张淑荣副教授      

电话:+86-10-58802736

E-mail:srzhang@bnu.edu.cn

研究方向:环境科学

个人履历

教育经历: 

1995年9月---1999年7月本科山西大学环境科学系环境科学专业

1999年9月---2002年7月硕士中国科学院生态环境研究中心景观生态学专业
2004年1月---2008年1月博士新加坡国立大学地理系河流地球化学专业

 

主要工作经历:

2002年8月---2003年9月研究助理中国科学院生态环境研究中心

2008年2月---2009年6月博士后新加坡国立大学地理系

2009年7月---2010年6月讲师北京师范大学水科学研究院

2010年7月---至今 副教授北京师范大学水科学研究院

2016年8月---2017年8月访问学者弗吉尼亚大学环境科学系

科学研究

主要研究领域:

1、  流域地表过程与河流碳氮循环

2、  景观格局与生态水文过程

3、  土地利用变化的环境效应

 

代表性研究项目: 

1、永定河流域生态修复的基础科学研究,北京市自然科学基金重点研究专题(Z170004),项目骨干人员,2017-2020

2、黑河流域中游地区生态-水文过程演变规律及其耦合机理研究,国家自然科学基金重点项目(91125015),项目骨干人员,2012-2015

3、人类活动影响下河流有机物碳水化合物和氨基酸组成特征及其对水文过程的响应,国家自然科学基金项目(41103044),项目负责人,2012-2014

4、  基于碳氮双同位素示踪的河流有机碳和氮来源与循环研究,北京师范大学自主科研基金,项目负责人,2011-2012

5、永定河流域水系统脆弱性和水安全及其应对策略研究,北京师范大学自主科研基金,项目骨干人员,2010-2012

6、流域水生态空间异质性及其区域性环境要素驱动,国家水体污染控制与治理科技重大专项,项目骨干人员,2008-2010

7、Sediment and Carbon Fluxes from Large Asian Rivers: Climate and Human Impacts,新加坡国立大学资助项目,项目骨干人员,2008-2010

8、Water, sediment and carbon flux from large rivers to the South China Sea: A case study of the Pearl River,东南亚区域全球变迁研究委员会(Southeast Asia Regional Committee of START(SARCS)资助项目,项目合作主持人,2004-2008

9、环渤海地区土地利用变化与土地持续利用模式研究,国家基金委重点项目,项目参加人员,1999-2001

10、 黄土高原地区土壤侵蚀模拟与土地持续利用规划研究,欧盟国际合作项目,项目参加人员,1999-2000

 

代表性论文: 

1、Zhang, S.R., Bai, Y.J., Wen, X., Ding, Aizhong, Zhi, J.H. 2018. Seasonal and downstream alterations of dissolved organic matter and dissolved inorganic ions in a human-impacted mountainous tributary of the Yellow River, China.Environmental Science and Pollution Research. 25:17967–17979. DOI: 10.1007/s11356-018-1972-8.

2、Zhi, J.H., Ding, A.Z.,Zhang, S.R.2016. Nitrate sources and nitrogen biogeochemical processes in the Feng River in West China inferred from the nitrogen and oxygen dual isotope measurements of nitrate.Desalination and water treatment57(18):8243-8251.

3、Liu, Shaoda, Lu, XiXi, Xia, Xinghui,Zhang, Shurong, Ran, Lishan, Yang, Xiankun, and Liu, Ting. 2016. Dynamic biogeochemical controls on river pCO2 and recent changes under aggravating river impoundment: an example of the subtropical Yangtze River.Global Biogeochem. Cycles, 30, doi:10.1002/2016GB005388.

4、Sun, H.G., Han, J.T., Li, D.,Zhang, S.R., and Lu, X.X. 2015. Carbon isotopic evidence for transformation of DIC to POC in the lower Xijiang River, SE China.Quaternary International380-381: 288-296.

5、Wang, G.Q., A, Y.L., Xu, Z.X. andZhang, S.R.2014. The influence of land use patterns on water quality at multiple spatial scales in a river system.Hydrological Processes, 28: 5259-5272.

6、Lou, J.Y., Chen, C.T.A., Lui, H.K., Selvaraj, K.,Zhang, S.R., Lu, X.X. 2014. Comparison of subtropical surface water chemistry between the large Pearl River in China and small mountainous rivers in Taiwan.Journal of Asian Earth Sciences79: 182-190.

7、Zhang, S.R., Lu, X.X., Sun, H.G., Han, J.T. 2011. Modeling catchment controls on organic carbon fluxes in a meso-scale mountainous river (Luodingjiang), China.Quaternary International244: 296-303. Doi: 10.1016/j.quaint.2010.11.008.

8、Chen, Y.Q., Zhang, Q., Lu, X.X., Zhang, S.R., and Zhang, Z.X. 2011. Precipitation variability (1956-2002) in the Dongjiang River (Zhujiang River basin, China) and associated large-scale circulation. Quaternary International 244: 130-137.

9、Lu, X.X.,Zhang, S.R.,Xu, J.C., and Merz, J. 2011.The changing sediment loads of the Hindu Kush-Himalayan rivers: an overview.In: D.E.Walling (Ed)Sediment Problems and Sediment Management in Asian River Basins. IAHS Publ. 349.

10、Lu, X.X.,Zhang, S.R.,and Xu, J.C. 2010. Climate change and sediment flux from the Roof of the World.Earth Surface ProcessesandLandforms, 35(6):732-735. doi: 10.1002/esp.1924.

11、Lu, X.X.,Zhang, S.R., Jiang, T., and Xiong, M. 2010. Sediment loads in the lower Jinshajiang of the Yangtze River: current status and potential impacts of the cascade dams. In: Kazimierz Banasik et al. (Eds)Sediment Dynamics for a Changing Future. IAHS Publ. 337, pp. 113-120.

12、Chen, Y.Q., Zhang, Q., Xu, C.-Y., Lu, X.X., andZhang, S.R.2010. Multiscale streamflow variations of the Pearl River basin and associated implications for the water resource management within the Pearl River Delta, China.Quaternary International, doi: 10.1016/j.quaint.2009.08.014. 

13、Sun, H.G., Han, J.T., Li, D.,Zhang, S.R., and Lu, X.X. 2010. Chemical weathering inferred from riverine water chemistry in the lower Xijiang basin, South China.The Science of the Total Environment408: 4749-4760.

14、Sun, H.G., Han, J.T., Lu, X.X.,Zhang, S.R.and Li, D. 2010. An assessment of the riverine carbon flux of the Xijiang River during the past 50 years.Quaternary International226: 38-43. doi:10.1016/j.quaint.2010.03.002.

15、Zhang, S.R.,Lu, X.X., Sun, H.G., Han, J.T., and Higgitt, D.L. 2009. Major ion chemistry and dissolved inorganic carbon cycling in a human-disturbed mountainous river (the Luodingjiang River) of the Zhujiang (Pearl River), China.The Science of the Total Environment407:2796-2807. doi:10.1016/j.scitotenv.2008.12.036

16、Zhang, S.R., Lu, X.X., Sun, H.G., Han, J.T., and Higgitt, D.L. 2009. Geochemical characteristics and fluxes of organic carbon in a human-disturbed mountainous river (the Luodingjiang River) of the Zhujiang (Pearl River), China.The Science of the Total Environment407: 815-825.doi:10.1016/j.scitotenv.2008.09.022 

17、Zhang, S.R., and Lu, X.X. 2009. Hydrological responses to precipitation variation and diverse human activities in a mountainous tributary of the Lower Xijiang, China.Catena77:130-142.doi: 16.1016/j.catena.2008.09.001

18、Zhang, S.R., and Lu, X.X. 2008. Chemical and physical weathering in a mountainous tributary of the Zhujiang (Pearl River), China. In: Jochen Schmidt et al. (Eds)Sediment Dynamics in Changing Environments. IAHS Publ. 325, pp.359-366.

19、Zhang, S.R., Lu, X.X. Higgitt, D.L. Chen, C.T.A. Han, J.T. and Sun, H.G. 2008. Recent changes of water discharge and sediment load in the Zhujiang (Pearl River) Basin, China.Global and Planetary Change,60 (3-4): 365-380.doi:10.1016/j.gloplacha.2007.04.003.  

20、Chen, C.T.A., Wang, S.L., Lu, X.X.,Zhang,S.R.,Lui, H.K., Tseng, H.C., Wang, B.J., and Huang, H.I. 2008. Hydrogeochemistry and greenhouse gases of the Pearl River, its estuary and beyond.Quaternary International186: 79-90.

21、Sun, H.G., Han, J., Lu, X.X.,Zhang, S.R.2008.Modeling the relations between riverine DIC and environmental factors in the lower Xijiang of the Pearl River, China.Quaternary International186: 65-78.

22、Zhang, S.R., Lu, X.X. Higgitt, D.L. Chen, C.T.A. Sun, H.G. and Han, J.T. 2007. Water chemistry of the Zhujiang (Pearl River): Natural processes and anthropogenic influences.Journal of Geophysical Research,112:1-17.F01011, doi:10.1029/2006JF000493.

23、Lu, X.X.,Zhang, S.R., Xie, S.P., and Ma, P.K. 2007. Rapid channel incision of the lower Pearl River (China) since the 1990s as a consequence of sediment depletion.Hydrology and Earth System Sciences, 11: 1897-1906.  

24、Sun, H.G., Han, J.,Zhang, S.R., Lu, X.X. 2007. The impacts of“05.6”extreme flood event on riverine carbon fluxes in Xijiang River.Chinese Science Bulletin, 52(6): 805-812.

25、Zhang, S. R., and. Lu, X. X. 2006. Long-term water and sediment change detection in a small mountainous tributary of the lower Pearl River, China. In: Namsik Park et al. (Eds) Advances in Geosciences, Vol. 6:Hydrological Science, pp.97-108.

26、Chen, L.D.,Peng, H.J.,Fu, B.J.,Qiu, J., andZhang, S.R.. 2005.Seasonal variation of nitrogen-concentration in the surface water and its relationship with land use in a catchment of northern China.Journal of Environmental Sciences, 17(2):224-231.

27、Chen, L.D., Ingmar Messing,Zhang,S.R.,Fu, B.J., and Stig Ledin. 2003. Land use evaluation and scenario analysis towards sustainable planning on the Loess Plateau in China.Catena, 54: 303-316.(SCI)

28、Chen, L.D., Fu, B.J.,Zhang,S.R.,Qiu J., Guo, X.D., Yang, F.L. 2002. A comparative study on nitrogen concentration dynamic in surface water in heterogeneous landscape.Environmental Geology, 42: 424-432.

29、温馨,张淑荣,白乙娟,丁爱中. 2018.荧光光谱技术在废水溶解有机物研究中的应用进展.南水北调与水利科技,16(2):29-37.

30、沈自强,张淑荣,贾彤辉,丁爱中.2017.水环境中木质素光降解及其对有机物相关指示参数影响研究进展,南水被顶与水利科技,15(1):79-87.

31、贾彤辉,张淑荣,沈自强,白乙娟,丁爱中. 2017.典型小河流溶解态氨基酸的分布与组成研究。河北农业大学学报, 40(3): 106-114.

32、程春晓,徐宗学,张淑荣,王志慧. 2016.黑河流域NPP对气候变化及人类活动的响应.北京师范大学学报(自然科学版)52(5):571-579.

33、王子丰,张淑荣,徐宗学,岳卫峰. 2016.黑河中游山前荒漠和绿洲荒漠过渡带土壤植被空间分布特征研究.北京师范大学学报(自然科学版)52(3):340-349.

34、马梦娇,张淑荣,丁爱中,贾彤辉。2014.沣河洪水过程溶解有机物的荧光特征及来源分析研究.北京师范大学学报(自然科学版)50(5):508-514.

35、程春晓,徐宗学,张淑荣,刘昌明,王志慧.2014.黑河流域上中游植被蒸散发时空演变趋势及其影响因子分析,北京师范大学学报(自然科学版),50(5):535-542。

36、丁爱中,赵银军,郝弟,张淑荣,乔光建.2013.永定河流域径流变化特征及影响因素分析,南水北调与水利科技,11(1):17-22。

37、李虹,丁爱中,张淑荣,潘成忠,崔双超,陈德胜.2013.基于溶解氧监测的沣河河流代谢及河流健康评价研究,北京师范大学学报(自然科学版),49(04):395-399。

38、郝弟,张淑荣,丁爱中,潘成忠,许新宜.2012.河流生态系统服务功能研究进展,南水北调与水利科技,10(01):106-111。

39、刘星才,徐宗学,张淑荣,徐华山.2012.流域环境要素空间尺度特征及其与水生态分区尺度的关系——以辽河流域为例,生态学报,32(11):3613-3620。

40、孙会国,汉景泰,张淑荣,吕喜玺. 2006.“05-06”西江特大洪水对河流碳输出通量的影响.科学通报,51(23): 2773-2779。

41、张淑荣,陈利顶,傅伯杰.2004.于桥水库流域农业非点源磷污染控制区划研究.地理科学,24(2):232-237.

42、张淑荣,陈利顶,傅伯杰,李俊然. 2003.农业区非点源污染潜在危险性评价—以于桥水库流域磷流失为例.第四纪研究, 23(3): 262-269.

43、陈利顶,张淑荣,傅伯杰等. 2003.流域尺度土地利用与土壤类型空间分布的相关性研究.生态学报, 23(12): 2497-2505.

44、陈利顶,傅伯杰,张淑荣,丘君,杨福林.2003.于桥水库流域地表水中水溶性氮季节变化特征分析.中国环境科学, 23(2): 210-214.

45、陈利顶,丘君,张淑荣,傅伯杰. 2003.复杂景观中营养型非点源污染物时空变异特征分析.环境科学,24(3):85-90.

46、李俊然,陈利顶,傅伯杰,张淑荣,李广清.2002.于桥水库流域地表水非点源N时空变化特征.地理科学, 22(2): 238-242.

47、张淑荣,陈利顶,傅伯杰.2001.农业区非点源污染敏感性评价的一种方法.水土保持学报, 15(2):56-59.

教学工作

研究生课程:

水生态修复、环境学原理


博士生课程:

水生态修复

社会工作

荣誉奖励

 

其他