北京林业大学生态与自然保护学院

张振昍�/div>

发布日期:2022-02-22

张振昍�/strong>博士，甘肃陇西人，现任北京林业大学自然保护区学院教授博士生导师、�/span>

联系方式

邮寄地址：北京林业大学自然保护区学院159信箱

电话９�/span>010-62336683

E-mail９�/span>zhenmingzhang@bjfu.edu.cn

研究兴趣

湿地生态水文、湿地公园规划设�

教育背景

2003.9-2009.7北京林业大学水土保持学院获农学博�?/span>

2007.9-2008.9美国杜克大学环境学院博士联合培养

1999.9-2003.7甘肃农业大学林学院获农学学士

工作经历

2021.1‒�/span>至今北京林业大学自然保护区学� 教授博士生导帇�/span>

2012.1�?020.12北京林业大学自然保护区学�?nbsp;副教� 硕士生导帇�/span>

2014.10�?015.10美国西弗吉利亚大学公派学者交�?nbsp;访问学耄�/span>

2009.7�?011.12北京林业大学自然保护区学�?nbsp; 讲师

承担及参与项�?/strong>

承担国家自然科学基金面上项目“典型森林群落内大气PM2.5滞留机制研究“�/span>(NSFC41877535)

承担国家林业和草原局项目“湿地保护立法研究”（2018SDB02（�/span>

承担国家林业和草原局项目“澜沧江－湄公河流域湿地保护与修复技术培训与研讨会”（YX1200（�/span>

参与中国工程院咨询研究项目“北京湿地发展战略研究”（2019-XY-005（�/span>

参与国家自然科学基金面上项目“黄河三角洲退化湿地根土混合体对水文连通的响应“�/span>(NSFC41771547)

参与国家重点研发计划项目“河口湿地生物连通修复技术“�/span>(2017YFC0505903)

参与北京市科技计划项目“环首都国家公园体系建设关键技术研究与示范“�/span>(Z161100001116084)

承担北京林业大学科技创新计划项目“近地表不同下垫面大氓�/span>PM2.5干湿沉降机制”（2016JX05（�/span>

承担北京市园林绿化青年科技专项“湿地生态系统阻滞吸攵�/span>PM2.5的量化表达技术”（2014-4-7（�/span>

承担北京林业大学科技创新计划项目“河岸缓冲带氮素养分运移机理研究”（YX2013-31（�/span>

承担国家林业局林业公益项目专题“森林对PM2.5等颗粒物的调控功能与技术研究”（201304301（�/span>

承担国家自然科学基金项目“北京山区栎类群落空间三维结构指数研究“�/span>(NSFC41001024)

承担教育部博士点基金项目“北京山区栎类群落空间三维结构的环境解释”（20100014120011（�/span>

承担国家十二五科技支撑计划项目子专题“小流域净水调水功能导向型水源涵养林配置技术研究”（2011BAD38B0501（�/span>

参与国家林业局林业公益性行业科研专项“重要名胜区古木健康诊断与维护技术”（200904019（�/span>

参与国家林业局948项目“退化湿地修复网格连通生物滤桥技术引进”（2009-4-28（�/span>

主要代表论文９�/strong>发表学术论文60余篇、�/span>

Yanan Wu, Shiqiang Zhao, Liyi Dai, Ying Liu, Lumeng Xie,Zhenming Zhang*, Mingxiang Zhang*. 2021. Tides affect plant connectivity in coastal wetlands on a small-patch scale.Chemosphere. 262:127977

Yanan Wu, Yinghu Zhang, Liyi Dai, Lumeng Xie, Shiqiang Zhao, Ying Liu,Zhenming Zhang*. 2021. Hydrological connectivity improves soil nutrients and root architecture at the soil profile scale in a wetland ecosystem.Science of The Total Environment.762:143162

Jiexiu Zhai, James T. Anderson, Guoxin Yan, Ling Cong, Yanan Wu, Liyi Dai, Jiakai Liu,

Zhenming Zhang*. 2021. Decomposition and nutrient dynamics responses of plant litter to interactive effects of flooding and salinity in Yellow River Delta wetland in northeastern China.Ecological Indicators. 120 :106943

Jiakai Liu, Ying Liu, Lumeng Xie, Shiqiang Zhao, Liyi Dai,Zhenming Zhang*. 2021. A threshold-like effect on the interaction between hydrological connectivity and dominant plant population in tidal marsh wetlands.Land Degradation & Development. 32(10): 2922-2935

Yanan Wu, Yinghu Zhang, Lumeng Xie, Shiqiang Zhao, Ying Liu,Zhenming Zhang*. 2021. Preferential flow improves root-soil system on a small scale: A case study of two ecotypes ofPhragmites communis.Journal of Cleaner Production. 328:129581

Dai Liyi, Zhang Yinghu, Liu Ying, Xie Lumeng, Zhao Shiqiang,Zhang Zhenming*. 2021. Thick roots and less microaggregates improve hydrological connectivity.Chemosphere266 :129008

Ying Liu, Yinghu Zhang, Lumeng Xie, Shiqiang Zhao, Liyi Dai,Zhenming Zhang*. 2021. Effect of soil characteristics on preferential flow ofPhragmites australiscommunity in Yellow River delta.Ecological Indicators. 125 :107486

Shijun Zhou, Ling Cong, Ying Liu, Lumeng Xie, Shiqiang Zhao,Zhenming Zhang*. 2021. Rainfall intensity plays an important role in the removal of PM from the leaf surfaces.Ecological Indicators. 128 :107778

周士�?/span>,丛岭,刘莹,张振昍�/strong>*.2021.人工降雨对湿地植物叶表面颗粒物滞留的影响.生态学�?/em>. 41(18):7312-7321

解璐萋�/span>,张英虍�/span>,张明�?/span>*,张振昍�/strong>*.2021.黄河三角洲刺槐群落土壤优先流及养分分布特�?/span>.生态学�?/em>. 41(19):7713-7724

鄢郭�?/span>,张明�?/span>,张振昍�/strong>*.2021.室内模拟波浪寸�/span>2种典型滨海湿地挺水植物生物力学特征的影响.生态学�?/em>. 41(10):3784-3793

Jiakai Liu, Bernard A. Engel, Yu Wang, Guifang Zhang,Zhenming Zhang*, Mingxiang Zhang*. 2020. Multi-scale analysis of hydrological connectivity and plant response in the Yellow River Delta.Science of the Total Environment.https://doi.org/10.1016/j.scitotenv.2019.134889

Dai Liyi, Zhang Yinghu, Liu Ying, Xie Lumeng, Zhao Shiqiang,Zhang Zhenming*, Lv Xizhi*, 2020. Assessing hydrological connectivity of wetlands by dye-tracing experiment.Ecological Indicators.119:106840

Jiexiu Zhai, Guoxin Yan, Ling Cong, Yanan Wu, Liyi Dai,Zhenming Zhang*, Mingxiang Zhang*. 2020.Assessing the effects of salinity and inundation on halophytes litter breakdown in Yellow River Delta wetland.Ecological Indicators. https://doi.org/10.1016/j.scitotenv.2019.134889

Ling Cong, Guoxin Yan, Yanan Wu, Jiexiu Zhai, Liyi Dai,Zhenming Zhang*. 2020. Temporal and spatial changes of Pb in soils in Cuihu wetland, Beijing, China.Environmental Technology, DOI: 10.1080/09593330.2020.1822448

Jiexiu Zhai, Lamei Jiumu, Ling Cong, Yanan Wu, Liyi Dai,Zhenming Zhang*,Mingxiang Zhang*. 2020.Reed decomposition under Bacillus subtilis addition conditions and the influence on water quality,Ecohydrology & Hydrobiology, https://doi.org/10.1016/j.ecohyd.2019.11.003

Shijun Zhou, Guoxin Yan, Yanan Wu, Jiexiu Zhai, Ling Cong,Zhenming Zhang*. 2020.The PM removal process of wetland plant leaves with different rainfall intensities and duration.Journal of Environmental Management275: 111239

Yu Wang, Lichun Mo, Ling Cong, Jiexiu Zhai, Wenmei Ma,Zhenming Zhang*. 2020.Atmospheric dry deposition to natural water of wetland in suburban Beijing.Pol. J. Environ. Stud.29(2) :1-12

Jiakai Liu, Bernard A. Engel, Guifang Zhang, Yu Wang, Yanan Wu, Mingxiang Zhang*,Zhenming Zhang*, 2020. Hydrological connectivity: One of the driving factors of plant communities in the Yellow River Delta.Ecological Indicators. 112 (2020) 106150.

Yanan Wu, Jiakai Liu, Guoxin Yan, Jiexiu Zhai, Ling Cong, Liyi Dai,Zhenming Zhang*, Mingxiang Zhang*. 2020. The size and distribution of tidal creeks affects salt marsh restoration.Journal of Environmental Management.259 110070

Yanan Wu, Liyi Dai, Yu Wang, Lumeng Xie, Shiqiang Zhao, Ying Liu, Mingxiang Zhang*,Zhenming Zhang*.2020.Coexistence mechanisms ofTamarix chinensisandSuaeda salsain the Yellow River Delta, China.Environmental Science and Pollution Research. https://doi.org/10.1007/s11356-020-08883-1

Ling Cong, Lichun Mo, Guoxin Yan, Wenmei Ma, Yanan Wu, Jiakai Liu, Jiexiu Zhai, Yu Wang,Zhenming Zhang*. 2020. Assessing the Spatiotemporal Characteristics of Dry Deposition Flux in Forests and Wetlands.Environmental Technology. 41:13, 1615-1626

Yu Wang, Hui Zhang, Jiexiu Zhai, Yanan Wu, Ling Cong, Guoxin Yan,Zhenming Zhang*. 2020. Seasonal Variations and Chemical Characteristics of PM2.5 Aerosol in the Urban Green Belt of Beijing, China.Pol. J. Environ. Stud.29 (1), 1-11.

Guoxin Yan, Zibo Yu, Yanan Wu, Jiakai Liu, Yu Wang, Jiexiu Zhai, Ling Cong,Zhenming Zhang*. 2020. Understanding PM 2.5 concentration and removal efficiency variation in urban forest park—Observation at human breathing height.PeerJ. DOI 10.7717/peerj.8988

Ling Cong, Hui Zhang, Jiexiu Zhai, Guoxin Yan, Yanan Wu, Yu Wang, Wenmei Ma,Zhenming Zhang*, Pengju Chen. 2020. The blocking effect of atmospheric particles by forest and wetland at different quality grades in Beijing China.Environmental Technology.41:17, 2266-2276

Ling Cong, Jiexiu Zhai, Guoxin Yan, Jiakai Liu, Yanan Wu, Yu Wang,Zhenming Zhang*, Mingxiang Zhang*. 2019. Lead isotope trends and sources in the atmosphere at the artificial wetland. PeerJ. 7:e7851 DOI 10.7717/peerj.7851

Yu Zhang, Guoxin Yan, Liyi Dai, Ling Cong, Yanan Wu, Jiexiu Zhai,Zhenming Zhang*. 2019. Removal ability of different underlying surfaces to near-surface particulate matter,Environmental Technology. DOI: 10.1080/09593330.2019.1683613

Kang Xu, Lichun Mo,Zhenming Zhang*, Mingxiang Zhang*. 2019. Water quantity and quality changes from forested riparian buffer in Beijing.Environmental Science and Pollution Research. 26, 29041�?9051. https://doi.org/10.1007/s11356-019-05991-5.

Jiakai Liu, Bernard A. Engel, Yu Wang, Yanan Wu,Zhenming Zhang*, Mingxiang Zhang*. 2019. Runoff Response to Soil Moisture and Micro-topographic Structure on the Plot Scale.Scientific Reports. 9(1): 2532.

Jiakai Liu, Bernard A. Engel, Liyi Dai, Yu Wang, Yanan Wu, Guoxin Yan, Ling Cong, Jiexiu Zhai,Zhenming Zhang*, Mingxiang Zhang*. 2019. Capturing hydrological connectivity structure of wetlands with indices based on graph theory: A case study in Yellow River Delta.Journal of Cleaner Production. 239: 118059.https://doi.org/10.1016/j.jclepro.2019.118059

Jiexiu Zhai, Ling Cong, Guoxin Yan, Yanan Wu, Jiakai Liu, Yu Wang,Zhenming Zhang*, Mingxiang Zhang*. 2019. Influence of fungi and bag mesh size on litter decomposition and water quality.Environmental Science and Pollution Research, 26(18).

Guoxin Yan, Ling Cong, Jiexiu Zhai, Yanan Wu, Liyi Dai,Zhenming Zhang*. 2019. Particle removal in polluted cities: Insights from the wash-off process dynamics for different wetland plants.Journal of Environmental Management. 45,114-121.

Jiexiu Zhai, Ling Cong, Guoxin Yan, Yanan Wu, Jiakai Liu, Yu Wang, Wenmei Ma,Zhenming Zhang*. 2019. Dry Deposition of Particulate Matter and Ions in Forest at Different Heights.International Journal of Environmental Research. DOI: 10.1007/s41742-018-0158-z

Guoxin Yan, Jiakai Liu, Lijuan Zhu, Jiexiu Zhai, Ling Cong, Wenmei Ma, Yu Wang, Yanan Wu,Zhenming Zhang*. 2018. Effectiveness of wetland plants as biofilters for inhalable particles in an urban park.Journal of Cleaner Production, 435-443.

Jiakai Liu, Guoxin Yan, Yanan Wu, Yu Wang,Zhenming Zhang*, Mingxiang Zhang*. 2018. Wetlands with greater degree of urbanization improve PM2.5 removal efficiency.Chemosphere＋�/span>601-611.

Jiakai Liu,Zhenming Zhang*, Mingxiang Zhang*. 2018. Impacts of forest structure on precipitation interception and run‏�/span>off generation in a semiarid region in northern China.Hydrological Processes＋�/span>DOI９�/span>10.1002/hyp.13156.

Huihui Wang, Jinglan Liu, Rong Zhang, Jiakai Liu, Yuqi Zou,Zhenming Zhang*. 2018. Do Aquatic Macrophytes Configuration Mode Impact Water Quality?Sains Malaysiana. 46(12): 2375�?381.

Yanan Wu, Wenmei Ma, Jiakai Liu, Lijuan Zhu, Ling Cong, Jiexiu Zhai, Yu Wang,Zhenming Zhang*. 2018. Sabina chinensis and Liriodendron chinense improve air quality in Beijing, China. China.PLoS ONE. 13(1): e0189640.

Yanan Wu, Jiakai Liu, Jiexiu Zhai, Ling Cong, Yu Wang, Wenmei Ma,Zhenming Zhang*, Chunyi Li*. 2018. Comparison of dry and wet deposition of particulate matter in near-surface waters during summer.PLoS ONE. 13(6):e0199241.

Tingyu Yang, Yu Wang, Yanan Wu, Jiexiu Zhai, Ling Cong, Guoxin Yan,Zhenming Zhang*, Chunyi Li*. 2018. Effect of the Wetland Environment on Particulate Matter and Dry Deposition.Environmental Technology. DOI: 10.1080/09593330.2018.1520307

Zhenming Zhang, Jiakai Liu, Yanan Wu, Guoxin Yan, Lijuan Zhu, Xinxiao Yu. 2017. Multi-scale comparison of the fine particle removal capacity of urban forests and wetlands.Scientific Reports. DOI: 10.1038/srep46214

Jiakai Liu, Jiexiu Zhai, Lijuan Zhu, Yilian Yang, Jiatong Liu,Zhenming Zhang*. 2017. Particle removal by vegetation: comparison in a forest and a wetland.Environmental Science and Pollution Research. 24:1597-1607

Jiakai Liu, Lijuan Zhu, Huihui Wang, Yilian Yang, Jiatong Liu, Dongdong Qiu, Wu Ma,Zhenming Zhang*, jinglan Liu*. 2016. Dry Deposition of Particulate Matter at an Urban Forest, Wetland and Lake Surface in Beijing.Atmospheric Environment. 125:178-187.

Lijuan Zhu, Jiakai Liu, Ling Cong, Wenmei Ma, Wu Ma,Zhenming Zhang*. 2016. Spatiotemporal characteristics of particulate matter and dry deposition flux in the Cuihu wetland of Beijing.PLOS ONE. 11(7): e0158616.

Jiakai Liu, Lichun Mo, Lijuan Zhu, Yilian Yang, Jiatong Liu, Dongdong Qiu,Zhenming Zhang*, Jinglan Liu*. 2016. Removal efficiency of particulate matters at different underlying surfaces in Beijing.Environmental Science and Pollution Research. 23:408-417

Jinglan Liu, Jiakai Liu, Jim Anderson, Rong Zhang,Zhang Zhenming*. 2016. Potential of Aquatic Macrophytes and Artificial Floating Island for Removing Contaminants.Plant Biosystems, 150(4):702-709.

Dongdong Qiu, Jiakai Liu , Lijuan Zhu , Lichun Mo,Zhenming Zhang*. 2015. Particulate matter assessment of a wetland in Beijing. Journal of Environmental Science.36:93-101.

Zhang Rong, Liu Jinglan, Mo lichun,Zhang Zhenming*. 2014. Environmental and Human Factors Influencing Invasive Plant Species in Songshan National Nature Reserve.The Forestry Chronicle, 90(2):197-201.

Jiakai Liu, Jinglan Liu, Rong Zhang, Yuqi Zou, Huihui Wang,Zhenming Zhang*. 2013.Impacts of Aquatic Macrophytes Configuration Modes on Water Quality.Water Science and Technology,69(2):253-261.

Zhenming Zhang, Xinxiao Yu, Song Qian, Jianwei Li. 2010. Spatial variability of soil nitrogen and phosphorus of a mixed forest ecosystem in Beijing, China.Environmental Earth Sciences, 60(8):1783-1792.

专利

张明�?/span>,刘佳凯，张振昍�/strong>,马梓文等.基于水文连通结构指数的灾情预警方法及系绞�/span>.ZL201810929610.8.

张英虍�/span>,张明�?/span>,张振昍�/strong>,刘佳凯等.土壤优先流区和基质流区的溶液扩散模拟装备与方泔�/span>.ZL201810931220.4.

张艳,张振昍�/strong>,刘晶岙�/span>,吴海龙等.一种复合配置水生植物以净化湿地水体的方法.ZL201310028861.6.

张振昍�/strong>,刘晶岙�/span>,张艳,吴海龙等.一种用于水体净化的水生植物栽植方法.ZL201310029748.X.

刘佳�?/span>,张振昍�/strong>,张明�?/span>,丛玲筈�/span>.大气颗粒物浓度的测量采样系统.地水体的方法.ZL201821316489.3.

主编专著

张明�?/span>,张振昍�/strong>编著.湿地工程学，中国林业科学出版社，2019.12

余新晒�/span>,伦小秀,张振昍�/strong>等著.森林植被寸�/span>PM2.5等颗粒物的调控机制与评价，科学出版社＋�/span>2017.04

余新晒�/span>,张振昍�/strong>等著.森林生态系统结构与功能模型.科学出版礽�/span>.2010.7

成果与奖劰�/strong>

2021年获得北京市科学技术二等奖

2021年获得北京林业大学微党课大赛优秀奕�/span>

2021年获得北京林业大学就业工作贡献奖

2021年获得北京林业大学教学成果二等奖

2021年获得北京林业大学教育教学研究论文三等奖

2021年获得北京林业大学“学党史育新人”讲述活动优胜奖

2020年获得梁希林业科学技术奖二等奕�/span>

2019年获得国家林业和草原局调查规划设计院优秀成果二等奕�/span>

2019年获得生态与自然保护学院“不忘初心、牢记使命”主题教育学习标兴�/span>

2019年获得北京林业大学研究生优秀班主任称叶�/span>

2019年获得北京林业大学“优秀共产党员”荣誉称叶�/span>

2018年获得第七届梁希青年论文三等奕�/span>

2018年获得北京林业大学优秀青年学术论文二等奕�/span>

2018年获得北京林业大学青年教师教学基本功比赛三等奕�/span>

2018年获得北京林业大学社会实践优秀指导教师

2018年获得北京林业大学自然保护区学院第二届“青年学术论坛”学术报告二等奖

2018年获得北京林业大学自然保护区学院“优秀共产党员”荣誉称叶�/span>

2017年获得北京林业大学自然保护区学院“首届青年学术论坛”优秀报告一等奖

2016年获得教育部科学技术进步奖二等奕�/span>

2016年获得北京林业大学“优秀共产党员”荣誉称叶�/span>

2016年获得北京林业大学“学术之星优秀指导教师”荣誉称叶�/span>

2016年获得北京林业大学自然保护区学院青年教师教学基本功比赛二等奖

2015年获得北京林业大学青年教师教学基本功大赛三等奕�/span>

2015年获得北京林业大学优秀教案评比优秀奕�/span>

2014年获得北京市农业推广二等奕�/span>

2014年获得北京林业大学优秀班主仺�/span>

2013年聘为北京市园林绿化局科技创新团队专家组成呗�/span>

2013年度教育部高等学校科学研究优秀成果科技进步二等奕�/span>

2013年获得北京市园林绿化科技进步一等奖

2012年获得北京市园林绿化科技进步一等奖

2010获得北京市科学技术三等奖