导师队伍





杨薇,女,副教授。博士生导师。水生态工程研究所党支部书记。主要从事湿地生态水利及生态效应方面研究。已发表学术论文60余篇,出版学术专著2部。

 

教育经历

2004-2007 哈尔滨工业大学 环境工程专业 攻读工学博士学位

2002-2004 哈尔滨工业大学 环境工程专业 攻读工学硕士学位

1998-2002 河北建筑工程学院 给水排水专业 攻读工学学士学位

 

工作经历

2007-2010 北京师范大学 环境学院 讲师

2010-2011 北京师范大学 环境学院 岗位副教授

2012-今 北京师范大学 环境学院 副教授 博导

 

科研项目

1.     水专项子课题:《白洋淀-大清河生态廊道生态需水量核算技术》 2018-2020,子课题编号2018ZX07110001-1子课题负责人

2.     国家自然科学基金面上项目:《淡水恢复工程驱动下黄河三角洲湿地生态系统服务动态权衡模型》2016-2019 课题负责人

3.     国家重大研发计划重点专项项目课题《河湖沼系统生态需水整体核算及调控技术》2017-2020课题技术负责人

4.     国家重点研发计划重点专项项目《人类活动对典型生态系统结构与功能影响及安全阈值》2018-2021子课题负责人

5.     国家自然科学基金委联合基金项目《黄河三角洲盐沼湿地退化与生态保护机制研究 》2018-2022 子课题负责人

6.     中国工程院咨询研究项目《我国滨海湿地生态修复技术规范战略研究 》2018-2019 课题学术骨干

7.     国家自然科学基金面上项目:《维持湿地服务功能的生态流量阈值研究》2013-2016 课题负责人

8.     国家自然科学基金青年基金:《考虑非传统水资源的城市河流生态需水规律及优化配置》2010-2012课题负责人

9.     国家十一五水专项子课题:《白洋淀流域入淀水量综合保障技术与工程示范子课题》(项目号2008ZX07209-009-4)2008-2011 课题负责人

10.  高等学校博士学科点专项科研基金:《基于量质统一考虑的城市河流生态用水优化配置研究-以北京市为例》2009-2011 课题负责人

11.  北京师范大学自主科研基金:《再生水回用于景观水体的生态特征及风险评估》2011-2012 课题负责人

12.  国家973计划课题《围填海对湿地水生态过程影响机理和模拟》2013-2016 课题学术骨干

13.  国家自然科学基金重点项目《浅水草型湖泊生态水文过程演变机制与综合调控》2015-2019 课题学术骨干

14.  国家重点发展研发计划《梯级水电开发下流域生态系统格局变化及生态修复》2016-2020课题学术骨干

15.  国家创新团队项目(水生态方向)《重大工程建设对湿地水生态过程与功能的影响及调控机理》 2012-2016课题学术骨干

16.  国家重大水专项《白洋淀流域生态需水保障及水生态系统综合调控技术与集成示范》2008-2012课题学术骨干

17.  国家杰出青年基金项目《环境水利》2006-2010课题学术骨干

18.  国家自然科学基金重点项目《水坝工程的生态风险及安全调控机理研究》2009-2013课题学术骨干

19.  GEF海河项目《山西省潞城市水资源与水环境综合管理规划(IWEMP)编制》2008-2009课题学术骨干

 

发表论文

[1]   Li Xiaoxiao,Yang Wei*, Sun Tao, SuLiya. Framework of multidimensional macrobenthosbiodiversity to evaluate ecological restoration in wetlands. EnvironmentalResearch Letters. 2019, 14: 054003

[2]  Pei Jun, YangWei*, Cai Yanpeng, Yi Yujun, Li Xiaoxiao. Relationship between vegetation andenvironment in an arid-hot valley in Southwestern China. Sustainability. 2018,10(12): 4774

[3]   Yang Wei*,JinYuwan, Sun Tao, Yang Zhifeng, Cai Yanpeng, Yi Yujun. 2018. Trade-offs amongecosystem services in coastal wetlands under the effects of reclamationactivities. Ecological Indicators. 92, 354-366.

[4]   Yang Wei*, LIXiaoxiao, JinYuwan, Sun Tao. 2018. The impact of multiple seashore reclamationactivities on vegetation cover in the Yellow River Delta, China:implications based on structural equation modeling. 22,283-292.

[5]    Qi Man, SunTao*, XueSufeng, Yang Wei, Shao Dongdong, Martinez-Lopez Havier. 2018.Competitive ability, stress tolerance and plant interactions along stressgradients. Ecology.99(4), 848-857.

[6]   Zhang Heyue,Sun Tao*, XueSufeng, Yang Wei, Shao Dongdong. 2018. Habitat-mediated, density-dependent dispersal strategies affecting spatial dynamics of populations in ananthropogenically - modied landscape.Science of the Total Environment. 2018, 625, 1510-1517.

[7]   Pang Aiping,Li Chunhui*, Sun Tao, Yang Wei, YangZhifeng. 2018. Trade-off analysis todetermine environmental flows in a highly regulated watershed.ScientificReports. 8, 14130.

[8]   Yi Yujun,ZhouYang,CaiYanpeng, Yang Wei, Li Zhiwei, Zhao Xu. 2018. The influence ofclimate change on an endangered riparian plant species: The root of riparianHomonoia. Ecological Indicators, 92,40-50.

[9]   YangWei, Li Xiaoxiao, Pei Jun, Sun Tao, Shao Dongdong, Bai Junhong, LiYingxia. 2017. Bioavailability of trace metals in sediments of a recoveringfreshwater coastal wetland in China's Yellow River Delta, and risk assessmentfor the macrobenthic community. Chemosphere. 189, 661-671.

[10]  Yang Wei*, Li Xiaoxiao, Sun Tao, Pei Jun, Li Ming. 2017.Macrobenthos functional groups as indicators of ecological restoration in thenorthern part of China’s Yellow River Delta Wetlands. Ecological Indicators.82,381-391.

[11]  Yang Wei*, LiXiaoxiao, Sun Tao, Yang Zhifeng, Li Ming. 2017.Habitat heterogeneity affects the efcacyofecological restoration by freshwater releases in a recovering freshwatercoastal wetland in China's Yellow River Delta. Ecological Engineering. 104,1-12.

[12]  Yang Wei*, Li Ming, Sun Tao, JinYuwan. 2017. The joint effect oftidal barrier construction and freshwater releases on the macrobenthoscommunity in the northern Yellow River Delta (China). Ocean &CoastalManagement. 136, 83-94.

[13]  Li Ming, Yang Wei*, JinYuwan, 2017. The joint effect of tidalbarrier construction and freshwater releases on the macrobenthos community inthe northern Yellow River Delta (China). Ocean& Coastal Management. 136,83-94.

[14]  Yang Wei*, SunTao, Yang Zhifeng. 2016. Does the implementation ofenvironmental flows improve wetland ecosystem services and biodiversity? Asystematicassessment.Restoration Ecology. 24 (6), 731-742.

[15]  JinYuwan, Yang Wei*, Sun Tao, Yang Zhifeng, Li Ming.2016. Effects of seashore reclamation activities on the health of wetlandecosystems: a case study in the Yellow River Delta, China. Ocean &CoastalManagement. 123, 44-52.

[16]  Li Ming, Yang Wei*, Sun Tao, JinYuwan. 2016. Potential ecologicalrisk of heavy metal contamination in sediments and macrobenthos in coastalwetlands induced by freshwater releases: a case study in the Yellow RiverDelta, China. Marine Pollution Bulletin. 103(1-2), 227-239.

[17]  Li Ming, YangWei*, Sun Tao. 2015. Effects of freshwater releaseson the delivery of ecosystem services in coastal wetlands of the Yellow RiverDelta using an improved input-state-output approach. Wetlands. 36, 103-112.

[18]  Yang Wei*, Sun Tao,YangZhifeng, Li Ming. 2016. Effect of seashorereclamation activities on the macrobenthos community in coastal wetlands of theYellow River Delta, China: a literature review and systematic assessment. Ocean& Coastal Management.129, 1-9.

[19]  ZhangHeyue, SunTao*, Shao Dongdong, Yang Wei. 2015. Fuzzy logicmethod for habitat suitability evaluation in an estuary affected by LandReclamation. Wetlands. 36, 19-30.

[20]  Shen XM, Sun Tao*,Tang Shi, Yang Wei. 2015. Short-term response ofaquatic metabolism to hydrologic pulsing in the coastal wetlands of YellowRiver Delta. Wetlands. 36,81-94.

[21]  Yang Wei*, Yang Zhifeng. 2014. Integrating ecosystem-servicetradeoffs into environmental flows decisions for Baiyangdian Lake. EcologicalEngineering. 71(4), 539-550.

[22]  Yang Wei*, Yang Zhifeng. 2014. Analyzing hydrologicalregimevariability and optimizing environmental flow allocation to lake ecosystems ina sustainable water management framework: model development and a casestudy for China's Baiyangdian watershed. ASCE-Journal of HydrologicEngineering.19, 993-1005.

[23]  Yang Wei *, Yang hifeng. 2014. Evaluation of sustainableenvironmental flows based on the valuation of ecosystem services: a case studyfor the BaiyangdianWetland,China. Journal of Environmental Informatics. 24(2),90-102.

[24]  Yang Wei *, Yang Zhifeng. 2014. Effects of long-term environmentalflow releases on the restoration and preservation of Baiyangdian Lake, aregulated Chinese freshwater lake. Hydrobiologia. 730(1), 79-91.

[25]  Yang Wei *, Yang Zhifeng. 2013. Development of a long-term,ecologically oriented dam release plan for the Lake Baiyangdian Sub-basin,Northern. China. Water Resource Management. 27,485-506.

[26]  YangZhifeng, Qin Yan,Yang Wei. 2013. Assessing and classifyingplant-related ecological risk underwater management scenarios in China’s YellowRiver Delta Wetlands. Journal of Environmental Management.130, 276-287.

[27]  Qin Yan, Yang Zhifeng, Yang Wei*. 2014. Valuation of the loss ofplant-related ecosystem services caused by water stress in the wetland ofChina’s Yellow River Delta. Acta EcologicaSinica. 34, 98-105.

[28]  Yang Wei *, Yang Zhifeng, Qin Yan. 2011. An optimization approachfor sustainable release of e-flows for lake restoration and preservation: modeldevelopment and a case study of Baiyangdian Lake, China. Ecological Modelling.222 (14), 2448-2455.

[29]  Yang Wei *. 2011.A multi-objective optimization approach toallocate environmental flows to the artificially restored wetlands of China’sYellow River Delta. Ecological Modelling. 222(2):261-267.

[30]  Yang Wei *. 2011.Variations in the ecosystem service values inresponse to changes in environmental flows: a case study of BaiyangdianLake,China. Lake and Reservoir Management. 27(1): 95-104.

[31]  Zheng Chong, Yang Wei*, Yang Zhifeng. 2011. Strategies formanaging environmental flows based on the spatial distribution of waterquality: A case study of Baiyangdian Lake, China.Journal of EnvironmentalInformatics. 18(2), 84-90.

[32]  Yang Wei *, Yang Zhifeng. 2010. An interactive fuzzy satisfyingapproach for sustainable water management in the Yellow River Delta, China.Water Resources Management. 24 (7),1273-1284.

[33]  Sun Lian, Cai Yanpeng, Yang, Wei, et al., Climatic variationswithin the dry valleys in southwestern China and the influences of artificialreservoirs. Climatic Change. 2019,155(1): 111-125.

[34]  ZhangPingping, Cai, Yanpeng, Yang, Wei, et al. Multiplespatio-temporal patterns of vegetation coverage and its relationship withclimatic factors in a large dam-reservoir-river system. Ecological Engineering.2019, 138: 188-199.

[35]  Ding Yu, Liu Haifei, Yang Wei. Numerical predication of theshort-term trajectory of microplastic particles in Laizhou Bay. Water. 2019,11: 2251

[36]  Ding, Yu, Liu Haifei, Yang, Wei, Xing Liming. The assessment ofecological water replenishment scheme based on the two-dimensionallattice-Boltzmann water age theory. Journal of Hydro-environment Research.2019, 25: 25-34.

[37]  LiuHongrui, Yin Xinan, Xu Zhihao, Cai Yanpeng, Yang Wei. Effectsof reservoir operation methods on downstream ecological disturbance andeconomic benefits. River Research and Applications. 2019, 35(7): 955-965

[38]  Yin XA, Yang ZF,Yang W, Zhao YW, Chen H. 2010. Optimized reservoiroperation to balance human and river in ecosystem needs: model development, anda case study for the Tanghe reservoir, Tang river basin, China. HydrologicalProcesses. 24(4),461-471.

[39]  Wei Yang, Jun Nan, Dezhi Sun. 2008. An online water qualitymonitoring and management system developed for the Liming river basin inDaqing, China. Journal of Environmental Management. 88(3), 318~325.

[40]  Yang W*, Sun DZ,Yang ZF. 2008. A simulation framework for waterallocation to meet the environmental requirements of urban rivers: modeldevelopment and a case study for the Liming River in Daqing City, China,Environmental Fluid Mechanics.8(4), 333-347.

[41]  Dezhi Sun, Wei Yang. 2007. Genetic algorithm solution of greynonlinear water environment management models developed for the river Liming inDaqing, China. Journal of Environmental Engineering-ASCE. 133(3), 287-293.

[42]  W. Yang, D. Z.Sun. 2006. A genetic algorithm-based fuzzymulti-objective programming approach for environmental water allocation. WaterScience and Technology: Water Supply.6(5), 43-50.

[43]  Yang W*, Yang ZF,Bi XX. 2009. Water resources allocation based onET management: a case study of Lucheng City, China. River Basin Research andPlanning Approach. 491-496.

[44]  Yang W*, Yang ZF. 2009. Estimation of dynamic e-flows release ofBaiyangdian Lake, a shallow freshwater lake, China. ISEM 2009, pp193.

[45]  Wei Yang*, Zhifeng Yang, Chong Zheng. 2011. Sustainableenvironmental flow management based on lake quality protection: the case ofBaiyangdian Lake, China. Procedia Environmental Sciences. The 19th ISEM. Sep20-23, 2011, Beijing, China.

[46]  Chong Zheng, Wei Yang*. 2011.Optimized allocation of waterresources in Baiyangdian watershed, China. Procedia Environmental Sciences. The19th ISEM. Sep 20-23, 2011,Beijing,China.

[47]  Yan Qin, Zhifeng Yang, Wei Yang. 2010. A novel index system forassessing ecological risk under water stress in the Yellow River Delta Wetland.Procedia Environmental Sciences.2,535-541.

[48]  Wei Yang*, ZhifengYang. 2009.A multi-objective optimizationapproach for the ecological water allocation of the wetlands in the YellowRiver Delta, China. International Conference on Implementing EnvironmentalWater Allocation.

[49]  Wei Yang*, ZhifengYang. 2009.Estimation of dynamic e-flows releaseofBaiyangdian Lake, a shallow freshwater lake, China. The 17th Biennial ISEMConference. Quebec, Canada.

[50]  杨薇,赵彦伟,刘强,孙涛. 白洋淀生态需水:进展及展望. 湖泊科学. 2019.

[51]  杨薇,靳宇弯,孙立鑫,孙涛,邵冬冬. 基于生产可能性边界的黄河三角洲湿地生态系统服务权衡强度. 自然资源学报, 2019,34(12): 2516-2528

[52]  裴俊,杨薇*,王文燕. 2018. 淡水恢复工程对黄河三角洲湿地生态系统服务的影响.北京师范大学学报(自然科学版). 54(1), 104-112.

[53]   杨薇*,裴俊,李晓晓,孙涛,王文燕. 2018. 黄河三角洲退化湿地生态修复效果的系统评估及对策.北京师范大学学报(自然科学版). 54(1), 98-103.

[54]  李晓晓,杨薇*,孙涛,邵冬冬. 2018. 黄河故道尾闾湿地大型底栖动物群落对生态补水的响应研究. 北京师范大学学报(自然科学版). 54(1), 64-72.

[55]  杨薇*,李晓晓,李铭,孙涛. 2017. 基于Logistic回归模型的黄河三角洲淡水恢复湿地大型底栖生物种群分布模拟. 生态学报.37(22), 1-10.

[56]  靳宇弯,杨薇*,孙涛, 李铭. 2015. 围填海活动对黄河三角洲滨海湿地生态系统的影响评估. 湿地科学. 13(6): 682-689.

[57]  秦燕, 杨薇*,李铭,谢涛. 2015 基于土壤水分运移模拟的黄河三角洲湿地生态缺水量研究. 湿地科学. 13(6): 690-695

[58]  杨薇*, 杨志峰, 孙涛. 2008. 湿地生态需水量与配水研究进展. 湿地科学. 6(4), 531-535.

 

·发明专利

1.      杨志峰, 尹心安, 陈贺, 杨薇. 一种兼顾人类和生态需求的水库兴利库容确定方法. 国家发明专利(专利号:ZL201010127110.6)

2.      杨志峰,尹心安,杨薇,陈贺. 一种面向河流生态流量维持的水库优化调度方法. 国家发明专利(专利号:ZL201010127116.3)

3.      杨志峰,尹心安,杨薇. 一种基于水库调度的河流生态流量管理方法. 国家发明专利(专利号:ZL 201010245433.5)

4.      杨志峰, 尹心安, 杨薇. 面向河流生态系统保护的流域地表水可利用量确定方法. 国家发明专利(专利号:ZL201010245419.5)

5.      杨志峰, 郑冲, 杨薇. 一种考虑污染胁迫的浅水湖泊生态需水量估算方法.国家发明专利.(专利号:ZL 201010176654.1)

6.      杨志峰, 于世伟, 陈贺, 杨薇. 一种人为干扰河流生态需水阈值计算方法. 国家发明专利(申请号:201010130028.9)

7.      杨志峰, 杨薇. 一种面向生态服务功能维持的湿地生态需水计算方法. 国家发明专利.(申请号: 2011101181829)

8.      杨薇,李晓晓,孙涛. 一种利用食物网稳定性评价湿地生态补水实施效果的方法. 北京师范大学.申请号:201710478528.3

9.       邵冬冬,周薇薇,孙涛,杨薇. 一种植物长期暴露于浅水波环境的模拟装置. 北京师范大学. 申请号:201710060621.2

·       专著

1.      杨志峰,崔保山,孙涛,陈贺,杨薇. 湿地生态需水机理、模型和配置. 北京:科学出版社.2012.

2.      杨薇,杨志峰,孙涛,赵彦伟,李晓晓. 2018. 湿地生态流量调控模型及效应.北京:科学出版社 ISBN 978-7-03-059722-9

·       奖励

1.      杨志峰, 崔保山, 孙涛, 白军红, 陈贺, 杨薇, 尹心安, 刘强, 赵旭, 李媛, 王强, 刘新会, 赵彦伟, 陈彬. 湿地生态需水整合模型、优化配置与生态调度技术. 2011.教育部高等学校科学研究优秀成果奖科技进步一等奖.

2.      白军红, 刘静玲, 杨薇. 2012年北京师范大学教育教学成果二等奖.

3.      2013年北京师范大学“京师英才”奖.