主要研究领域:
城市水文学
生态水文过程
分布式水文模型
日径流随机模拟
洪涝灾害风险分析
地表过程与水文循环
降雨径流分析与模拟
水循环对气候变化的响应
水文风险率与不确定性分析
代表性研究项目:
1.水利部公益性行业科研专项项目,东北粮食主产区旱灾评估技术及应用平台研究(201401036),主持(2014-2016)
2.北京市自然科学基金重点项目,北京市典型区域城市洪涝致灾机理与减灾对策研究(8141003),主持(2014-2016)
3.国家社科基金重大项目,我国河湖水系连通重大战略问题研究(12&ZD216),主持(2013-2014)
4.国家自然科学基金重点项目,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(91125015),(2012-2015)
5.中国工程院重大咨询项目课题,西南地区旱涝事件影响及发展趋势,主持(2012-2013)
6.科技部国际合作项目专题(中德合作项目),变化气候下胶东半岛水资源风险抵御与管理技术合作研究(2012DFG22140),主持(2012-2015)
7.国家自然科学基金,渭河流域水生态系统对水文过程和环境要素的响应关系(51279005),主持(2013-2016)
8.科学技术部国家重点基础研究发展计划(973)子课题,气候变化背景下未来水文情景预估及不确定性研究(2010CB428402),主持(2010-2014).
9.国家自然科学基金,气候变化影响下的太湖流域洪水风险率演变规律(50979005),主持(2010-2012)
10.科技部国际合作项目(中瑞合作项目),渭河流域生态基流及其保障措施研究(2009DFA22980),主持(2009–2011).
11.国家水体污染控制与治理科技重大专项课题,渭河关中段生态基础流量保障技术研究(2009ZX07212-002),主持(2009 - 2011).
12.中央高校基本科研业务费专项重大项目,变化环境下的雅鲁藏布江典型流域气候-水文-生态系统相互作用机理研究,主持(2010-2012)
13.国家水体污染控制与治理科技重大专项子课题,流域水生态空间异质性及其区域性环境要素驱动研究(2008ZX07526-001),主持(2008-2010).
14.水利部公益性行业科研专项,黑土区冻融特性缓解春旱关键技术研究与示范(200901036),主持(2009-2011).
15.欧盟-中国流域综合管理计划研究项目"Yellow River Climate Change Scenario Development–Phase 2: Detailed Analysis, Adaptation Strategies and Integration Phase”,主持(2010-2011)
16.水利部发展研究中心,海水淡化配置水资源的影响因素和理论分析研究,主持(2011-2012)
17.水利部水利水电规划设计总院,河湖水系连通的理论基础与关键技术研究,主持(2010-2011)
18.全球环境基金(GEF)海河流域水资源与水环境综合管理项目《漳卫南子流域项目研究成果汇编与总结》,环境保护部环境保护对外合作中心,主持(2010-2011)
19.北京市科学技术委员会科技计划项目子课题,农业面源污染对地下水影响评价与控制方案研究,主持(2008–2010).
20.全球环境基金(GEF)海河流域水资源与水环境综合管理项目,实施漳卫南运河取水许可管理,主持(2008-2009).
21.科学技术部"十一五”科技支撑计划子课题,洪水灾害数据库建立及洪水灾害风险图编制(2006BAD20B03-09),主持(2008–2009).
22.北京市水利科学研究所,密云水库流域来水量变化趋势研究, 主持(2008 - 2009).
23. International Food Policy Research Institute (IFPRI),Yellow River Basin Focal Project,主持(2008-2009).
24. United Nations Educational, Scientific and Cultural Organization (UNESCO), Beijing Office, Urban Rain Water Harvesting—Case Study in the Shenzhen City,主持(2007-2008).
25.科学技术部国家科技支撑项目,基于SWAT模型的黄河上中游水沙变化趋势分析,主持(2006-2008).
26.科学技术部国际科技合作重大项目(中英合作项目),太湖流域洪水风险情景分析技术研究,参加(2006-2009).
27.中国科学院,塔里木河流域水循环对全球变化的响应研究,主持(2007-2009).
28.中国气象局气候变化专项,气候变化对塔里木河流域源区水资源演变的影响, 主持(2007-2008).
29.水利部科技创新项目,京津地区非传统水资源开发利用相关问题研究,主持(2006-2007).
30.北京市自然科学基金,变化环境下的北京水资源时空分布变异规律(8062021),主持(2006-2008).
31.国家自然科学基金,渭河流域分布式土壤侵蚀模型与水沙变异规律研究(50579003),主持(2006-2008).
32.教育部博士点基金:渭河流域水循环变化及其对气候变化的响应(20040027005),主持(2005-2007).
33.全球环境基金(GEF)海河流域水资源与水环境综合管理项目:北京市通州区水资源与水环境综合管理规划(IWEMP),主持(2006-2007).
34.全球环境基金(GEF)海河流域水资源与水环境综合管理项目:基于SWAT模型的漳卫南运河子流域水量过程模拟与面源污染估算,主持(2006-2007).
35.黄河水利委员会水文局,渭河下游基于GIS的分布式水文模型洪水预报系统,主持(2005-2006).
36.中国水利水电科学研究院,国内外防洪抗旱标准体系对比研究,主持(2005-2006).
37.黄河水利委员会水文局,黄河下游洪水智能预报模型应用研究,主持(2005-2006).
38.北京市水土保持工作总站,密云水库上游流域非点源污染过程模拟,主持(2004–2008).
39.黄河水利委员会黄河勘测设计有限公司,黄河三门峡水库不同运用方案生态环境影响,主持(2004-2005).
40.黄河水利委员会黄河勘测设计有限公司,南水北调西线一期工程生态供水效益分析,主持(2004-2005).
41.西藏自治区水文水资源勘测局,全球气候变化对雅鲁藏布江流域水循环过程的影响及水资源系统演变规律研究,主持(2003-2005).
软件著作权:
1.分布式生态水文模拟软件【简称:ECO_GISMOD】V1.0,登记号:2013SR121052
2.水文模型前处理程序【简称:PRE_GISMOD】V1.0,登记号:2013SR043674
3.考虑地表水地下水交换的分布式水文模拟软件【简称:GISMOD】V1.0,登记号:2013SR043358
4.渭河流域生态系统演变和水文气象信息系统【简称:EcoHIS】V1.0,登记号:2011SR070938
5.渭河关中段生态基流数据库管理信息系统【简称:WHGIS】V1.0,登记号:2011SR012905
6.河流生态基流计算软件【简称:REF】V1.0,登记号:2011SR051546.
7.密云水库上游流域水土流失和非点源污染管理信息系统【简称:MYGIS】V1.0,登记号:2010SR046641.
代表性论文:
1. Zuo, D. P., Xu, Z. X., Peng, D. Z., Song, J. X., Cheng, L., Wei, S. K., Abbaspour, K. C., Yang, H. (2014). Simulating spatiotemporal variability of blue and green water resources availability with uncertainty analysis. Hydrol. Process., 2014. DOI: 10.1002/hyp.10307.
2. Peng D., Xu Z., Qiu L., and Zhao W. (2014). Distributed rainfall-runoff simulation for an unclosed river basin with complex river system: a case study of lower reach of the Wei River, China. Journal of Flood Risk Management, DOI: 10.1111/jfr3.12121.
3. Li Z. L., Li C. C., Xu Z. X., and Zhou X. (2014). Frequency analysis of precipitation extremes in Heihe River basin based on generalized Pareto distribution. Stochastic Environmental Research and Risk Assessment. 28(7): 1709-1721.
4. Li F. P., Zhang Y. Q., Xu Z. X., Liu C. M., Zhou Y. C., and Liu W. F. (2014). Runoff predictions in ungauged catchments in southeast Tibetan Plateau. Journal of Hydrology, 511: 28-38.
5. Wang G. Q., A Y. L., Xu Z. X., and Zhang S. R. (2014). The influence of land use patterns on water quality at multiple spatial scales in a river system. Hydrol. Process., 28(20): 5259–5272, DOI: 10.1002/hyp.10017.
6. Li F P, Xu Z X, Liu W F, Zhang Y Q. (2014). The impact of climate change on runoff in the Yarlung Tsangpo River basin in the Tibetan Plateau. Stoch. Environ. Res. and Risk Assess., 2014, 28(3): 517-526.
7. Zuo, D. P., Xu, Z. X., Zhao, J., Abbaspour, K. C., Yang, H. (2014). Response of runoff to climate change in the Wei River basin, China. Hydrol. Sci. J., 2014. DOI: 10.1080/02626667.2014.943668.
8. Wu W, Xu Z X, Yin X W, Zuo D P. (2014). Assessment of ecosystem health based on fish assemblages in the Wei River basin, China. Environmental Monitoring and Assessment, 186(6): 3701-3716.
9. Zuo D P, Xu Z X, Wu W, Zhao J, Zhao F F. (2014). Identification of streamflow response to climate change and human activities in the Wei River basin, China. Water Resour. Mgmt, 28(3): 833-851.
10. Li F. P., Xu Z. X., Feng Y. C., Liu M., and Liu W. F. (2013). Changes of land cover in the Yarlung Tsangpo River basin from 1985 to 2005. Environ Earth Sci 68(1):181–188 (DOI: 10.1007/s12665-012-1730-z).
11. Li Z. L., Shao Q. X., Xu Z. X., and Xu C. Y. (2013). Uncertainty issues of a conceptual water balance model for a semi-arid watershed in northwest China. Hydrol. Proces 27(2):304-312.
12. Liu, L., Xu, Z.X., Reynard, N.S., Hu, C.W., Jones, R.G. (2013). Hydrological analysis for water level projections in Taihu Lake, China. Journal of Flood Risk Management 6(1): 14-22.
13. Xu Z. X., Liu P., and Liu W. F. (2013) Automated statistical downscaling in several river basins of the Eastern Monsoon region, China. Climate and Land Surface Changes in Hydrology, 359: 80-85.
14. Xu Z. X., Liu W. F., Li F. P., and Liu P. (2013) Vegetation change and its relationship with precipitation on the southern Tibetan Plateau. Climate and Land Surface Changes in Hydrology, 359: 418-424.
15. Cheng L., Xu Z. X., Wang D. B., and Cai X. M. (2012). Reply to comment by Jozsef Szilagyi on "Assessing interannual variability of evapotranspiration at the catchment scale using satellite-based evapotranspiration data sets". Water Resources Research, 48, W03802, doi:10.1029/2011WR011799.
16. Li L., and Xu Z. X. (2012). A preprocessing program for hydrologic model - A case study in the Wei River basin. Procedia Environmental Sciences, 13: 766-777 (DOI: 10.1016/j.proenv.2012.01.070).
17. Li Y. L., Liu K., Li L., and Xu Z. X. (2012). Relationship of land use/cover on water quality in the Liao River basin, China. Procedia Environmental Sciences, 13: 1484-1493 (DOI: 10.1016/j.proenv.2012.01.140).
18. Liu L., Xu, Z. X., and Huang J. X. (2012). Spatio-temporal variation and abrupt changes for major climate variables in the Taihu Basin, China. Stoch. Environ. Res. Risk Assess., 26(6): 777–791 (DOI 10.1007/s00477-011-0547-8).
19. Liu Z. F., Xu Z. X., Yao Z. J. and Huang H. Q. (2012). Comparison of surface variables from ERA and NCEP reanalysis with station data over eastern China. Theoretical and Applied Climatology, 107(3-4): 611-621 (DOI: 10.1007/s00704 -011-0501-1).
20. Liu X. C., Xu Z. X., and Yu R. H. (2012). Spatiotemporal variability of drought and the potential climatological driving factors in the Liao River basin. Hydrol. Process. 26(1): 1-14 (DOI: 10.1002/hyp.8104).
21. Wang G. Q., Jiang H., Xu Z. X., Wang L. J., Yue W. F. (2012). Evaluating the effect of land use changes on soil erosion and sediment yield using a grid-based distributed modelling approach. Hydrol. Process. 26(23): 3579-3592 (DOI: 10.1002/hyp.9193).
22. Zhao F. F., Xu Z. X., and Zhang L. (2012). Changes in streamflow regime following vegetation changes from paired catchments. Hydrol. Process., 26(10): 1561-1573 (DOI: 10.1002/hyp.8266).
23. Zuo D. P., Xu Z. X., Yang H., and Liu X. C. (2012). Spatiotemporal variations and abrupt changes of potential evapotranspiration and its sensitivity to key meteorological variables in the Wei River basin, China. Hydrol. Process., 26(8): 1149-1160 (DOI: 10.1002/hyp.8206).
24. Cheng, L., Xu, Z. X., Wang, D. B., Cai, X. M. (2011). Assessing interannual variability of evapotranspiration at the catchment scale using satellite-based evapotranspiration data sets, Water Resour. Res., 47, W09509, doi:10.1029/ 2011WR010636. (SCI).
25. Wang G. Q., and Xu Z. X. (2011). Assessment on the function of reservoirs for flood control during typhoon seasons based on a distributed hydrological model. Hydrol. Process. 25(16): 2506-2517(DOI: 10.1002/hyp.8023).
26. Li Z. L., Xu Z. X., and Li Z. J. (2011). Performance of WASMOD and SWAT on hydrological simulation in Yingluoxia watershed in northwest of China. Hydrol. Process. 25(13): 2001-2008(DOI: 10.1002/hyp.7944).
27. Song, J. X., Xu Z. X., Hui, Y. H., Li H. E., and Li Q. (2010). Instream flow requirements for sediment transport in the lower Weihe River. Hydrol. Process. 24: 3547–3557 (DOI: 10.1002/hyp.7780).
28. Xu, Z. X., Liu Z. F., Fu, G. B., and Chen Y. N. (2010). Trends of major hydroclimatic variables in the Tarim River basin during the past 50 years. Journal of Arid Environments, 74(2): 256-267 (doi:10.1016/j.jaridenv.2009.08.014).
29. Li, Z. L., Shao, Q. X., Xu Z. X., and Cai, X. T. (2010). Analysis of parameter uncertainty in semi-distributed hydrological models using bootstrap method: A case study of SWAT model applied to Yingluoxia watershed in northwest China. Journal of Hydrology 385 (2010) 76–83 (doi:10.1016/j.jhydrol.2010.01.025).
30. Zhao F. F., Zhang, L., Xu, Z. X., and Scott, D. (2010). Evaluation of methods for estimating the effects of vegetation change and climate variability on streamflow. Water Resour. Res. 46, W03505, doi:10.1029/2009WR007702, 2010.
31. Shao, Q. X., Li, Z. L., and Xu, Z. X. (2010). Trend detection in hydrological time series by segment regression with application to Shiyang River Basin. Stoch. Environ. Res. Risk Assess., 24:221–233 (DOI 10.1007/s00477-009-0312-4).
32. Liu, C. M., Chen, Y. N., and Xu, Z. X. (2010). Eco-hydrology and sustainable development in the aridregions of China. Hydrol. Process. 24, 127–128 (DOI: 10.1002/hyp.7481).
33. Peng D. Z., and Xu, Z. X. (2010). Simulating the impact of climate change on streamflow in the Tarim River basin by using a modified semi-distributed monthly water balance model. Hydrol. Process. 24, 209–216 (DOI: 10.1002/hyp.7485).
34. Liu, Z. F., Xu, Z. X., Huang, J. X., Charles, S. P., and Fu, G. B. (2010). Impacts of climate change on hydrological processes in the headwater catchment of the Tarim River basin, China. Hydrol. Process. 24, 196–208 (DOI: 10.1002/hyp.7493).
35. Liu, L., Xu, Z. X., and Huang, J. X. (2009). Impact of climate change on streamflow in the Xitiaoxi catchment, Taihu Lake basin. Wuhan University Journal of Natural Sciences, 14(6): 525-531 (DOI: 10.1007/s11859-009-0612-z).
36. Liu, X. C., Xu, Z. X., and Liu, B. (2009). Spatio-temporal characteristics of standardized precipitation index in the Taihu basin during 1951–2000. Wuhan University Journal of Natural Sciences, 14(6): 518-524. (DOI: 10.1007/s11859 -009-0611-0).
37. Zhan, C. S., Xu, Z. X., Wu, Y. D., and Xue, M. J. (2009). LUCC and its impact on runoff and soil erosion in Chao River catchment of Miyun Reservoir basin. Journal of Sichuan University (Engineering Science Edition), 41(2): 148-153.
38. Cai, X. T., Su, B. L., Xu, Z. X., and Xu, C. Y. (2009). Hydrological modelling for the Zhangweinan River basin with intensive human activities. In (eds. Ao, T. Q., and Zhang, X. H.): Hydrological Modelling and Integrated Water Resources Management in Ungauged Mountainous Watersheds. IAHS Publ. 335: 97-104.
39. Li, Z. L., Shao, Q. X., Xu, Z. X., and Xu, C. Y. (2009). Estimating parameter uncertainty in hydrological models using the bootstrap method. In (eds. Ao, T. Q., and Zhang, X. H.): Hydrological Modelling and Integrated Water Resources Management in Ungauged Mountainous Watersheds. IAHS Publ. 335: 105-110.
40. Xu, Z. X., Pang, J. P., Liu, C. M., and Li, J. Y. (2009). Assessment of runoff and sediment yield in the Miyun Reservoir catchment by using SWAT model. Hydrol. Process. 23, 3619–3630 (DOI: 10.1002/hyp.7475).
41. Li, Z. L., Xu, Z. X., Shao, Q. X., and Yang, J. (2009). Parameter estimation and uncertainty analysis of SWAT model for upper reaches of the Heihe River basin. Hydrol. Process. 23, 2744–2753 (DOI: 10.1002/hyp.7371).
42. Zhao, F. F., Xu, Z. X., Zhang, L., and Zuo, D. P. (2009). Streamflow response to climate variability and human activities in the upper catchment of the Yellow River Basin. Sci. China Ser. E-Tech. Sci. 52(11): 3249-3256 (doi: 10.1007/s11431-009- 0354-3).
43. Zhang, Z. G., and Xu, Z. X. (2009). Rough set method to identify key factors affecting precipitation in Lhasa. Stochastic Environmental Research & Risk Assessment, 23(8): 1181-1186 (doi: 10.1007/s00477-008-0291-x).
44. Xu, Z. X., Zhao, F. F., and Li, J. Y. (2009). Response of streamflow to climate change in headwater catchment of the Yellow River basin. Quatern. Intl. 208(1-2): 62-75 (DOI:10.1016/j.quaint.2008.09.001).
45. Zhao, F. F., Xu, Z. X., and Huang, J. X. (2008). Impact of climate change on the streamflow in the headwater catchemnet of the Yellow River basin. In (eds.: Yang, D. W., Yian, F. Q., Tang, L. H., and Liu, Z. Y): Hydrological Research in China: Process Studies, Modelling Approaches and Applications, IAHS publ. no. 322: 252-259.
46. Li, Z. L., Xu, Z. X., Li, J. Y., and Li, Z. J. (2008). Shift trend and step changes for runoff time series in the Shiyang River basin, Northwest China. Hydrol. Process. 22, 4639–4646 (DOI: 10.1002/hyp.7127).
47. Zhao, F. F., Xu, Z. X., Huang, J. X., and Li, J. Y. (2008). Monotonic trend and abrupt changes for major climate variables in headwater catchment of the Yellow River basin. Hydrol. Process. 22, 4587–4599 (DOI: 10.1002/hyp.7063) (SCI, EI).
48. Xu, Z. X., Gong, T. L., and Li, J. Y. (2008). Decadal trend of climate in the Tibetan Plateau – regional temperature and precipitation. Hydrol. Process. 22(16): 3056-3065 (DOI: 10.1002/hyp.6892).
49. Liu, Z. F., Xu, Z. X., and Liu, L. L. (2007). Statistical downscaling model and its application in the Tarim River basin. Advances in Earth Science, 22(Suppl.): 194-199.
50. Li, Z. L., Xu, Z. X., Wu, Y. D., and Shi, X. K. (2007). Trend analysis for major climatic variables and runoff in the Shiyang River basin in Northwest China. Advances in Earth Science, 22(Suppl.): 233-242.
51. Xu, Z. X., Gong, T. L., and Liu, C. M. (2007). Detection of decadal trend for the precipitation in the Tibetan Plateau, In (eds.: Ren L. R.): Methodology in Hydrology, IAHS publ. no. 311: 271-276.
52. Zhao, F. F., Xu, Z. X., and Huang, J. X. (2007). Long-term trend and abrupt change for major climate variables in the upper Yellow River basin. Acta Meteorologica Sinica, 21(2), 204-214.
53. Xu, Z. X., Li, J. Y., and Liu, C. M. (2007). Long-term trend analysis for major climate variables in the Yellow River basin. Hydrol. Process. 21(14), 1935-1948.
54. Xu, Z. X., Li, J. Y., Takeuchi, K., and Ishidaira, H. (2007). Long-term trend of precipitation in China and its association with the El Ni?o-Southern Oscillation (ENSO). Hydrol. Process. 21, 61-71.
55. Song, J. X., Xu, Z. X., Liu, C. M., and Li, H. E. (2007). Ecological and environmental instream flow requirements for the Wei River — the largest tributary of the Yellow River, Hydrol. Process. 21(8), 1066-1073.
56. Xu, Z. X., Takeuchi, K., Ishidaira, H., and Li, J. (2005). Long-term trend analysis for precipitation in Asian Pacific FRIEND river basins. Hydrol. Process., 19(18), 3517-3532.
57. Xu, Z. X., Takeuchi, K., Ishidaira, H., Liu, C. M. (2005). An overview on water resources in the Yellow River basin. Water International, 30(2), 225-238 .
58. Xu, Z. X., Chen, Y. N., and Li, J. Y. (2004). Impact of climate change on water resources in the Tarim River basin. Water Resour. Mgmt. , 18(5), 439-458.
59. Xu, Z. X., Liu, C. M., Ishidaira, H., and Takeuchi, K. (2004). Spatially distributed snowmelt estimation and GIS application in Wei River basin. In (eds.: Chen Y. B., Takara, K., Cluckie, I., & Smedt, F. H. D.): GIS and Remote Sensing in Hydrology, Water Resources and Environment, IAHS publ. no. 289, 114-121.
60. Xu, Z. X., Takeuchi, K., and Ishidaira, H. (2004): Correlation between El Ni?o/Southern Oscillation (ENSO) and precipitation in Southeast Asia and the Pacific region. Hydrol. Process. 18,107-123.
61. Xu, Z. X., Takeuchi, K., Ishidaira, H., and Liu, C. M. (2003). A distributed model for estimating erosion and deposition of sediment in the Yellow River basin. In (eds: Boer, D., Froehlich, W., Mizuyama, T. & Pietroniro, A.): Erosion Prediction in Ungauged Basins: Integrating Methods and Techniques, IAHS Publ. no. 279, 93-100.
62. Xu, Z. X., Takeuchi, K., and Ishidaira, H. (2003): Monotonic trend and step changes in Japanese precipitation. J. Hydrol. 279(1-4), 144-150.
63. Xu, Z. X., and Li., J. Y. (2003). A distributed approach for estimating catchment evapotranspiration: comparison of the combination equation and the complementary relationship approaches. Hydrol. Process., 17(8),1509-1523.
64. Xu, Z. X., Schumann, A., and Li, J. Y. (2003). Markov cross-correlation pulse model for multisite daily streamflow generation, Adv. Water Resour.,26(3), 325-335.
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93.刘文丰,徐宗学,李发鹏,邱玲花.基于秩评分方法定量评估大气环流模式在雅鲁藏布江流域的模拟能力[J].北京师范大学学报(自然科学版), 2013, 49(2/3): 304-311.
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98.殷旭旺,徐宗学,高欣,白海锋,武玮,宋进喜.渭河流域大型底栖动物群落结构及其与环境因子的关系[J].应用生态学报, 2013a, 24(1): 218-226.
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110.李磊,徐宗学,于伟东,田术存.基于模糊优选和CRITIC法的流域初始水权分配——以漳卫南子流域为例[J].水利水电技术, 2012, 43(7): 32-35.
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114.李艳利,徐宗学,李磊,李艳粉.辽河流域环境要素对水生态的影响[J].环境科学与技术, 2012, 35(4): 107-111.
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116.李艳利,徐宗学,李艳粉.浑太河流域多尺度土地利用/景观格局与水质响应关系初步分析[J].地球与环境, 2012, 40(4): 573-583.
117.李艳利,徐宗学,刘星才.浑太河流域氮磷空间异质性及其对土地利用结构的响应[J].环境科学研究, 2012, 25(7): 770-777.
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119.刘浏,胡昌伟,徐宗学,程晓陶.情景分析技术在未来太湖水位预见中的应用[J].水利学报, 2012, 43(4): 404-413.
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122.刘星才,徐宗学,张淑荣,徐华山.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[J].生态学报, 2012, 32(11): 3613-3620.
123.苏龙强,徐宗学,刘兆飞,甄婷婷,张兰影.黄河卢氏流域径流对未来气候变化的响应[J].北京师范大学学报(自然科学版), 2012, 48(5): 505-509.
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125.唐芳芳,徐宗学,徐华山.潮河流域非点源污染关键区识别及其管理措施研究[J].北京师范大学学报(自然科学版), 2012, 48(5): 497-504.
126.武国正,徐宗学.核电站低放射性废水在封闭水体中的输移规律研究[J].环境科学, 2012, 33(7): 2438-2443.
127.武国正,徐宗学,李畅游.支持向量回归机在水质预测中的应用与验证[J].中国农村水利水电, 2012, (1): 25-29.
128.武国正,徐宗学,李畅游.基于分形理论的水体富营养状况评价及其验证[J].水资源保护, 2012, 28(4): 12-16.
129.武玮,徐宗学,李发鹏.渭河关中段水文情势改变程度分析[J].自然资源学报, 2012, 27(7): 1124-1137.
130.徐华山,徐宗学,唐芳芳,于伟东,程燕平.漳卫南运河流域水质时空变化特征及其污染源识别[J].环境科学, 2012, 33(2): 359-369.
131.徐华山,徐宗学,唐芳芳,张兰影.强烈人类活动影响流域的水量水质模拟[J].北京师范大学学报(自然科学版), 2012, 48(5): 542-549.
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135.左德鹏,徐宗学.基于SWAT模型和SUFI-2算法的渭河流域月径流分布式模拟[J].北京师范大学学报(自然科学版), 2012, 48(5): 490-496.
136.李占玲,徐宗学.近50年来黑河流域气温和降水量突变特征分析,资源科学,2011,33(10): 1877-1882.
137.尤淑撑,刘顺喜,徐宗学.星载高分辨率合成孔径雷达影像纠正技术,农业工程学报,2011,27(Supp.2): 90-93.
138.尤淑撑,刘顺喜,徐宗学.星载高分辨率SAR土地利用调查监测应用潜力评价,中国农学通报2011,27(8):460-463.
139.刘文丰,徐宗学,李发鹏,刘星才,李秀萍.大气环流模式(GCMs)在东南诸河流域的适用性评价.亚热带资源与环境,2011, 6(4):13-23.
140.李发鹏,徐宗学,刘星才,李秀萍,李兆飞.大气环流模式在松花江流域的适用性评价,水文,2011, 31(6):24-31.
141.刘博,徐宗学.基于SWAT模型的北京沙河水库流域非点源污染模拟.农业工程学报,2011, 27(5):52-61.
142.徐宗学,庞博:科学认识河湖水系连通问题.中国水利,2011,16:13-16.
143.左德鹏,徐宗学,李景玉,刘兆飞.气候变化情景下渭河流域潜在蒸散量时空变化特征,水科学进展,2011,22(4): 455-461.
144.左德鹏,徐宗学,程磊,赵芳芳.基于辐射的潜在蒸散量估算方法适用性分析,干旱区地理,2011,34(4): 565-574.
145.赵洁,徐宗学,周剑.黑河中游过去20年地下水位空间变异性分析,干旱区资源与环境,2011,25(8): 172-178.
146.蒋昕昊,徐宗学,刘兆飞,刘浏.大气环流模式在长江流域的适用性评价,长江流域资源与环境,2011, 20(7):51-58.
147.刘浏,徐宗学,黄俊雄.气候变化对西苕溪流域未来洪水影响研究 –II.情景分析,长江流域资源与环境,2011, 20(4),508-512.
148.刘浏,徐宗学,黄俊雄.气候变化对西苕溪流域未来洪水影响研究—Ⅰ.VIC模型评估,长江流域资源与环境,2011, 20(2),244-250.
149.刘浏,徐宗学,黄俊雄.二种降尺度方法在太湖流域的应用对比,气象科学,2011, 31(2):160-169.
150.张志果,邵益生,徐宗学:基于恩格尔系数与霍夫曼系数的城市需水量预测,水利学报,2010,41(11):1304-1309.
151.徐宗学,程磊:分布式水文模型研究与应用进展,水利学报,2010,41(8):1009-1017.
152.刘星才,徐宗学,徐琛:水生态一、二级分区技术框架,生态学报,2010,30(17):4804-4814.
153.徐宗学,李景玉:水文科学研究进展:回顾与展望,水科学进展,2010,21(7):62-71.
154.徐宗学,彭定志,杨赤:水文模型 — 一个充满活力和挑战的研究领域,北京师范大学学报(自然科学版),2010,46(3):221-222.
155.徐宗学:水文模型:回顾与展望,北京师范大学学报(自然科学版),2010,46(3):278-289.
156.庞靖鹏,刘昌明,徐宗学:密云水库流域土地利用变化对产流和产沙的影响,北京师范大学学报(自然科学版),2010,46(3):290-299.
157.徐宗学,罗睿:PDTank模型及其在三川河流域的应用,北京师范大学学报(自然科学版),2010,46(3):337-343.
158.李占玲,徐宗学:黑河流域上游山区径流模拟及模型评估,北京师范大学学报(自然科学版),2010,46(3):344-349.
159.刘兆飞,徐宗学:基于VIC-3L的塔里木河流域源流区水文要素特征分析,北京师范大学学报(自然科学版),2010,46(3):350-357.
160.朱玉龙,徐宗学,王国强,于伟东,田术存:缺资料地区河道水动力模拟 一 以卫河为例,北京师范大学学报(自然科学版),2010,46(3):378-382.
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162.孙永亮,徐宗学,苏保林,蔡锡填:变化情景下的漳卫南河流域水量水质模拟,北京师范大学学报(自然科学版),2010,46(3):387-394.
163.程磊,徐宗学,左德鹏,李林涛:基于Landsat TM数据的黄土高原水体识别方法研究,北京师范大学学报(自然科学版),2010,46(3):424-430.
164.甄婷婷,徐宗学,程磊,王洁:蓝水绿水资源量估算方法及时空分布规律研究,资源科学,2010, 32(6): 1177-1183.
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167.徐宗学.水文科学在北京师范大学:回顾、机会与挑战,北京师范大学学报(自然科学版),2009, 45(5/6):463-468.
168.左德鹏,徐宗学,刘兆飞.基于气温的潜在蒸散发量估算方法在我国西北干旱地区的应用比较,干旱区资源与环境,23(10): 123-131.
169.刘兆飞,徐宗学.基于统计降尺度的渭河流域未来日极端气温变化趋势分析,资源科学,2009,31(9):1573-1580.
170.王洁,徐宗学.白洋淀流域气温与降水量长期变化趋势及其持续性分析,资源科学,2009,31(9):1498-1505.
171.张玲,徐宗学,张志果:基于粒子群算法的北京市水资源优化配置,水文, 2009, 29(3), 41-45.
172.赵芳芳,徐宗学:黄河源区未来气候变化的水文响应,资源科学,2009,31(5):722-730.
173.李发鹏,徐宗学,李景玉:基于MODIS数据的黄河三角洲区域蒸散发量时空分布特征研究,农业工程学报, 2009, 25(2): 113-120 (EI).
174.程磊,徐宗学,罗睿,米艳娇:SWAT在干旱半干旱地区的应用 一 以窟野河流域为例,地理研究. 2009,28(1),65-73。
175.徐宗学,孟翠玲,巩同梁,隋彩虹.西藏自治区气温变化趋势分析,自然资源学报. 2009, 24(1), 163-170.
176.李占玲,徐宗学:甘肃省40年来气温和降水时空变化,应用气象学报. 2009, 20(1),102-106.
177.黄俊雄,徐宗学:太湖流域1954-2006年气候变化及其演变趋势分析,长江流域资源与环境, 2009, 18(1): 34-41
178.罗睿,徐宗学,程磊:SWAT模型在三川河流域的应用,水资源与水工程学报,2008,19(5),28-33。
179.徐宗学,米艳娇,李占玲,陈亚宁.和田河流域气温与降水量长期变化趋势及其持续性分析,资源科学,2008,30(12),1833-1838.
180.黄俊雄,徐宗学*,刘兆飞,赵芳芳:统计降尺度法分析太湖流域未来气候变化情景,资源科学,2008,30(12),1811-1817.
181.王晓霞,徐宗学,阮本清:天津市降水量长期变化趋势的时空分布特征,干旱区资源与环境. 2008, 9: 92-96
182.刘兆飞,徐宗学,刘绿柳.统计降尺度模型及其在塔里木河流域的应用.地球科学进展,2008,22,194-199。
183.刘绿柳,刘兆飞,徐宗学. 21世纪黄河流域上中游地区气候变化趋势分析.气候变化研究进展,2008,4(3),167-172。
184.蔡锡填.徐宗学.李占玲.漳卫南运河流域水文气象要素长期变化趋势分析.资源科学,2008,30(3),363-370。
185.李占玲,徐宗学,巩同梁:雅鲁藏布江流域径流特性变化分析,地理研究,2008,27(2),353-361。
186.赵芳芳,徐宗学:黄河源区未来气温变化分析的统计降尺度分析,高原气象,2008,27(1),153-161。
187.彭定志,徐宗学,巩同梁:雅鲁藏布江拉萨河流域水文模型应用研究,北京师范大学学报(自然科学版),2008, 44(1), 31-34.
188.李发鹏,徐宗学:黄河三角洲地表特征参数时空分布特征,人民黄河,2008,2,3-5。
189.刘兆飞,徐宗学.塔里木河流域水文气象要素时空变化特征及其影响因素分析,水文,2007,27(5),69-73。
190.庞靖鹏,徐宗学,刘昌明. SWAT模型中天气发生器与数据库构建及其验证,水文, 2007,27(5),25-30。
191.黄俊雄,徐宗学,巩同梁.雅鲁藏布江径流演变规律及其驱动因子分析,水文,2007,5,31-35.
192.徐宗学,孟翠玲 赵芳芳,山东省近40a来气温和降水变化趋势,气象科学,2007,27(4),387-393.
193.赵芳芳,徐宗学:统计降尺度方法和Delta方法建立黄河源区气候情景的比较分析,气象学报,2007,65(4),653-662.
194.徐宗学,李占玲,史晓琨:石羊河流域主要气象要素及径流特征分析,资源科学,2007,29(5),121-128.
195.庞靖鹏,徐宗学,刘昌明. SWAT模型研究应用进展,水土保持研究, 2007,14(3),31-35.
196.张志果,徐宗学,巩同梁,梯级-关联算法原理及其在流量预报中的应用,水科学进展,18(1),114-117,2007.
197.庞靖鹏,徐宗学,刘昌明.基于GIS和USLE的非点源污染关键区的识别,水土保持学报, 2007,21(2),170-174.
198.张志果,徐宗学,赵为民,梯级-联算法在多泥沙河流含量中的应用,水利学报,2007,38(4):448-453.
199.徐宗学,巩同梁,赵芳芳:近40年来西藏高原气候变化特征分析,亚热带资源与环境学报,1(1),24-32,2006.
200.徐宗学,和宛琳:近40年黄河源区气候要素分布特征及变化趋势分析,高原气象,25(5),906-913,2006.
201.张玲,徐宗学,阮本清,北京城市热岛效应对气温和降雨量的影响,自然资源学报,21(5),746-754,2006.
202.隋彩虹,徐宗学:人工神经网络模型在渭河下游洪水预报中的应用,水文,26(2):38-42,2006.
203.徐宗学,张楠:黄河流域降水分布特征及变化趋势分析,地理研究,25(1):27-34,2006.
204.赵芳芳,徐宗学:黄河兰州以上气候要素长期变化趋势和突变特征分析,气象学报,64(2):246-255,2006.
205.徐宗学,张玲,阮本清,北京市降雨量时空分布规律分析,干旱区地理,29(2):186-192, 2006.
206.和宛琳,徐宗学:渭河流域干旱特征及干旱指数计算方法初探,气象,32(1), 24-29, 2006.
207.徐宗学,和宛琳:黄河流域近40年蒸发皿蒸发量变化趋势分析,水文,25(6),6-11, 2005.
208.徐宗学,赵芳芳:黄河流域日照时数变化趋势分析,资源科学,27(5), 153-159, 2005.
209.徐宗学,竹内邦良,石平博:日本の平均気温、降水量時系列におけるジャンプ及びトレンドに関する研究,水工学論文集,第46巻,121-126,2002.
参编出版专著:
1.徐宗学,刘浏,刘兆飞著,《气候变化影响下的流域水循环》,科学出版社,2014年
2.徐宗学著,《水文科学中的风险率与不确定性》,科学出版社,2013年
3.徐宗学等编著,《现代水文学》,北京师范大学出版社,2013年
4.徐宗学,徐林波,李培,于伟东,张晓岚等著,《漳卫南运河流域水资源水环境综合模拟与管理》,中国水利水电出版社,2013年
5.史培军,于德永,江源,王静爱,徐宗学著,《景观城市化与生态基础设施建设 – 以深圳为例》,科学出版社,2012.
6.徐宗学等编著,《水文模型》,科学出版社,2009年, pp.525.
7. Liu C. M., Chen, Y. N., and Xu Z. X. (Guest Eds.) (2010). Special Issue: Eco-hydrology and Sustainable Development in the Arid Regions of China. Hydrological Processes, 24(2): 127-240.
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