[1]胡婧,丛伟,闫锋,等.小流域土壤养分流失机理与土地覆盖格局演变[J].水土保持研究,2005,12(06):218-221.
 HU Jing,CONG Wei,YAN Feng,et al.Mechanism of Soil Nutrient Loss by Erosion and Land Covering Pattern Succession[J].Research of Soil and Water Conservation,2005,12(06):218-221.
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小流域土壤养分流失机理与土地覆盖格局演变

参考文献/References:

[1] 傅伯杰,郭旭东,陈利顶,等.土地利用变化与土壤养分的变化-以河北省遵化县为例[J].生态学报,2001,21(6):926-931.
[2] 史培军,刘宝元,张科利,等.土壤侵蚀过程与模型研究[J].资源科学,1999,21(5):9-19.
[3] 孟庆华,傅伯杰.景观格局与土壤养分流动[J].水土保持学报,2000,14(3):116-121.
[4] 史德明,石晓日,李德成.应用遥感技术监测土壤侵蚀动态的研究[J].土壤学报,1996,33(1):48-56.
[5] 王礼先,刘霞.生态环境建设的区域配置[J].水土保持学报,2002,16(5):45-49.
[6] 关君蔚.中国水土保持学科体系及其展望[J].北京林业大学学报,2002,24(5/6):
[7] 周华锋,傅伯杰.景观生态结构与生物多样性保护[J].地理科学,1998,18(5):472-478.
[8] 王根绪,郭晓寅,程国栋.黄河源区景观格局与生态功能的动态变化[J].生态学报,2002,22(10):1587-1598.
[9] 符素华,刘宝元.土壤侵蚀量预报模型研究进展[J].地球科学进展,2002,17(1):78-84.
[10] 刘昌明,王会肖.土壤-作物-大气界面水分过程与节水调控[M].北京:科学出版社,1999.
[11] 李勇,张建辉,杨俊诚,等.陕北黄土高原陡坡耕地土壤侵蚀变异的空间格局[J].水土保持学报,2000,14(4):1-6.
[12] 杨艳生,刘柏根,丁根生,等.南方水土流失区开发治理的思路[J].长江流域资源与环境,1996,5(1):32-37.
[13] 沈振荣.水资源科学试验与研究-大气水、地表水、土壤水、地下水相互转化关系[M].北京:中国科学技术出版社,1992.
[14] 李保国,龚元石,左强.农田土壤水的动态模型及应用[M].北京:科学出版社,2000.
[15] 康绍忠,刘晓明,熊运章.土壤-植物-大气连续体水分传输理论及其应用[M].北京:水利电力出版社,1994.
[16] 胡雪涛,陈吉宁,张天柱.非点源污染模型研究[J].环境科学,2002,23(3):124-128.
[17] 张岩,袁建平,刘宝元.土壤侵蚀预报模型中的植被覆盖与管理因子研究进展[J].应用生态学报,2002,13(8):1033-1036.
[18] 蔡崇法,丁树文,史志华,等.GIS支持下三峡库区典型小流域土壤养分流失量预测[J].水土保持学报,2001,15(1):9-12.
[19] 张兴昌,邵明安.小流域土壤氮素流失规律研究[J].地理学报,2000,55(5):617-626.
[20] 李俊然,陈利顶,郭旭东,等.土地利用结构对非点源污染的影响[J].中国环境科学,2000,20(6):506-510.
[21] Arnold J G,Sirnivasan R,Muttiach T S.Large area hydrologic modeling assessment part II:Model applicaion[J].JAWAR,1998,43(1):91-101.
[22] Leonard R A,Knisel W G,Still D A.GLEAMS:Ground-water loading effects of agricultural management systems[J].Trans.ASAE,1987,30(5):1403-1418.
[23] Reginato R J.Irrigation Scheduling and Plant Water in USA[A].Presentation at the International Congress of Agro meteorology[C].Cesera,Italy,1987.10.
[24] Nobel P K.Physiochemical and Environmental Plant Physiology[M].New York:Academic Press Inc.,1991.635.
[25] Huang C H,Joe M Bradford,John M Laflen.Evaluation of the detachment-transport coupling concept in the WEPP rill erosion equation[J].Soil Sci.Soc.Am.J.,1996,57(2):457-461.
[26] Jaynes D B,M Shao.Evaluation of a simple technique for estimating two-domain transport parameters[J].Soil Science,1999,164(2):82-91.
[27] John M Laflen,Leonard J Lane,George R Foster.A new generation of erosion prediction technology (WEPP)[J].J.Soil and Water Conservation,1991,56(1):12-19.
[28] Novotny V.A review of hydrologic and water quality models used for simulating agricultural pollution[A].In:Agricultural nonpoint source pollution,model selection and application[M].A Giorgini,F Zingales (Eds.) Dev.Environ.Model.10,Elsevier,1999.9-35.
[29] Bouraoui F,Dillaha T A.ANSWERS-2000:Runoff and sediment transport model[J].J Envir.Engrg.,ASCE,1996,122(6):493-502.
[30] Bouraoui F,Dillaha T A.ANSWERS2000:Non-point-source nutrient planning model[J].J Envir.Engrg.,ASCE,2000,122(11):1045-1055.
[31] Knisel W G,Leonard R A,Davis F M.The GLEAMS model plant nutrient component,Part I:model documentation[R].U.S.Dept.of Agr.,Agricultural Research Service,Coastal Plain Experiment Station,Southeast Research Laboratory,Tifton,Ga,1994.
[32] USDA.CREAMS,A field scale model for chemical s,runoff,and erosion from agricultural management systems[R].Conservation Research Report No.26.Washington D.C:USDA,1980.643.
[33] Sharpley A N,Williams J R.EPIC-erosion/productivity impact calculator:1.Model documentation[R].USDA tech.Bull.No.1786,Washington D.C:U.S.Government Printing Office,1990.
[34] Donigian A S.Agricultural runoff management (ARM) model.Version II:Refinement and testing[R].EPA 6003-77-098.Washington,D.C:US Gov.Print Office,2000.
[35] Donigian A S & Grawford N H.Modeling non-point pollution from the land surface[R].EPA-600/3-76-083.EPA Technological Service,Athens,GA:US Environmental Protection Agency,1999.
[36] Donigian A S,Grawford N H.Modeling pesticides and nutrients on agricultural lands[R].Repot No.EPA-600/2-76-043,Athens,GA:US Environmental Protection Agency,1999.
[37] Donigian A S & Grawford N H,1999.Simulation of agricultural runoff[R].In:Proc.Of the EPA Conference on Environmental Modeling and Simulation,OH,19-22.EPA-600/9-76-016.US Environmental Protection Agency,1975.151-156.
[38] Donigian A S.Simulation of nutrient loading in surface runoff with the NPS model[R].EPA-660/3-77-065.Athens,GA:US Environmental Protection Agency,1977.
[39] Young R A,Onstad C A,Bosh D D,et al.Agricultural nonpoint source pollution models (AGNPS) Ⅰ & Ⅱ.Model documentation[R].Minnesota Pollution Control Agency,St.Paul,MI,and Agricultural Research Service,Washington,D.C:US Department of Agriculture,2000.
[40] Young R A,Onstad C A,Bosch D D,et al.AGNPS,Agricultural nonpoint pollution.A watershed analysis tool[R].Conservation Research Report 35.Washington,D.C:US Department of Agriculture,1987.
[41] Legg J O,Meisinger T.Soil nitrogen budgets[A].In Nitrogen in agricultural soils (Eds.F J Stenvenson)[M].Am.Soc.Of Agron.Madison,Wis.Agronomy,1992.122:503-566.
[42] Wu J J,Bernardo D J,Mapp H P,et al.An evaluation of nitrogen runoff and leaching potential in the High Plains[J].J.Soil and Water Conserv.,1987,52(1):73-80.
[43] Sharpley A N.The enrichment of soil phosphorus in runoff sediments[J].J.Environ.Qual.,1994,9:521-526.
[44] Haith D A.Land use and water quality in New York River[J].J.Environ.Div.,ASCE.,1976,102(1):1-15.
[45] Williams J R,Nicks A D,Dyke P T.A modeling approach to delerming the relationship between erosion and soil productivity[J].Trans.ASAE,1984,27(1):129-144.
[46] Williams J R,Nicks A D,Arnold J G.Simulator for water resources in Rural Basins[J].J.Hydraul.Eng.,1985,111(6):170-196.

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备注/Memo

收稿日期:2005-9-5。
基金项目:国家自然科学基金项目(40371076)
作者简介:胡婧(1984- ),女,主要从事土壤学方面的研究工作.

更新日期/Last Update: 1900-01-01