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已有 1745 次阅读 2015-9-23 09:29 |系统分类:生活其它

杨肖丽 博士/副教授

 

学习、工作经历

1996.9-2000.6 河北师范大学地理教育专业学士

2000.9-2003.6 南京师范大学地图学与地理信息系统专业硕士

2004.9-2010.4 河海大学水文学及水资源专业,博士

2012.4-至今  河海大学水文水资源学院,副教授、硕士生导师

2011.8-2012.2 University of Nevada,Las Vegas. Geoscience, Visiting Scholar

2012.8-2013.8 PrincetonUniversity, Civil and Environment Engineering, Visiting scholar

主要研究方向

主要从事遥感与地理信息系统在水资源和水文循环的应用研究。耦合多源数据,集合气候模式与陆面模式,模拟预报未来气候变化对我国水文过程、干旱和洪涝影响研究,揭示气候变化和人类活动对水文循环过程的影响机理。

教学

主讲课程:《地理信息系统原理与应用》,《地理信息系统实习》,《人文地理学》,《土地评价与规划》。

科研

主持:

2015-2019: 国家自然基金面上项目——气候变化背景下黄河流域干旱情景预估与响应机制研究

2015-2016: 教育部留学回国科研启动基金

2012-2015:国家青年基金项目——耦合能量平衡的分布式水文模型构建及半干旱区LUCC 水文响应机理研究

2011-2013:中央高校基金--半干旱区土地覆被变化水文响应分析

2009-2010“863计划” 2006AA12Z221开放子课题-- GML-GIS应用模式测试平台的开发

参与:

2015-2016: 江西山洪灾害防治不同区域山洪灾害特点分析、不同地貌地区小流域洪水不同地貌地区小流域洪水模拟及洪水规律成因分析、暴雨临界雨量分析项目

2013-2015: 国家十二五科技支撑计划课题:黄河流域旱情监测与水资源调配研究与应用

2008-2011,水利部公益性行业科研专项(2008001),气候变化对我国水安全影响及对策研究;

2008-2012,教育部、国家外国专家局高等学校学科创新引智计划“111计划)项目(B08048),水文学及水资源学科创新引智基地,研究方向:变化环境下水循环与水安全;

2006-2010:国家973重点基础研究发展规划项目(2006CB400502),半干旱区地表生态和水文过程及其相互作用的研究;

2007-2010:江苏高等学校优秀科技创新团队项目(苏教科[2007]5号),气候变化背景下洪旱灾害形成机理;

发表的文章:

[1]  Yang Xiaoli, Ren Liliang, Liu Yi, Jiao Donglai, Jiang Shanhu.Hydrological response to land use and land cover changes in a sub-watershed ofWest Liaohe River Basin, China. Journal of Arid Land, DOI:10.1007/s40333-014-0026-4, 2014. (SCI)

[2]   Yang, X.-L., Ren, L.-L., V. P. Singh, Liu, X.-F., Yong B. 2012. Impact of Land Use andLand Cover  Changes on Evapotranspiration and Runoff at Shalamulun RiverWatershed, China. Hydrology Research, 43(1-2): 23-27(SCI).

[3]  Yang, X.-L., Ren, L.-L., Jiao D.-L., Jiang S.-H., Song S.-H. 2013. Estimation of dailyactual  evapotranspiration from TM+ and MODIS data over the head water of WestLiao river basin in semi-arid region, China. Journal of HydrologicalEngineering, DOI:10.1061/(ASCE)HE. 1943-5584.0000537.(SCI)

[4]  Yang, X.-L., Ren, L.-L., Yong B., Zhang W. 2008. The impact of land use change onhydrological  cycle at a semiarid headwater catchment in North China. IITA-GRS,International Workshop on Volume 2: 508-512. (EI)

[5] Yang, X.-L., Ren, L.-L., Yong, B., Jiao, D.-L. 2008. Remote Sensing-based Land Use andLand  Cover  Change  in Shalamulun Catchment. IITA-GRS, International Workshop onVolume 2: 504-507. (EI)

[6]  Yang, X.-L., Ren, L.-L., Liu ,X.-F., Yuan, F., Yong B.,  Wang H. 2009. Using RS/GIS toexplore  the impact  of land-use changes on evapotranspiration and runoff in asemi-arid watershed.  IAHS&IAH Red Book, Publ. ,  2009,331: 381-388. (EI)

[7]  Yang, X.-L., Ren, L.-L., Jiao D.-L., Jiang S.-H., Yong B. 2010. Soil moistureestimation using MODIS data  over the head water of West Liao River Basin, China, (Proceedings of IWRM2010, Nanjing, China, November 2010), IAHS Publ. 350. 2011:666-673(EI)

[8]   杨肖丽, 任立良,江善虎,袁山水,石琳。西辽河源头流域径流变化趋势及影响因素分析。河海大学学报(自然科学版), 2012, 40(1): 37-41

[9]  杨肖丽, 任立良, 雍斌.基于MODIS数据半干旱区老哈河流域蒸散发研究.水电能源科学, 2010, 28 (1): 9-11.

[10]  杨肖丽, 任立良, 江善虎, 雍斌. 利用SEBAL模型沙拉沐沦河流域蒸散发的分析研究. 干旱区研究, 2010, 27(4):507-514.

[11]  Ren, L.-L., Yuan, F. Yu, Z.-B., Yang, X.-L., Ouyang, R.-L., Li, X.-H.2007. The Xinanjiang  model from the  perspective   of PUB. IAHS Publ. 313,374-382. (EI)

[12]  Yong, B., Ren, L.-L., Hong, Y., J. J. Gourley,Chen, X., Zhang, Y.-J., Yang, X.-L.,Zhang, Z.-X., Wang, W.-G.  2012. A novel multiple flow direction algorithm forcomputing the topographic wetness index. Hydrology Research,43(1-2):135-145(SCI).

[13]  Yong, B., Ren, L.-L.,Yang, X.-L., Zhang, W.-C., Chen, X, Xiong L.-H., Jiang S.-H. 2009.A study coupling a  large-scale hydrological model  with a regional climatemodel. IAHS&IAH Red Book, Publ. 333: 203-210. (EI)

[14]  Yong, B., Ren, L-L., Yang, X.-L., Zhang, W.-C., Chen, X., Xiong, L.-H., Jiang, S.-H..2009. A new GIS-based  algorithm for computing the TOPMODEL topographic index.IAHS&IAH Red Book, Publ. 331: 395-401. (EI)

[15]  Jiang, S.-H., Ren L.-L., Yong, B., V. P. Singh, Yang, X.-L., Yuan F. 2011. Quantifyingthe effects of  climate variability and human activities on runoff from theLaohahe basin in northern China using three different methods. Hydrologicalprocesses. DOI: 10.1002/hyp.8002. (SCI).

[16]  Jiang, S.-H., Ren, L.-L., Yong, B., Fu, C.-B., Yang, X.-L. 2012. Analyzing the effectsof climate variability  and human activities on runoff from the Laohahe basin innorthern China. Hydrology Research, 43(1-2): 3-13(SCI).

[17]  Jiang, S.-H., Ren, L.-L., Yong, B., Yang, X.-L. Shi L. 2010. Evaluation ofhigh-resolution satellite precipitation  products with surface rain gaugeobservations from Laohahe Basin in northern China. Water Science andEngineering, 3(4): 405-417. (EI).

[18]  Zhu, Y.-H., Ren, L.-L., Lv, H.-S., Yang X.-L. 2007. Determination ofnatural desert plant root-zone soil water  storage in an arid region, China. In:Methodology in Hydrology (Eds. Liliang Ren, Qiongfang Li, et al., Proceedingsof the 2nd Int’l Symposium on Methodology in Hydrology in Nanjing, 2005). IAHSPubl. no. 311, IAHS Press, 390-395. (EI).

[19]  Lv, H.-S., Zhu, Y.-H., Yang X. L. 2007.  Application  of BP  neural  network  to predictrainfall  interception loss  in an arid  region in China.  IAHS-AISH Publication, n311, Methodology in Hydrology, 541-545. (EI)




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