[1] Poesen J W, Boardman J, Wilcox, Valentin C. Water erosion monitoring and experimentation for global change studies[J]. Journal of soil and water conservation, 1996, 51(5): 386-390.
[2] Boardman J.Soil erosion monitoring programmes[A]. Paper presented at IGBP-GCTE-SEN Workshop "Soil erosion under global change"[C] 29-31 March 1994, Paris, France.
[3] Bulter T P.Long-term study of the natural environment-perceptive science or mindless monitoring[J]. Progress in physical Geography, 1994, 18(4):475-496.
[4] Boardman J.Damage to property by runoff from agricultural land, South Downs, southern England, 1976-1993[J].Geographical Journal 1995, 161(2):177-191.
[5] Boardman J.1988,Severe erosion on agricultural land in East Sussex, U.K[J]. Soil technology 1987:1(10):333-348.
[6] Ingram J S I, Lee J J, Valentin C.The GCTE soil erosion network: a multi-participatory research program[J]. Journal of soil and water conservaion, 1996, 51(5): 377-380.
[7] Favis-Mortlock D T, Quinton J N, Dickinson W T.The GCTE validation of soil erosion models for global change studies[J].Journal of soil and water conservation, 1996, 51(5): 397-403.
[8] Kirkby M J. A model to estimate the impact of climatic change on hillslope and regolith form[J].Catena 1989, 16: 321-341.
[9] Lavee H, Imeson A C, Pariente S, et al. The response of soils to simulated rainfall along a chimatological gradient in an arid and semi-arid region[J].Catena, 1991, 19: 19-37.
[10] Eybergen F A, Imeson A C.Geomorphological processes and climate change[J].Catena 1989, 16: 306-319.
[11] Boix-Fayos C, Calvo-Cases A, Imeson A C, et al.Sptial and short-term temporal variation in runoff soil aggregation and other soil properties along a Mediterranean climatological grdient[J]. Catena, 1998, 25:123-138.
[12] Bissonnais Le.Comportement d agreges terreux soumis l'seau:ananlse des mecanismes de desagregation[J]. Agronomie, 1988, 8:915-924.
[13] Kemper W,Koch K.Aggregate stalilit of soils from Western United States and Canada[M]. USDA.Tech.Bull.1355, USDA, Washington 1996.
[14] Lavee H, Pariente S. Spatial variablility of soil properties along a climatic gradient. In H.Lavee(ed)[M]. Guide to Jundean Desert Climatological Gradient Excursion.Israel,May 13-22,Barhan University, Israel, 1955. 16-30.
[15] Pieri C.Fertile des terres de savane.Bilan detrente ans de recherché etde developpement agricoles au sud du Sahara[M]. Ministre de la cooperation/CIRAD, Paris, France, 1989.444.
[16] Butler D R. Zoogeomorphology.Animals as Geomorphic AGENTS[M].Cambridge University Press,USA.231.
[17] Wischmeier W H, Smith D D. Predicting rainfall erosion losses. A guide to conservation planning[M]. Science and Education Administration, USDA., 1978, 40-62.
[18] Renard K G, Foster G R, et al. RUSLE-revised universal soil loss equation[J].Journal of Soil Water Conservation, 1991, 46(1):30-33.
[19] Savabi M R.Application of WEPP and GIS-GRASS to a small watershed in Indian[J]. Journal of Soil and Water conservation, 1995, 50(5):477-483.
[20] Lobb, Kachanoski D A R G, Miller M H.Tillage translocation and tillage erosion on shoulder slope landscape positions measured using 137Cs as a tracer[J]. Canadian Journal of Soil Science, 1995, 75:211-218.
[21] Duval Y.Pour reduire la tare, connaittre et observer les sols[J].Le Betteravier Francais, 1988, 531:27-29.
[22] Trimble S W.Erosional effects of cartle on streambanks in Tennessee.U.S.A Earth surface processes and landforms, 1994,19:451-464.
[23] 胡良军, 李锐, 杨勤科.基于GIS的区域水土流失评价研究[J].土壤学报, 2001, 38(2):167-175.
[24] 夏军.水文尺度问题[J].水利学报,1993,(5):32-37.
[25] 杨胜天, 朱启疆.人机交互式解译在大尺度土壤侵蚀遥感调查中的作用[J].水土保持学报, 2000, 14(3):88-91.
[26] 胡良军, 邵明安.区域水土流失研究综述[J].山地学报, 2001, 19(1):69-74.
[27] Renard K G. Predicting soil erosion by water: a guide to conservation planning with revised universal soil loss equation(RUSLE)[M].Agriculture Handbook 537, 1997.
[28] Foster G R, Lane L J. User requirements USD A-water erosion prediction project (WEPP)[R]. NSEAL Report No.1.West Lafayette 1987.
[29] De Roo, A P J, et al.LISEM: a single event physical-based hydrologic and soil erosion model for drainage basinsⅠ:Theory, input and output[J]. Processes, 1996, 10(8), 1107-1117.
[30] Williams J R, Renard. EPIC-A new method for assessing erosion's effect on soil productivity[J]. Journal of Soil and water Conservation, 1983, 38(5):381-383.
[31] Srinivasan R, Arnold J G.Integration of a basin-scale water quality model with GIS[J].Water Resources Bulletin, 1994, 30(3): 453-462.
[32] Morgan R P C, et al. The European Soil Erosion Model(EUROSEM): a dynamic approach for predicting sediment transport from fields and small catchment[M]. Earth surface processes and landform. 1998, 23: 527-544.
[33] Young R A. AGNPS:A nonpoint source pollution model for evaluating agricultural watershed[J]. Journal of Soil and Water Conservation, 1989, 44(2):168-173.
[34] Beasley D B,Huggins L F. ANSWERS User's Manual, West Layette[M]. Dept lf Agric,Eng, Purdue University, 1982.
[35] Cooper A B. Prodcting Runoff of water, sediment, and nutridents from a New Zealand Grazed pasture using CREAMS[J]. Transations of the ASAE, 1992, 35(1):104-112.
[36] Morgan R P C. A simple approach to soil loss prediction: a revised Morgan-Morgan-Finney model[J]. Catena, 2001, (44): 305-322.
[37] De Jong S M, et al. Regional assessment of soil erosion using the distributed model SEMMED and remotely sensed data[J]. Catena, 1999, 37(3-4): 291-308.
[38] Wicks, Bathurst.SHESED:a physical based, distribute erosion and sediment yield component for the SHE hydrological modeling system[J]. Journal of Hydrology, 1996, 175: 213-238.
[39] Smith R E, Goodrich D C, Unkrich C L. Simulation of selected events on the Catsop catchment by KINEROS2, A report for GCTE conference on catchment scale erosion models[J]. Catena, 1999, 37:457-575.
[40] 蔡强国, 王贵平, 陈永宗. 黄土高原小流域侵蚀产沙过程与模拟[M].北京:科学出版社, 1998.3-225.