崔保山 - 北京师范大学

个人简介

崔保山，男，教授，博士生导师，教育部长江学者特聘教授，国家973项目首席科学家，国家杰出青年科学基金获得者，全国优秀科技工作者，享受国务院政府特殊津贴。长期从事湖沼湿地生态过程和环境响应、流域生态系统管理等方面的研究。目前担任中国环境科学学会第九届理事会常务理事、中国环境科学学会地学分会主任、国家林草局湿地保护修复科技创新联盟理事、国家湿地研究中心第一届理事会理事、国家湿地科学技术专家委员会委员、中国自然资源学会湿地资源保护专业委员会副主任、中国生态学学会咨询工作委员会委员、中国城市科学研究会水环境水生态分会委员、全国湿地保护标准化技术委员会委员等；担任Watershed Ecology and the Environment 主编，SCI刊物Wetlands副主编，Journal of Environmental Informatics Letter副主编，《湿地科学》、《环境工程》、《环境生态学》副主编，任Journal of Hydrodynamics、《生态学报》、《自然资源学报》、《环境科学学报》、《生态环境学报》、《农业资源与环境学报》等编委。主持或完成国家“973”项目（课题）、国家自然科学基金重点项目、国家重大水专项、水利部重点项目等30余项。近年来已出版专著5部，发表学术论文300余篇，其中SCI论文200余篇，EI论文50余篇，授权国家发明专利9项。曾获国家科技进步奖二等奖1项，省部级奖励6项。教育经历 1987.8-1991.7 河北师范大学资源环境学院获学士学位 1993.8-1996.7 中国科学院长春地理研究所获硕士学位 1997.8-2000.10 中国科学院长春地理研究所获博士学位工作经历 2016.01-2022.02 北京师范大学环境学院院长 2006.08-2015.12 北京师范大学环境学院副院长 2008.02-2008.06 加拿大里贾纳大学高级访问学者 2004.07-至今北京师范大学环境学院教授博士生导师 2003.07-2004.06 北京师范大学环境学院教授 2002.11-2003.06 北京师范大学环境学院副教授 2000.11-2002.08 北京师范大学环境学院博士后研究 1998.10-2000.10 中国科学院长春地理研究所副研究员 1996.07-1998.10 中国科学院长春地理研究所助理研究员 1991.07-1993.08 河北省沽源县一中教师

研究领域

湿地生态水文湿地生态修复环境生态水利生态系统管理

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Ning, Z. H.; C.Chen; T. Xie; Z. C. Zhu; Q. Wang; B. S. Cui*; J. H. Bai; Can the nativefaunal communities be restored from removal of invasive plants in coastalecosystems? A global meta-analysis, Global Change Biology, 2021, 27：4644-4656. Liu, Z. Z.;S. Fagherazzi; B. S. Cui*; Success of coastal wetlands restoration isdriven by sediment availability, Communications Earth & Environment,2021, 2：44. Liu, Z. Z.; S.Fagherazzi; J. Li; B. S. Cui*; Mismatch between watershed effects and localefforts constrains the success of coastal salt marsh vegetationrestoration, Journal of Cleaner Production, 2021, 292：12. Wang, Q.; T.Xie; M. Luo; J. H. Bai; C. Chen; Z. H. Ning; S. Cui*; How hydrologicalconnectivity regulates the plant recovery process in salt marshes, Journalof Applied Ecology, 2021, 58：1314-1324. Wang, Q.; T. Xie;Z. H. Ning; C. Chen; Y. Man; B. S. Cui*; Enhancement of lateralconnectivity promotes the establishment of plants in saltmarshes, Scienceof the Total Environment, 2021, 767：9. Yu, B.W.; B. S. Cui*; Y. G. Zang; C. S. Wu; Z. H. Zhao; Y. X. Wang; Long-TermDynamics of Different Surface Water Body Types and Their Possible DrivingFactors in China, Remote Sensing, 2021, 13：22. Ning, Z. H.; C.Chen; Z. C. Zhu; T. Xie; Q. Wang; B. S. Cui*; T. J. Bouma; Tidalchannel-mediated gradients facilitate Spartina alterniflora invasion in coastalecosystems: implications for invasive species management, Marine EcologyProgress Series, 2021, 659：59-73. Qiu, D.D.; B. S. Cui*; X. Ma; J. G. Yan; Y. Z. Cai; T. Xie; F. Gao; F. F. Wang;H. C. Sui; J. H. Bai; J. van de Koppel; H. Olff; Reciprocal facilitationbetween annual plants and burrowing crabs: Implications for the restoration ofdegraded saltmarshes, Journal of Ecology, 2021, 109：1828-1841. Qiu, D. D.; X. Ma;J. G. Yan; D. D. Shao; J. H. Bai,; B. S. Cui*; Biogeo-morphologicalprocesses and structures facilitate seedling establishment and distribution ofannual plants: Implications for coastal restoration, Science of the TotalEnvironment, 2021, 756：10. Zou Y.X., YanJ.G., Hou S.W.,Yi Y.J., Cui B.S.* Intensive landuses modify assemblyprocess and potential metabolic function of edaphicbacterial communities in theYellow River Delta, China. Science of The Total Environment, 2020, 720:137713. Xie C.J., CuiB.S.*, Xie T., Yu S.L., Liu Z.Z, Chen C., Ning Z.H., Wang Q., Zou Y.X., ShaoX.J. Hydrological connectivity dynamics of tidal flat systems impacted bysevere reclamation in the Yellow River Delta. Science of The Total Environment,2020, 739: 139860. Ning Z.H., ChenC., Xie T., Wang Q., Bai J.H., Shao D.D., Man Y., CuiB.S.* Windows ofopportunity for smooth cordgrass landward invasion totidal channel margins: Theimportance of hydrodynamic disturbance to seedling establishment. Journal ofEnvironmental Management, 2020, 266: 110559. Ning Z.H,Chen C., Xie T.,Wang T., Ma X., Sui H.C., Cui B.S.*A novel herbivorouswood-borer insect outbreak triggers die-offs of a foundation plant species incoastal ecosystems. Ecosystem Health and Sustainability, 2020, 6(1): 1-6. Liu Z.Z.,Fagherazzi S.,She X.J., Ma X., Xie C.J., Cui B.S.*Efficient tidal channelnetworks alleviate the drought-induced die-off of saltmarshes: Implications forcoastal restoration and management. Science of theTotal Environment, 2020, 749:141493. Liu Z.Z.,Fagherazzi S.,Ma X., Xie C.J., Li J., Cui B.S.* Consumer control andabiotic stresses constrain coastal saltmarsh restoration. Journal ofEnvironmental Management, 2020, 274: 111110. Shao X.J.,Fang Y., JawitzW.J., Yan J.G., Cui B.S.* River network connectivityand fish diversity. Science of the Total Environment,2019, 689: 21-30. Yan J.G., CuiB.S.*,Huang H.H., O’FlynnS., Bai J.H., Ysebaert T. Functional consumersregulate the effect of availability of subsidy on trophic cascades in theYellow River Delta, China. Marine Pollution Bulletin, 2019, 140: 157-164. Qiu D.D.,Yan J.G., Ma X.,Luo M., Wang Q., Cui B.S.*Microtopographical modificationby a herbivore facilitates the growth of a coastal saltmarsh plant. MarinePollution Bulletin, 2019, 140: 431-442. Yu S., CuiB.S.*, Gibbons P. A method for identifying suitable biodiversity offset sitesand its application to reclamation of coastal wetlands in China. BiologicalConservation, 2018, 227:284-291. HuaY.Y., Cui B.S.* Environmental flows and its satisfaction degreeforecasting in the Yellow River. Ecological Indicators,2018, 92: 207-220. Wang Q., CuiB.S.*, Luo M., Shi W. Designing microtopographic structures to facilitateseedling recruitment in degraded saltmarshes. Ecological Engineering, 2018,120: 266-273. He Q., SillimanB.R., Liu Z.Z., Cui B.S.*. Natural enemies govern ecosystem resilience in theface of extreme droughts. Ecology Letters, 2017, 20: 194-201. HuaY.Y., CuiB.S*., He,W.J., CaiY.Z.Identifying potential restoration areas of freshwater wetlands in a riverdelta. Ecological Indicators, 2016, 71:438-448. Liu Z.Z.,Cui B.S.*, He Q. Shifting paradigmsin coastal restoration: Six decades' lessons from China. Scienceof TheTotal Environment, 2016, 566-567:205-214. Han Z., CuiB.S.*. Development of an integrated stress index to determine multipleanthropogenic stresses on macrophyte biomass and richness inponds. Ecological Engineering,2016, 90:151-162. Cui B.S.*,He Q., Gu B.H., Bai J.H., Liu X.H. China’s Coastal Wetlands: UnderstandingEnvironmental Changes and Human Impacts for Management andConservation. Wetlands,2016, 36(S1):1-9. Cui B.S.*,Shao X.J.,Zhang Z.M. Assessment of flow paths and confluences for saltwaterintrusion ina deltaic river network. Hydrological Processes,2015;29(20):4549-58. He Q.,Altieri A.H., Cui B.S.*. Herbivory driveszonation of stress-tolerant marsh plants. Ecology, 2015, 96(5):1318-1328 Yan J.G., CuiB.S.*, ZhengJ.J., Xie T., Wang Q., Li S.Z. Quantification of intensive hybridcoastal reclamation for revealing its impacts onmacrozoobenthos. Environmental Research Letters, 2015, 10(1): 014004. He Q., BertnessM.D.,Bruno J.F., Li B., Chen G.Q., Coverdale T.C., Altieri A.H., Bai J.H., SunT.,Pennings S.C., Liu J.G., Ehrlich P.R., Cui B.S.* Economic development andcoastal ecosystem change in China. Scientific Reports, 4, 5995,10.1038/srep05995. Li X., Cui B.S.*,YangQ.C., Lan Y., Wang T.T., Han Z. Effects of plant species on macrophytedecomposition under three nutrient conditions in a eutrophic shallow lake,North China. Ecological Modelling,2013, 252: 121-128. Zhang H.G.,CuiB.S.*, Ou B.B., Lei X.X. Application of a biotic index to assess natural andconstructed riparian wetlands in an estuary. Ecological Engineering, 2012,44: 303-313. He Q., CuiB.S.,Bertness M.D., An Y. Testing the importance of plant strategies onfacilitation using congeners in a coastal community. Ecology, 2012, 93:2023-2029. Cui B.S*., ZhangZ.M., Lei X.X. Implementation of Diversified Ecological Networks to StrengthenWetland Conservation. CLEAN–Soil, Air, Water, 2012, 40: 1015–1026. Cui B.S.*, He Q.,Zhang K.J., Chen X. Determinants ofannual–perennial plant zonation across asalt–fresh marsh interface: a multistage assessment, Oecologia, 2011,166(4): 1067-1075. Cui B.S.*, Hu B.,Zhai H.J. Employing three ratio indices for ecological effect assessment ofManwan dam construction in the LancangRiver, China. River Research andApplication, 2011, 27(8): 1000-1022. Cui B.S.*, He Q.,An Y. Spartina alterniflora invasions andeffects on crab communities in awestern Pacific estuary. Ecological Engineering, 2011, 37(11): 1920-1924. Cui B.S.*, ZhangQ.J., Zhang K.J., Liu X.H., Zhang H.G. Analyzing trophic transfer of heavymetals for food webs in the newly-formed wetlands of the Yellow River Delta,China. Environmental Pollution, 2011, 159: 1297-1306. Cui B.S.*, He Q.,An Y. Community structure and abiotic determinants of salt marsh plant zonationvary across topographic gradients. Estuaries and Coasts, 2011, 34:459-469. Zhang H.G., CuiB.S.*, Hong J.M., Zhang K.J. Synergism of natural and constructed wetlands inBeijing, China. Ecological Engineering, 2011, 37: 128-138. Liu Q., Cui B.S.*.Impacts of climate change/variability onthe streamflow in the Yellow RiverBasin, China. Ecological Modelling, 2011, 222: 268-274. Cui B.S.*, Li X.,Zhang K.J. Classification of hydrological conditions to assess water allocationschemes for Lake Baiyangdian in North China. Journal of Hydrology,2010,385: 247-256. Cui B.S.*, YangQ.C.,Zhang K.J., Zhao X.S., You Z.Y. Responses of saltcedar (Tamarix chinensis)towater table depth and soil salinity in the Yellow River Delta,China. Plant Ecology, 2010, 209: 279-290. Zhai H.J., CuiB.S.*,Hu B., Zhang K.J. Prediction of the river ecological integrity after thecascade hydropower dam construction on the mainstream of rivers in LongitudinalRange-Gorge Region (LRGR), China. Ecological Engineering, 2010, 36:361-372. Hu B., CuiB.S.*,DongS.K., Zhai H. J., Liu Z.Y. Ecological Water Requirement (EWR) Analysisof High Mountain and Steep Gorge (HMSG) River—Application toUpperLancang–Mekong River. Water Resources Management, 2009, 23:341-366. Cui B.S.*, WangC.F.,Tao W.D., You Z.Y. River channel network design for drought and floodcontrol: A case study of Xiaoqinghe River basin, Jinan City,China. Journal of Environmental Management, 2009, 90: 3675-3686. Wei G.L., YangZ.F., CuiB.S.*, Li B., Chen H., Bai J.H., Dong S.K. Impact of dam constructionon water quality and water self-purification capacity of the Lancang River,China. Water Resources Management, 2009,23:1763-1780. Cui B.S.*, YangQ.C.,Yang Z.F., Zhang K.J. Evaluating the ecological performance of wetland restorationin the Yellow River Delta, China. Ecological Engineering, 2009, 35:1090-1103. 专著（教材），奖励和专利白洋淀沼泽化驱动机制与调控模式，崔保山、韩祯、李夏等著，北京：科学出版社，2017.11。湿地生态需水机理、模型和配置，杨志峰、崔保山、孙涛等著，北京：科学出版社，2012.1。纵向岭谷区重大工程建设与区域生态系统变化交互作用，崔保山、杨志峰、董世魁等著，北京：科学出版社，2009.12。湿地学，崔保山、杨志峰编著，北京：北京师范大学出版社，2006.12。生态环境需水量理论、方法与实践，杨志峰, 崔保山,刘静玲等，北京：科学出版社，2003.3。大规模围填海对滨海湿地的影响与对策，崔保山等. 中共中央办公厅采纳, 中央领导批示, 2017. 流域生态系统健康的水资源保障技术，国家科技进步二等奖，排名2，2008。珠江河口湿地典型污染物行为、效应与调控机理，教育部自然科学二等奖，排名2，2017.3。湖泊湿地生态过程与环境行为机理研究，教育部自然科学二等奖，排名2，2018.3。重大水电与公路工程建设的生态效应及评价技术，教育部科技进步二等奖，排名1，2008。湿地生态需水整合模型、优化配置与生态调度技术，教育部科学技术进步奖一等奖，排名2，2012.2。北方地区生态环境需水量研究，教育部科学技术进步奖一等奖，排名2,2004.2。一种分媒介种子捕捉器，国家知识产权局，2017.7. 一种多功能原位土壤及土壤溶液采集器，国家知识产权局，2015.4。一种大型水生植物定量采样器，国家知识产权局，2014.6。一种原位分时段沉积物收集器，国家知识产权局，2014.3。一种模拟污染物原位迁移转化的柱状渗滤装置及方法，国家知识产权局，2014.1。基于湖泊水生植被蔓延的沼泽化动态监测与预警技术，国家知识产权局，2012.8。基于小波多尺度变换的湖泊生态补水方法，国家知识产权局，2012.5。一种优化台田格局调控草型湖泊优势沼泽植被蔓延的方法，国家知识产权局，2012.2。利用湖泊底泥和煤渣为培养土的制作方法，国家知识产权局，2011.12。

学术兼职

中国环境科学学会第九届理事会常务理事中国环境科学学会环境地学分会主任国家湿地科学技术专家委员会委员国家林草局湿地保护修复科技创新联盟理事国家湿地研究中心第一届理事会理事中国地理学会湖泊与湿地研究分会复副主任中国自然资源学会湿地专业委员会副主任国家高原湿地研究中心学术委员会委员中国科学院黄河三角洲滨海湿地生态试验站学术委员会委员山东省黄河三角洲生态环境重点实验室学术委员会委员中国生态学学会咨询工作委员会委员中国环境科学学会生态农业委员会委员全国泥炭标准化技术委员会委员水利标准化工作专家委员会委员中国城市科学研究会水环境水生态分会委员全国湿地保护标准技术委员会委员海南省特聘专家北京湿地研究中心客座研究员《Watershed Ecology and the Environment》主编《Wetlands》associate editor 《Journal of Environmental Informatics Letter》associate editor 《湿地科学》副主编《环境工程》副主编《环境生态学》副主编 Journal of Hydrodynamics 编委《生态学报》编委《环境科学学报》编委《自然资源学报》编委《生态环境学报》编委《农业资源与环境学报》编委《环境保护科学》编辑委员会学术顾问