亚博app

[1]丁晋利,郑粉莉.SWAT模型及其应用[J].亚博app,2004,11(04):128-130,156.
 DING Jin-li,ZHENG Fen-li.SWAT Model and Its Application[J].,2004,11(04):128-130,156.
点击复制

SWAT模型及其应用

参考文献/References:

[1] Texas, Grassland, Soil and Water Research Laboratory, Agricultural Research Service[EB/OL].2001, http://www.brc.tamus.edu/swat/swat2000doc.html.
[2] Arnold J G, Srinivasan R, Muttiah R S, et al.Continental scale simulation of the hydrologic balance[J].Journal of American Water Resources Association, 1999, 35(5):1037-1051.
[3] Douglas D H.Experiments to locate ridges and channels to create a new type of digital elevation models[J].Cartographica, 1986, 23(4):29-61.1991, 30(6):1 681-1 692.
[4] Fairfield J P Leymarie.Drainage networks from grid digital elevation models[J].Water Resources Research, 1991, 30(6): 1681-1692.
[5] Mark D M.Automatic detection of drainage networks from digital elevation models[J].Cartographica, 1984, 21(2/3):168-178.
[6] Martz L, Garbrecht W J.Numerical definition of drainage network and subcatchment areas from digital elevation models[J].Computers and Geosciences, 1992, 18(6):747-761.
[7] 王中根, 刘昌明, 黄友波.SWAT模型的原理结构及应用研究[J].2003, 22(1):79-87.
[8] Neitsch S L, Arnold J G., Kiniry J R, et al.Soil and Water Assessment Tool Theoretical Documentation, Version 2000[EB/OL].http://www.brc.tamus.edu/swat/.2001.
[9] Hargreaves G L, Hargreaves G H, Riley J P.Agricultural benefits for Senegal River Basin[J].Irrig.and Drain.Engr, 1985, 111(2):113-124.
[10] Priestley C H, Taylor R J.On the assessment of surface heat flux and evaporation using large-scale param-eters[J].Mon.Weather Rav, 1972, 100:81-92.
[11] Penman H L.Evaporation: Anintroductory survey[J].Netherlands Journal of Agricultural Science, 1956, (4):7-29.
[12] Nash J E.Suttciliffe River flow forecasting through conceptual models, Part1 AD is cussion of Principle[J].Journal of Hydrology, 1970, 10(3):282-290.
[13] Furey P R, Gupta V K.A physical lipase filter for separating baseflow form stream flow times series[J].Water Resources Research, 2001, 37(11):2 709-2 722.
[14] Rabiner L R, Gold B.Theory and application of digital signal processing[M].史令启译.北京:国防工业出版社, 1982.
[15] Lyne V, Hollick M.Stochastic time variable rainfall runoff modeling[A].Hydrology and Water Resources Symposium Berth, Proceedings[C].Australia:National Committee on Hydrology and Water Resources of the Institution of Engineers, 1979, 89-92.
[16] Nathan R J, McMahon T A.Evaluation of automated techniques for base flow and recession analysis[J].Water Resources Research, 1990, 26(7):1 465-1 473.
[17] Arnold J G, Allen P M.Automated methods for estimating baseflow and ground water recharge from stream flow[J].Journal of the American Water Resources Association, 1999, 35(2):411-424.

相似文献/References:

[1]李佳,张小咏,杨艳昭.基于SWAT模型的长江源土地利用/土地覆被情景变化对径流影响研究[J].亚博app,2012,19(03):119.
 LI Jia,ZHANG Xiao-yong,YANG Yan-zhao.SWAT Model of Runoff Study under Different Land Use Land Cover Scenarios in Source Region of the Yangtze River[J].,2012,19(04):119.
[2]杨巍,汤洁,李昭阳,等.基于SWAT模型的大伙房水库汇水区径流与泥沙模拟[J].亚博app,2012,19(02):77.
 YANG Wei,TANG Jie,LI Zhao-yang,et al.Streamflow and Sediment Simulation Based on SWAT Model in Dahuofang Reservoir Catchment[J].,2012,19(04):77.
[3]丁飞,潘剑君.分布式水文模型SWAT的发展与研究动态[J].亚博app,2007,14(01):33.
 DING Fei,PAN Jian-jun.Development and Advances in Research on SWAT Model[J].,2007,14(04):33.
[4]庞靖鹏,徐宗学,刘昌明.SWAT模型研究应用进展[J].亚博app,2007,14(03):31.
 PANG Jing-peng,XU Zong-xue,LIU Chang-ming.SWAT Model Application: State-of-the-Art Review[J].,2007,14(04):31.
[5]王亚军,周陈超,贾绍凤,等.基于SWAT模型的湟水流域径流模拟与评价[J].亚博app,2007,14(06):394.
 WANG Ya-jun,ZHOU Chen-chao,JIA Shao-feng,et al.Simulation and Assessment of Natural Runoff in Huangshui River Basin Based on SWAT[J].,2007,14(04):394.
[6]赖格英,刘志勇,刘胤文.流域土地利用/覆盖与植被变化的水文响应模拟研究[J].亚博app,2008,15(04):10.
 LAI Ge-ying,LIU Zhi-yong,LIU Yin-wen.A Simulation-based Research on the Hydrological Response of Land Use/Cover and Vegetation Changes in Watershed Scale[J].,2008,15(04):10.
[7]梁小军,江洪,朱求安,等.岷江上游流域不同土地利用与气候变化的径流响应研究[J].亚博app,2008,15(05):30.
 LIANG Xiao-jun,JIANG Hong,ZHU Qiu-an,et al.Modelling Hydrological Response to Different Land-use and Climate Change Scenarios in the Upper Reach of Minjiang River[J].,2008,15(04):30.
[8]杨菁荟,张万昌.SWAT模型及其在水环境非点源污染中的应用研究进展[J].亚博app,2009,16(05):260.
 YANG Jing-hui,ZHANG Wan-chang.Research Progress on SWAT Model and Its Application on Water Environmental Nonpoint Source Pollution[J].,2009,16(04):260.
[9]庞靖鹏,刘昌明,徐宗学.基于SWAT模型的径流与土壤侵蚀过程模拟[J].亚博app,2007,14(06):88.
 PANG Jing-peng,LIU Chang-ming,XU Zong-xue.Streamflow and Soil Erosion Simulation Based on SWAT Model[J].,2007,14(04):88.
[10]张雪松,郝芳华,张建永.降雨空间分布不均匀性对流域径流和泥沙模拟影响研究[J].亚博app,2004,11(01):9.
 ZHANG Xue-song,HAO Fang-hua,ZHANG Jian-yong.Study on Effect of Uncertainty in Spatial Distribution of Rainfall on Runoff and Sediment Modeling[J].,2004,11(04):9.
[11]侯统昭,李锦育.SWAT模型之初步探讨[J].亚博app,2009,16(06):282.
 HOU Tung-chao,LEE Chin-yu.Primarily Study for Soil and Water Assessment Tool (SWAT)[J].,2009,16(04):282.

备注/Memo

收稿日期:2004-7-10;改回日期:。
基金项目:国家自然科学基金重点项目(40335050);中国科学院知识创新工程重要方向项目(KZCX3-SW-442)
作者简介:丁晋利(1978- ),女,硕士研究生,研究方向为坡面土壤侵蚀过程与机理。

更新日期/Last Update: 1899-01-01
金沙体育-金沙体育官网 亚博app yabo88_yabo88官网-「开户首充送大礼」 英亚国际 十大网投信誉平台-全球十大信誉网投平台-亚博app