing Plants Exacerbate Groundwater Withdrawal? -A case study of Hebei Province in China. Journal of Cleaner Production,2019, 213 , 642-649. 

[10] Lv A, Zhou L. A Rainfall Model Based on a Geographically Weighted Regression Algorithm for Rainfall Estimations over the Arid Qaidam Basin in China[J]. Remote Sensing, 2016, 8(4). 

[11]  Qu B, Lv A (*), Jia S, et al. Daily Precipitation Changes over Large River Basins in China, 1960–2013[J]. Water, 2016, 8(5). 

[12]  Yan J, Jia S, Lv A, et al. Analysis of the spatio-temporal variability of terrestrial water storage in the Great Artesian Basin, Australia[J]. Water Science & Technology: Water Supply2016. 

[13]  Sun Z, Jia S, LvA, et al. Impacts of Climate Change on Growth Period and Planting Boundaries of Spring Wheat in China under RCP4.5 Scenario[J]. 资源与生态学报(英文版), 2016. 

[14]  Qu, B., Zhu, W., Jia, S., & Lv, A (*). Spatio-Temporal Changes in Vegetation Activity and Its Driving Factors during the Growing Season in China from 1982 to 2011[J]. Remote Sensing, 2015, 7(10):13729-13752. 

[15]  Zhou L, Lv A (*). Investigating natural drivers of vegetation coverage variation using MODIS imagery in Qinghai, China[J]. Journal of Arid Land, 2015, 8(1):109-124. 

[16]  Zhao L , Lv A, Wu J, et al. Impact of Meteorological Drought on Streamflow Drought in Jinghe River Basin of China[J]. Chinese Geographical Science, 2014, 24(6):694-705. 

[17]  Zhu W, Jia S, Lv A. Monitoring the Fluctuation of Lake Qinghai Using Multi-Source Remote Sensing Data[J]. Remote Sensing, 2014, 6(11):10457-10482. 

[18]  Liu M, He B, Lv A (*), et al. Parameters sensitivity analysis for a~crop growth model applied to winter wheat in the Huanghuaihai Plain in China[J]. Geoscientific Model Development Discussions, 2014, 7(3):3867-3888. 

[19]  Zhu W, Lv A, Jia S. Estimation of daily maximum and minimum air temperature using MODIS land surface temperature products[J]. Remote Sensing of Environment, 2013, 130(march):62-73. 

[20]  He, BWu, JLv, Aet al. Quantitative assessment and spatial characteristic analysis of agricultural drought risk in ChinaNatural Hazards2013662):155-166 

[21]  Lv A Zhu WJia S. Assessment of the sensitivity of vegetation to El-Nino/Southern Oscillation events over ChinaAdvances in Space Research2012501362-1373 

[22]  Wu, JZhao, LZheng, YLv, A (*)Regional differences in the relationship between climatic factors, vegetation, land surface conditions, and dust weather in China's Beijing-Tianjin Sand Source RegionNatural Hazards2012621):31-44 

[23]  Zhu W, Jia S, Lv A, Yan T. Analyzing and modeling the coverage of vegetation in the Qaidam Basin of China: The role of spatial autocorrelation. Journal of Geographical Sciences,2012,22(2):346-358. 

[24]  Jianjun Wu, Jie Zhang, Aifeng Lv & Lei Zhou (2012): An exploratory analysis ofspectral indices to estimate vegetation water content using sensitivity function, Remote Sensing Letters, 3:2, 161-169. (SCI检索) 

[25]  Lv A Jia SYan H, et al. El Nino-Southern Oscillation and water resources in the headwaters region of the Yellow River: links and potential for forecastingHydrology and Earth System Sciences2011150):1273-1281 

[26]  Jia, SZhu, WLv, A (*)Yan, T. A statistical spatial downscaling algorithm of TRMM precipitation based on NDVI and DEM in the Qaidam Basin of ChinaREMOTE SENSING OF ENVIRONMENT201111512):3069-3079 

[27]  He B, Wu J, Lv A, et al. Quantitative assessment and spatial characteristic analysis of agricultural drought risk in China[J]. Natural Hazards, 2011, 56(3):785-801. 

[28]  He BLv A (*)Wu JZhao LLiu M. Drought hazard assessment and spatial characteristics analysis in ChinaJOURNAL OF GEOGRAPHICAL SCIENCES2011212):235-249 

[29]  Zhu W, Lv A, Jia S. 2011. Spatial distribution of vegetation and the influencing factors in Qaidam Basin based on NDVI. JOURNAL OF ARID LAND, 2011, 3(2), 85-93. 

[30]  Wu J, He B, Lv A, et al. Quantitative assessment and spatial characterristics analysis of agricultural drought vulnerability in china. Natural Hazards, 56: 785-801.  

[31]  Jia S, Lin S, Lv A. Will the water shortage of China shake the food security of the world? [J].Water International, 2010,35(1):6-17. 

[32]  Lv A, Tian H, Liu M, et al. Spatial and temporal patterns of carbon emissions from forest fires in China from 1950 to 2000, Journal of geophysical research,2006,111 111, D05313, doi:10.1029/2005JD006198(SCI检索) 

[33]  梁缘毅, 吕爱锋(*). 中国水资源安全风险评价[J]. 资源科学, 2019, 41(4): 775-789. 

[34]  管子隆,吕爱锋(*),贾绍凤,等.格尔木河中游地区植被覆盖与地下水埋深关系研究[J].南水北调与水利科技,2018,16(3):86-93. 

[35]  孙侦, 贾绍凤, 吕爱锋,. IPCC AR5全球气候模式模拟的中国地区日平均降水精度评价[J]. 地球信息科学学报, 2016(2):227-237. 

[36]  吕爱锋, 贾绍凤, 韩雁. 青海省水中长期供需平衡模型建立与应用[J]. 南水北调与水利科技, 2016(5). 

[37]  吕爱锋, 贾绍凤. 遥感驱动的分布式实际径流模拟研究[J]. 南水北调与水利科技, 2016, 14(3). 

[38]  刘明, 李素菊, 武建军, 和海霞, 黄河, & 吕爱锋. 1961-2010年陕甘宁农区干旱变化规律及其对小麦潜在产量的影响. 农业工程学报(18), 2015,147-154. 

[39]  孙侦, 贾绍凤, 吕爱锋,. IPCC AR5全球气候模式对1996-2005年中国气温模拟精度评价[J]. 地理科学进展, 2015, 34(10):1229-1240. 

[40]  韩雁, 贾绍凤, 吕爱锋. 柴达木盆地水资源供需配置规划[J]. 南水北调与水利科技, 2015, 13(1):10-14. 

[41]  吕爱锋, 周磊, 朱文彬. 青海省土地荒漠化遥感动态监测[J]. 遥感技术与应用, 2014, 29(5):803-811. 

[42]  刘明, 吕爱锋(*), 武建军,. 干旱对农业生态系统影响研究进展[J]. 中国农学通报, 2014(32):165-171. 

[43]  胡俊锋, 杨佩国, 吕爱锋,. 基于ISM的区域综合减灾能力评价指标体系研究[J]. 灾害学, 2014, 29(1):75-80. 

[44]  李小涵, 武建军, 吕爱锋,. 不同CO2浓度变化下干旱对冬小麦叶面积指数的影响差异[J]. 生态学报, 2013, 33(9):2936-2943. 

[45]  耿艳辉, 吕爱锋*, 闵庆文,. 泾河流域不同时期土壤侵蚀状况及分区的植被建设研究[J]. 干旱区研究, 2012, 29(3):385-392. 

[46]  徐辉, 贾绍凤, 吕爱锋,. 青海省农村饮水安全及区域差异原因分析[J]. 资源科学, 2012, 34(11):2051-2056. 

[47]  王素慧, 贾绍凤, 吕爱锋. 三江源地区植被盖度与居民点的关系研究[J]. 资源科学, 2012, 34(11):2045-2050. 

[48]  李建平, 贾绍凤, 吕爱锋,. 格尔木市水量调度管理调研分析[J]. 水利科技与经济, 2012, 18(4):32-34. 

[49]  李建平, 贾绍凤, 吕爱锋,. 格尔木市取水管理制度发展演变及其与水权制度关系分析[J]. 水利科技与经济, 2012, 18(3):1-4. 

[50]  周玮, 吕爱锋,贾绍凤.2011. 白洋淀流域1959年至2008年山区径流量变化规律及其动因分析.资源科学, 07: 1249-1255. 

[51]  赵林,武建军,吕爱锋,刘晓晨,刘明. 2011.黄淮海平原及其附近地区干旱时空动态格局分析——基于标准化降雨指数.资源科学,03: 468-476. 

[52]  吕爱锋,杨佩国.2011.我国森林火灾与气温?降水的关系及其时空差异,25:15332-15336. 

[53]  吕爱锋, 贾绍凤 ,王素慧等.PDO ENSO 指数与三江源地区径流变化的相关关系研究.南水北调与水利科技,2010,8(2):49-52.  

[54]  朱文彬, 吕爱锋, 贾绍凤.基于NDVI 的柴达木盆地植被空间分异规律及影响因素.干旱区研究,201027(5):691-698. 

[55]  李燕萍 ,吕爱锋,贾绍凤.一种基于谐波分析的年径流预报方法.南水北调与水利科技,2010,8(5):68-70.  

[56]  刘明,武建军,吕爱锋等,黄淮海平原雨养条件下冬小麦水分胁迫分析.地理科学进展,2010,29(4):427-432. 

[57]  刘明,武建军,吕爱锋等. 黄淮海平原典型区冬小麦水分胁迫规律与灌溉策略[J]. 农业工程学报,201026(5) 4044. 

[58]  何斌,武建军,吕爱锋.农业干旱风险研究进展.地理科学进展,2010295):557-564. 

[59]  赵林 ,武建军, 吕爱锋, 刘明,杨曦, 何斌.2010. 京津风沙源区植被变化对降水的响应规律研究. 北京师范大学学报(自然科学版). 05: 610-618. 

[60]  耿艳辉, 闵庆文, 吕爱锋, 成升魁. 2010. 泾河流域不同生态功能区可持续发展能力评价.中国人口.资源与环境, 20(09):127-133. 

[61]  吕爱锋,贾绍凤,燕华云等.三江源地区融雪径流时间变化特征与趋势分析.资源科学,2009,31(10)1704-1709. 

[62]  吕爱锋,田汉勤.气候变化、火干扰与生态系统生产力. 植物生态学报,2007, 32(2):242-251. 

[63]  吕爱锋,田汉勤,刘永强. 火干扰与生态系统碳循环. 生态学报,200525(10)2734-43. 

[64]  吕爱锋,王纲胜,陈曦,冯先伟. 基于GIS的分布式水文模型系统开发研究. 中国科学院研究生院学报,200421(1)56-62. 

[65]  夏军,王纲胜,吕爱锋,谈戈. 分布式时变增益流域水循环模拟. 地理学报,200358(5)789-796. 

[66]  吕爱锋,陈曦,王纲胜. 基于DEM的流域水系分维估算方法探讨. 干旱区地理,200225(4)315-320. 

[67]  王纲胜,夏军,谈戈,吕爱锋. 潮河流域时变增益分布式水循环模型研究. 地理科学进展,200221(6)573-582. 

[68]  高迎春,姚治君,刘宝勤,吕爱锋. 密云水库入库径流变化趋势及动因分析. 地理科学进展,200221(6)546-553. 

[69]  Aifeng Lv. A Raster-based forest fire regime model, Proceedings of IEEE 2011  International conference on Multimedia Technology. (EI 检索)  

[70]  Aifeng Lv. 2011. Study on the relationship among forest fire, temperature and precipitation and its spatialtemporal variability in china.Agricultural science & technology.1396-1400. 

[71]  Aifeng Lv, Shaofeng Jia, Chenxu Lü.Simulation of Actual Runoff using RemoteSensing Driven Distributed Hydrological model , Proceedings of IEEE 2011  International conference on Multimedia Technology. (EI 检索) 

[72]  Wu,Jianjun, Lv, Aifeng. Evaluation of algorithms and remote sensing datasets for fire mapping in china. 2008 IEEE International Geoscience and Remote Sensing Symposium – Proceedings,2008,3(1): III840-III843  (EI 检索). 

[73]  Lv AF Tian HQ Liu ML Liu JY Melillo JM. Annual release of carbon from forest fire in China during 1950-2000: Integrating remotely sensed data forest fire inventory and models. The INTECOL IX International Congress of Ecology and the 90th Ecological Society of America (ESA) Annual Meeting, August 8-12, 2005, Montreal, Canada.  

[74]  Lv AF. 2006. Interdisciplinary Research of Carbon and Water Cycles in China: Results from an International Collaborative Project. Earth System Science Partnership Global Environmental Change Open Science Conference(地球系统科学联盟全球环境变化开放科学大会). Dec. 2006 Beijing. 

  

招生专业与方向
招生专业:自然地理学。
研究方向:流域水循环与水资源。
欢迎具有扎实的自然地理学、生态学及相关学科基础知识、熟悉遥感与GIS应用的广大同学报考。

联系方式 

地址:北京市朝阳区大屯路甲11号,中国科学院地理科学与资源研究所

电话:010-64856539,传真:010-64856539,邮编:100101

Email: lvaf@igsnrr.ac.cn, lvaf@163.com