[Image][Image][Image] Literature List [Image] The list is ordered by the first character of the first name of the author. Click the proper letter below to get particular section [A][B][C][D][E][F][G][H][J][K][L][M][N][O][P][Q][R][S][T][V][W][X-Z] Abrahams, A. D., Parsons, A. J., and Luk, S. H. (1991). The Effects of Spatial Variability in Overland Flow on the Downslope Pattern of Soil Loss on a Semiarid Hillslope, Southern Arizona. Catena, Vol. 18, 255-270 Alonso, C. V., Neibling, W. H., and Foster, G. R. (1981). Estimating Sediment transport Capacity in Watershed Modelling. Transactions of the ASAE. 1211-1226 Anderson, M.G. & Sambles, K. M. (1988). A review of the bases of geomorphological modelling. In M.G. Anderson (ed): Modelling Geomorphological Systems. John Wiley & Sons Ltd. Chapter 1,1- 32 Anderson, M.G. & Rogers, C. C. M. (1990). Catchment scale distributed hydrological models: a discussion of research directions. Progress in Physical Geography. 28-51 Armstrong, A. C. (1980). Soils and Slopes in a Humid Temperate Environment: A Simulation Study. Catena. Vol. 7, 327--38 Armstrong, A. C. (1987). Slopes, Boundary Conditions, and the Development of Convex-Concave Forms- Some Numerical Experiments. Earth Surface Processes and Landforms, Vol. 12, 17-30 Auzet, A. V., Boiffin, J., Papy, F., etc. (1993). Rill Erosion as a Function of the Characteristics of Cultivated Catchments in the North of France. Catena, Vol. 20, 41- 62. Bachhuber, F. G., Bunzi, H., K., and Schimmack, W. (1987). Spatial Variability of Fallout 137Cs in the Soil of a Cultivated Field. Environmental Monitoring and Assessment. Vol. 8, 93-101 Balstroem, T. (1994). Mapping of Erosion Risk: Assessment in Denmark. Proceedings of the Fourteenth Annual ESRI User Conference, 1-5 Band, L. (1985). Field Parameterization of an Empirical Sheetwash Transport Equation. Catena, Vol. 12, 281-190 Band, L. E. and Moore, I. D. (1995). Scale: Landscape Attributes and Geographical Information Systems. Hydrological Processes, Vol. 9, 401-422 Bazzofi, P., Canuti, P., Moretti, S., etc. (1986). Quantitative evaluation of some slope processes (surface erosion, mass movements) in experimental areas with different agroclimatic conditions in central Italy. Z. Geomorph. N. F., Suppl.-Bd. 60, 131-148 Ben-Hur, M., Stern, R., Van derMerwe, A. J., etc. (1992). Slope and Gypsum Effects on Infiltration and Erodibility of Dispersive and Non-dispersive Soils. Soil Sci. Soc. Am, J. 56: 1571-1576 Berghe, L. V. &. Gulinck, H. (1987). Fallout 137Cs as a Tracer for Soil Mobility in the Landscape Framework of the Belgien Loamy Region. Pedologie, XXXVII-1, 5-20 Bergstrom, S. (1991). Principles and Confidence in Hydrological Modelling. Nordic Hydrology, 22, 123-136 Beven, K. & Wood, E. F. (1983). Catchment geomorphology and the dynamics of runoff contributing areas. Journal of Hydrology, Vol. 65, 139-158 Beven, K. (1989). Changing Ideas in Hydrology - The Case of Physically-based Models. Journal of Hydrology, 105, 157-172 Boardman, J. (1984a). A morphometric approach to soil erosion on agricultural land near Lewes, East Sussex. In T. Lakehurst and R. L. Gant (eds): Issues in Countryside Research. Kingston / Brighton Research Paper. Brighton Polytechnics. 1-10 Boardman, J. (1984b). The context of soil erosion. In: C. P. J. Burham and J. I. Pitman (eds): SEESOIL, The Journal of the South East England Soils Discussion Group, Volume 3 (for 1986). 1-13 Boardman, J. & Robinson, D. A. (1985). Soil erosion, climate vagary and agricultural change on the Downs around Lewes and Brighton, autumn 1982. Applied Geography, Vol. 5, no. 3, 243-258 Boardman, J., Dearing, J. A. and Foster, D. L. (1990). Soil erosion Studies: Some Assessments. In J. Boardman, I. D. L. Foster and J. A. Dearing (eds): Soil erosion on Agricultural Land. John Wiley & Sons Ltd. 659-672 Boardman, J. & Evans, R. (1994). Soil Erosion in Britain: A Review. In R. J. Rickson (ed): Conserving Soil resources: European Perspectives. CAB International. Chapter 1, 3-12 Bork, H. R. and Rohdenburg, H. (1986). Transferable Parameterization Methods for Distributed Hydrological and Agroecological Catchment Models. Catena. Vol. 13, 99- 117 Braun, L. W., Brun, E., Durand, Y., etc. (1994). Simulation of Discharge Using Different Methods of Meteorological Data Distribution, Basin Discretization and Snow Modelling. Nordic Hydrology, 25, 129-144. Brown, R. B., Cutshall, N. H., and Kling, G. F. (1981). Agricultural Erosion Indicated by 137Cs Redistribution: I. Levels and Distribution of 137Cs Activity in Soils. Soil Sci. Soc. Am. J., Vol. 45, 1164-1190 Brown, R. B., Kling, G. F., and Cutshall, N. H. (1981). Agricultural Erosion Indicated by 137Cs Redistribution: II. Estimates of Erosion Rates. Soil Sci. Soc. Am. J., Vol. 45, 1191- 1197 Brubaker, S. C., Jones, A. J., Frank, K., etc. (1994). Regression Models for Estimating Soil Properties by Landscape Position. Soil. Sci. Soc. Am. J. 58: 1763-1767 Bruneau, P., Gascuel-Odoux, C., Robin, P., etc. (1995). Sensitivity to Space and Time Resolution of a Hydological Model Using digital Elevation Data. Hydrological Processes. Vol. 9, 69-81. Burrough, P. A. (1986). Principles of Geographical Information Systems for Land Resources Assessment. Clarendon Press, Oxford Burrough, P. A. (1989). Matching spatial databases and quantitative models in land resources assessment. Soil Use and Management, Vol. 5, no. 1, 3-8 Burt, T. P. & Butcher D. P. (1986). Development of topographic indices for use in semi-distributed hillslope runoff models. Z. Geomorph. N. F., Suppl-Bd. 58, 1-19 Busacca, A., Cook, C. A., and Mulla, D. J. (1993). Comparing landscape-scale estimation of soil erosion in the Palouse using Cs-137 and RUSLE. Journal of Soil and Water Conservation, July - August, 361-367 Carling, P. A., Glaister, M. S., and Flintham, T. P. (1993). Soil Erosion and Conservation on Land Cultivated and Drained for Afforestation. Hydrological Processes, Vol. 7, 317-333 Carrara, A., Cardinali, M., Detti, R., etc. (1991). GIS-Techniques and Statistical Models in Evaluating Landslide Hazard. Earth Surface Processes and Landforms. Vol. 16, 427-445 Chang, K-T & Tsai, B-W. (1991). The Effect of DEM Resolution on Slope and Aspect Mapping. Cartography and Geographic Information Systems, Vol. 18, no. 1, 69-77 Chansheng, H., Riggs, J. F. and Kang, Y-T. (1993). Integration of Geographic Information Systems and a Computer Model to Evaluate Impacts of Agricultural Runoff on Water Quality. Water Resources Bulletin. AWRA. Vol. 29, no. 6, 891-900 Colborne, G. J. N. & Staines, S. J. (1984). Soil Erosion in Somerset and Dorset. In: C. P. J. Burham and J. I. Pitman (eds): SEESOIL, The Journal of the South East England Soils Discussion Group, Volume 3 (for 1986). 62-83 Coppinger, K. D., Reiners, W. A., Burke, I. C., etc. (1991). Net Erosion on a Sagebrush Steppe Landscape as Determined by Cesium-137 Distribution. Soil Sci. Soc. Am. J. 55:254-258 Costa-Cabral, M. C. & Burges, S. J. (1994). Digital elevation model networks (DEMON): A model of flow over hillslopes for computation of contributing and dispersal areas. Water Resources Research, Vol. 30, no. 6, 1681-1692 Coughtrey, P. J. & Thorn, M. C. (1983). Chapter 7: Caesium-137. In: Radionuclide Distribution and Transport in terrestrial and Aquatic Ecosystems: A Critical Review of Data. Prepared for the Directorate-General Employment, Social Affair and education, Health, and Safety Directorate, Commission of the European Communities. Chapter 7, 321-327 Crosson, P. R. with Stout, A. T. (1983). Productivity Effects of Cropland Erosion in the United States. A Research Paper from RESOURCES FOR THE FUTURE. De Jong, E., Wang, C., and Rees, H. W. (1986). Soil redistribution on three cultivated new Brunswick hillslopes calculated from 137Cs measurements, solum data and the USLE. Can. J. Soil Sci. 66:721-730 De Roo, A. P. J., Hazelhoff, L., and Burrough, P. A. (1989). Soil Erosion Modelling Using 'ANSWERS' and Geographical Information Systems. Earth Surface Processes and Landforms, Vol. 14, 517-532 De Roo, A. P. J. (1991). The Use of 137Cs as a Tracer in an Erosion Study in South Limburg ( The Netherlands) and the Influence of Chernobyl Fallout. Hydrological Processes, Vol. 5, 215-227 De Roo, A. P. J. (1993). Modelling Surface Runoff and Soil Erosion in Catchments Using Geographic Information Systems: Validity and Applicability of the 'ANSWERS' Model in Two Catchments in the Loess Area of South Limburg (The Netherlands) and One in Devon (UK). Nederlandse Geografische Studies, ISSN 0169- 4839 157 De Roo, A. P. J. & Walling, D. E. (1994). Validating the ANSWERS Soil Erosion Model Using 137Cs. In R. J. Rickson (ed): Conserving Soil resources: European Perspectives. CAB International. Chapter 24. 246-263 Desmet, P. J. J. & Govers, G. (1995). GIS-based Simulation of Erosion and Deposition Patterns in an Agricultural Landscape: a Comparison of Model Results with Soil Map Information. Catena 25, no. 1-4, 389-401 Dietrich, W. E., Reiss, R., HSU, M-L., and Montgomery, D. R. (1995). A Processes- based Model for Colluvial Soil Depth and Shallow Landsliding Using Digital Elevation Data. Hydrological Processes, Vol. 9, 383-400. Dikau, R. (1989). Chapter 5: The application of a digital relief model to landform analysis in geomorphology. In J. Raper (ed): Three Dimensional Applications in Geographical Information Systems. 51-77 Drayton, R. S., Wilde, B. M. and Harris, J. H. K. (1992). Geographical Information System Approach to Distributed Modelling. Hydrological Processes, Vol. 6, 361-368 Dymond, J. R., Derose, R. C., and Harmsworth G. R. (1995). Automated Mapping of Land Components from Digital Elevation Data. Earth Surface Processes and Landforms. Vol. 20, 131-137 Eash, D. A. (1994). A Geographic Information System Procedure to Quantify Drainage- Basin Characteristics. Water Resources Bulletin. AWRA. Vol. 30, no.1, 1-8 Elliott, W. J., Laflen, J. M., and Kohl, K. D. (1989). Effect of soil properties on soil erodibility. Paper no. 89-2150, Am. Soc. Agric. Eng. Summer Meet., Quebec, Canada. ASAE, St Joseph, MI. Engel, B. A., Srinivasan R. and Rewerts, C. (1993). A Spatial Support Decision Support System for Modelling and Managing Agricultural Non-Point-Sources Pollution. In: M. F. Goodchild, B. O. Parks, L. T. Steyaert (eds): Environmental Modelling with GIS. New York, Oxford University Press, Inc. 231- 237 Engelen, G. & Huybrechts, W. (1981). A Comparison of Manual and Automated Slope Maps. Catena, Vol. 8, 239-249 Evans, R. (1980a). Chapter 4: Mechanics of water erosion and their spatial and temporal controls: an empirical viewpoint. In M. J. Kirkby and R. P. C. Morgan (eds): Soil Erosion. 109- 117 Evans, R. (1980b). Characteristics of Water-Eroded Fields in Lowland England. In De Boodt, M. and Gabriels, D. (eds): Assessment of Erosion, Chichester, John Wiley, 77 - 87. Evans, R. & Cook, S. (1984). Soil Erosion in Britain. In: C. P. J. Burham and J. I. Pitman (eds): SEESOIL, The Journal of the South East England Soils Discussion Group, Volume 3 (for 1986). 28-58 Evans, R. (1990). Soils at risk of accelerated erosion in England and Wales. Soil Use and Management, Vol. 6, no. 3, 125-131 Evans, R. (1991). Water erosion in British farmers' fields - some causes, impacts, predictions. 199-219 Evans, R. (1995). Some methods of directly assessing water erosion of cultivated land - a comparison of measurements made on plots and in fields. Progress in Physical Geography 19, 1, 115-129 Everaert, W. (1991). Empirical Relations for the Sediment Transport Capacity of Interrill Flow. Earth Surface Processes and Landforms, Vol. 16, 513-532 Fairfield, J. (1991). Drainage Networks From Grid Digital Elevation Models. Water Resources Research, Vol. 27, no. 5, 709-717 Flacke, W., Auerswald, K. and Neufang, L. (1990). Combining a Modified Universal Soil Loss Equation with a Digital Terrain Model for Computing High Resolution Maps of Soil Loss resulting From Rain Wash. Catena. Vol. 17, 383-397 Foster, G. R. and Wischemeier, W. H. (1974). Evaluating Irregular Slopes for Soil Loss prediction. Transactions of the ASAE. Paper no. 73-227. Foster, G. R., Lane, L. J., Schertz, D. L., etc. (1987). User requirements: USDA-Water Erosion Prediction Project (WEPP). Written for presentation at the 1987 international Winter Meeting of the American Society of Agricultural Engineers. Paper no. 87-2539 Foster, G. R. (1990). Process-based Modelling of Soil Erosion by Water on Agricultural Land. In J. Boardman, I. D. L. Foster and J. A. Dearing (eds): Soil erosion on Agricultural Land. John Wiley & Sons Ltd. 429-446 Francis, C. F., Thornes, J. B., Diaz, A. R., etc. (1986). Topographic Control of Soil Moisture, Vegetation Cover and Land Degradation in a Moisture Stressed Mediterranean Environment. Catena. Vol., 13, 211-23 Fredericks, D. J., Norris, V. and Perrens, S. J. (1988). Estimating erosion using caesium-137: I. Measuring caesium-137 activity in a soil. In: Sediment Budgets (Proceedings of the Porto Alegre Symposium, December, 1988). IAHS Publ. no. 174. 225-231 Fredericks, D. J. & Perrens, S. J. (1988). Estimating erosion using caesium-137: II. Estimating rates of soil loss. In: Sediment Budgets (Proceedings of the Porto Alegre Symposium, December, 1988). IAHS Publ. no. 174. 233-240 Freeman, T. G. (1991). Calculating Catchment Area with Divergent Flow Based on a Regular Grid. Computers & Geosciences, Vol. 17, no. 3, 413-422 Froehlich, W & Walling, D. E. (1992). The use of fallout radionuclides in investigation of erosion and sediment delivery in the Polish Flysh Carpathians. Erosion, Debris Flow and Environment in Mountain Regions (Proceedings of the Chengdu Symposium, July 1992). IAHS Publ. no. 209, 61-76 Fulcher, C. L., Barnett, C. L. and Vance, S. (1994). Decision Support System for Enhancing Water Quality in Agricultural Landscapes. Proceedings of the Fourteenth Annual ESRI User Conference, 1232-1242 Gagliuso, R. A. (1994). Surface Analysis Differences Between Lattice and TIN Derived Terrain Models. Proceedings of the Fourteenth Annual ESRI User Conference, 1267 Gandoy-Bernasconi, W. & Palacios-Velez, O. L. (1990). Automatic Cascade Numbering of Unit elements in Distributed Hydrological Models. Journal of Hydrology, Vol. 112, 375-393 Gardner, T. W., Sasowsky, K. C. and Day, R. L. (1990). Automated extraction of geomorphometric properties from digital elevation data. Z. Geomorph. N. F. Suppl.- Bd.80, 57-68 Garg, P. K. & Harrison, A. R. (1992). Land Degradation and Erosion Risk Analysis in S. E. Spain: A Geographic Information System Approach. Catena. Vol. 19, 411-425 Gessler, P. E., Moore, I. D., McKenzie, N. J., etc. (1995). Soil-landscape modelling and spatial prediction of soil attributes. Int. J. Geographical Information Systems, Vol. 9, no. 4, 421-432 Govers, G. & Poesen, J. (1988). Assessment of the Interrill and Rill Contributions to Total Soil Loss from an Upland Field Plot. Geomorphology, 1, 343-354 Govers, G. (1990). Empirical relationships for the transport capacity of overland flow. Erosion, Transport and Deposition Processes (Proceedings of the Jerusalem Workshop, March-April, 1987). IAHS Publ. no. 189, 45-63 Govers, G. (1991a). A Field Study on Topographical and Topsoil Effects on Runoff Generation. Catena, Vol. 18, 91-111 Govers, G. (1991b). Rill Erosion on Arable Land in Central Belgium: Rates, Controls and Predictability. Catena, Vol. 18, 133-155 Govers, G., Quine, T. A. and Walling, D. E. (1993). The effects of water erosion and tillage movement on hillslope profile development: A comparison of field observations and model results. In, Wicherek, S. (ed): Farm Land Erosion in Temperate Plains and Hills, Elsevier, Amsterdam, pp 285-300. Grayson, R. B. and Moore, I. D. (1992). Chapter 7, Effect of land surface configuration on catchment hydrology. In: Overland Flow: Hydraulics and Erosion Mechanics (eds A. J. Parsons and A. D. Abrahams), University College London Press Ltd, London, 147-175 Grayson, R. B., Moore, I. D. and MaMahon, T. A. C. (1992a). Physically-based hydrologic modelling: I. A terrain-based model for investigative purposes. Water Resources Research 28 (10): 2639-2658 Grayson, R. B., Moore, I. D. and MaMahon, T. A. C. (1992b). Physically-based hydrologic modelling: II. Is the concept realistic? Water Resources Research 28 (10): 2659-2666 Hickey, R., Smith, A., Jankowski, P. (1994). Slope Length Calculations from a DEM within Arc/Info Grid. Comput., Environ., and Urban Systems, Vol. 18, no. 5, 365-380 Higgit, D. (1991). Soil erosion and soil problems. Progress in physical geography 15, 1, 91-100 Higgit, D. (1993). Soil erosion and soil problems. Progress in physical geography 17, 4, 461-472 Holmgren, P. (1994). Multiple Flow Direction Algorithms for Runoff modelling in Grid Based Elevation Models: An Empirical Evaluation. Hydrological Processes, Vol. 8, no. 4, 327-335 Howes, S., and Anderson, M.G. (1988). Computer simulation in geomorphology. In M.G. Anderson (ed): Modelling Geomorphological Systems. John Wiley & Sons Ltd. Chapter 15, 421-441 Huddle, S. M., Dickinson W. T. and Rudra, R. P. (1993). A comparison of two equations for estimating the topographic factor (LS) of the USLE. In: Runoff and Sediment Yields Modelling (Proceedings of the Warsaw Symposium, September 1993), Dept. of Hydraulic Structures - SGGW. 135-141 Hutchinson, M. F. & Dowling, T. I. (1991). A Continental Hydrological Assessment of a New Grid-Based Digital Elevation Model of Australia. Hydrological Processes, Vol. 5, 45-58 IDRISI Technical Reference (Version 4.0, Rev. 3), October, 1993 Jackson, S. J. (1984a). The Role of Slope Form on Soil Erosion at Different Scales as a Possible Link Between Soil Erosion Surveys and Soil Erosion Models. Unpublished Ph.D. Thesis. Cranfield Institute of Technology, National Collage of Agricultural Engineering. Jackson, S. J. (1984b). Soil Erosion Survey and Soil Erosion Risk in Mid- Bedfordshire. In: C. P. J. Burham and J. I. Pitman (eds): SEESOIL, The Journal of the South East England Soils Discussion Group, Volume 3 (for 1986). 95-105 Jager, S. (1994). Modelling Regional Soil Erosion Susceptivity Using the Universal Soil Loss Equation and GIS. In R. J. Rickson (ed): Conserving Soil resources: European Perspectives. CAB International. Chapter 17, 161-177 Jenson, K. H. & Mantoglou, A. (1991). Future of Distributed modelling. Hydrological processes. Vol. 6, 255-264 Jenson, S. K. & Domingue, J. O. (1988). Extracting Topographic Structure from Digital Elevation Data for Geographic Information Analysis. Photogrammetric and remote Sensing. Vol. 54, no. 11, 1593-1600 Jenson, S. K. (1991). Applications of Hydrologic Information Automatically Extracted From Digital Elevation Models. Hydrological Processes, Vol. 5, 31-44 Julien, P. Y. & Frenette, M. (1987). Macroscale analysis of upland erosion.. Hydrological Sciences- Journal -des Sciences Hydrologiques, 32, 3, 347-358 Julien, P. Y. & Tanago, M. G. D. (1991). Spatially varied soil erosion under different climates. Hydrological Sciences- Journal -des Sciences Hydrologiques, 36, 6, 511- 524 Kachanoski, R. G. & De Jong, E. (1984). Predicting the Temporal Relationship between Soil Cesium-137 and Erosion Rate. J. Environ. Qual., Vol. 13, no. 2, 301-304 Kirkby, M. J. (1969). Hillslope process-response models based on the continuity equation. Kirkby, M. J. (1989). A Model to Estimate the Impact of Climate Change on Hillslope and Regolith Form. Catena, Vol. 16, 321-341 Kirkby, M. J. (1990). The Landscape viewed through Models. Z. Geomorph. N. F., Suppl.-Bd. 79, 63-81 Kiss J. J., De Jong, E. and Rostad, P. W. (1986). An Assessment of Soil Erosion in West-Central Saskatchewan Using Cesium-137. Can. J. Soil Sci. 66: 591-600 Kiss J. J., De Jong, E. and Martz, L. W. (1988). the Distribution of Fallout Cesium-137 in Southern Saskatchewan, Canada. J. Environ. Qual., 17: 445-452 Kreznor, W., Olson, K. R., Banwart, W. L., etc. (1989). Soil, Landscape, and Erosion Relationships in a Northwest Illinois Watershed. Soil Sci. Soc. Am. J. 53: 1763-1771 Kreznor, W., Olson, K. R. and Johnson, D. L. (1992). Field Evaluation of Methods to Estimate Soil Erosion. Soil Science. Vol. 153, no. 1, 69-81 Kulander L. & Stromquist, L. (1989). Exploring the use of top-soil 137Cs content as indicator of sediment transfer rates in a small Lesotho catchment. Z. Geomorph. N. F., Vol. 33, no. 4, 455-462 Lance, J. C., McIntyre, S. C., Nanney, J. W., etc. (1986). Measuring Sediment Movement at Low Erosion Rates Using Cesium-137. Soil Sci. Soc. Am. J., Vol.. 50, 1303-1309 Lane, L. J., Shirley, E. D. and Singh, V. P. (1988). Modelling Erosion on hillslopes. In M.G. Anderson (ed): Modelling Geomorphological Systems. John Wiley & Sons Ltd. Chapter 10, 287- 307 Lee, J., Snyder, P. K. and Fisher, P. F. (1992). Modelling the Effect of Data Errors on Feature Extraction from Digital Elevation Models. Photogrammeteric Engineering & Remote Sensing, Vol. 58, no. 10, 1461-1467 Lee, K. S. (1994). Application of GIS to the Universal Soil Loss Equation for quantifying rainfall erosion in forest watersheds. Journal of Korean Forestry Society. 83 (3), 322-330 Leenaers, H., Okx, J. P., Burrough, P. A. (1990). Comparison of Spatial Prediction Methods for Mapping Floodplain Soil pollution. Catena, Vol., 17, 535-550 Lindstorm, C. G., Nelson, W. W. and Schumacher, T. E. (1992). Quantifying tillage erosion rates due to moldboard plowing. Soil & Tillage Research, 24, 243-255 Longmore(McCallan), M. E., O'Leary, B. M., Rose, C. W., etc. (1983). Mapping Soil Erosion and Accumulation with the Fallout Isotope Caesium-137. Aust. J. Soil Res., 21, 373-385 Loughran, R. J., B. L. Campbell, and D. E. Walling, (1987). Soil Erosion and Sedimentation Indicated by Caesium-137: Jackmoor Brook Catchment, Devon, England. Catena. Vol. 14, 201-212 Loughran, R. J., Campbell, B. L. and Elliott, G. L. (1989). A caesium-137-sediment hillslope model with tests from south-eastern Australia. Z. Geomorph, N. F., Vol. 33, no. 2, 235-250 Loughran, R. J., Campbell, B. L. and Elliott, G. L. (1990a). The Calculation of Net Soil Loss Using Caesium-137. In J. Boardman, I. D. L. Foster and J. A. Dearing (eds): Soil erosion on Agricultural Land. John Wiley & Sons Ltd. 119-126 Loughran, R. J., Campbell, B. L., Elliott, G. L. etc. (1990b). Determination of the rate of sheet erosion on grazing land using caesium-137. Applied Geography, 10, 125-133 Loughran, R. J. (1991). The Measurement of Soil Erosion. 216-233 Martz, L. W. & De Jong, E. (1985). the Relationship between Land Surface Morphology and Soil Erosion and Deposition in a Small Saskatchewan Basin. Proceedings of Canadian Society for Civil Engineering Annual Conference, May 27- 31, 1985 Saskatchewan, SK. Martz, L. W. & De Jong, E. (1987). Using Cesium-137 to Asses the Variability of Net Soil Erosion and Its Association with Topography in a Canadian Prairie Landscape. Catena. Vol. 14, 439-451 Martz, L. W. & Garbrecht, J. (1992). Numerical Definition of Drainage Networks and Subcatchment Area from Digital Elevation Models. Computers and Geosciences 18(6): 747-761 Martz, L. W. & Garbrecht, J. (1993). Automated Extraction of Drainage Network and Watershed Data from Digital Elevation Models. Water Resources Bulletin. AWRA. Vol. 29, no. 6, 901-908 Mathier, L., Roy, A. G. and Pare, J. P. (1989). The Effect of Slope Gradient and Length on the Parameters of a Sediment Transport Equation for Sheetwash. Catena, Vol. 16, 545-558 Mathier, L. & Roy, A. G. (1993). Temporal and Spatial Variations of Runoff and Rainwash Erosion on an Agricultural Land. Hydrological Processes, Vol. 7, no. 1, 1- 18. McCool, D. K., Brown, L. C., Foster, G. R., etc. (1987). Revised Slope Steepness Factor for the Universal Soil loss Equation. Transactions of the ASAE, Vol. 30(5): 1387-1396 Mellerowicz, K. T., Rees, H. W., Chow, T. L., etc. (1994). Soil conservation planning at the watershed level using the Universal Soil Loss Equation with GIS and microcomputer technology: A case study. Journal of Soil and water Conservation, 49 (2): 194-200 Merot, P., Ezahar, B., Walter, C., etc. (1995). Mapping Waterlogging of Soils using Digital Terrain Models. Hydrological Processes. Vol. 9, 27-34 Meyer, D. L. (1984). Evolution of the universal soil loss equation. Journal of Soil and Water conservation. March-April. 99-105 Ministry of Agricultural Fisheries and Food, Agricultural Development and Advisory Service, (1975). Agricultural Land Classification of England and Wales. Report to Accompany Sheet 175, Okehampton, 1974. Mitasova, H., Mitas, L., Brown, W. M., etc. (1995). Modelling Spatially and Temporally Distributed Phenomena: New Methods and Tools for GRASS GIS. Int. J. Geographical Information Systems, Vol. 9, no. 4, 433-446 Mitchell, J. K. & Bubenzer, G. D. (1980). Chapter 2: Soil Loss Estimation. In M. J. Kirkby and R. P. C. Morgan (eds): Soil Erosion. 17-39 Mitchell, J. K., Engel, B. A., Srinivasan, R., etc. (1993). Validation of AGNPS for Small Watersheds Using an Integrated AGNPS/GIS System. Water Resources Bulletin. AWRA. Vol. 29, no. 5, 833-846 Montoro, J. A. & Stocking, M. A. (1989). Comparative Evaluation of Two Models in Predicting Storm Soil Loss from Erosion Plots in Semi-arid Spain. Catena, Vol. 16, 227-236 Moore, I. D. & Burch, G. J. (1986a). Modelling Erosion and Deposition: Topographic Effects. Transactions of ASAE, Vol. 29(6): 1624-1630 Moore, I. D. & Burch, G. J. (1986b). Physical basis of the length-slope factor in the universal soil loss equation. Soil. Sci. Soc. Am. J. 50: 1294-1298 Moore, I. D., O'Loughlin, E. M. and Burch, G. J. (1988). A Contour-based Topographic Model for Hydrological and Ecological Applications. Earth Surface Processes and Land forms. Vol. 13., 305-320 Moore, I. D., Burch, G. J. and Mackenzie, D. H. (1988). Topographic Effects on the Distribution of Surfaces Soil Water and the Location of Ephemeral Gullies. Transactions of the ASAE. Vol. 31 (4): July-August, 1098-1107 Moore, I. D. & Grayson, R. B. (1991). Terrain-based catchment partitioning and runoff prediction using vector elevation data. Water Resources Research 27 (6): 1177-1191 Moore, I. D., Grayson, R. B. and Ladson, A. R. (1991). Digital Terrain Modelling: A Review of Hydrological, Geomorphological, and Biological Applications.Hydrological Processes, Vol. 5,3-30 Moore, I. D. & Wilson, J. P. (1992). Length-slope factors for the Revised Universal Soil Loss Equation: Simplified method of estimation. Journal of Soil and Water Conservation, 47 (5): 423-428 Moore, I. D. (1992). Terrain Analysis Programs for the Environmental Sciences: TAPES. Agricultural Systems & Information Technology, Vol. 4, no. 2, 37-39 Moore, I. D., Turner, A. K., Wilson, J. P., etc. (1993). GIS and Land-Surface- Subsurface Process Modelling. In: M. F. Goodchild, B. O. Parks, L. T. Steyaert (eds): Environmental Modelling with GIS. New York, Oxford University Press, Inc. 196- 230. Moore, I. D., Gesseler, P. E., Nielsen, G. A., etc. (1993). Soil Attributes Prediction using Terrain Analysis. Soil. Sci. Soc. Am. J. 57:443-452 Moore, I. D. & Wilson, J. P. (1994). Reply to comments by Foster. Journal of Soil and Water Conservation, March-April, 174-180 Moore, R. F. & Thornes, J. B. (1976). LEAP: A suite of FORTRAN IV programs for generating erosional potentials of land surfaces from topographic information. Computers & Geosciences, Vol. 2, 493-499 Morgan, R. P. C. (1979). Mapping Soil Erosion Risk in England and Wales. 89- 95 Morgan, R. P. C. (1980a). Soil Erosion and Conservation in Britain. Progress in Physical Geography 4, 24-47 Morgan, R. P. C. (1980b). Field studies of sediment transport by overland flow. Earth Surface Processes and Landforms, Vol. 5, 307-316 Morgan, R. P. C. & Morgan, D. D. V. (1982). Predicting Hillslope Runoff and Erosion in the United Kingdom: Preliminary Trial with the CREAMS Model. In: V. Svetlosanov and W. G. Knisel (eds): European and United Sates Case Studies in Application of the CREAMS Model. 83-97 Morgan, R. P. C. (1986). The relative significance of splash, rainwash, and wash as processes of soil erosion. Z. Geomorph. N. F., Vol. 30, no. 3, 329-337 Morris, C. D. & Loughran, R. J. (1994). Distribution of Caesium-137 in Soils across a Hillslope Hollow. Hydrological Processes, Vol. 8, 531-541. Murty, C. V. S. S. B. R. & Venkatachalam, P. (1992). Delineation of Erosion Cells in a Watershed Using GIS. Journal of Environmental Management. Vol. 36, 159-166 Mutchler, C. K., Murphree, C. E. and McGregor, K. C. (1994). Chapter 2: Laboratory and Field Plots for Erosion Research. In R. Lal (ed): Soil Erosion Research Methods (Second Edition). 11-37 Navas A & Machin, J. (1991). A Preliminary Research of the Use of Cesium-137 to Investigate Soil Erosion in the Semiarid Landscape of the Central Ebro River Valley. In M. Sala, J. L. Ruibo & J. M. Garcia-Ruiz (eds): Soil Erosion in Spain. Geoforma Ediciones Logrono. 191-202. Navas A. & Walling, D. E. (1992). Using caesium-137 to asses sediment movement on slopes in a semiarid upland environment in Spain. Erosion, Debris Flow and Environment in Mountain Regions (Proceedings of the Chengdu Symposium, July 1992). IAHS Publ. no. 209, 129-138 Nearing, M. A., Lane, L. J. and Lopes, V. L. (1994). Chapter 6: Modelling Soil Erosion. In R. Lal (ed): Soil Erosion Research Methods (Second Edition). 127-156 Nearing, M. A., Lane, L. J., Albert, E. E., etc. (1990). Prediction Technology for Soil Erosion by Water: Status and Research Needs. Soil Sci. Soc. Am. J. 54: 1702-1711 O'Loughran, E. M. (1981). Saturation regions in catchments and their relations to soil and topographic properties. Journal of Hydrology, Vol. 53, 229-246 O'Loughlin, E. M. (1986). Prediction of Surface Saturation Zones in Natural Catchments by Topographic Analysis. Water Resources Research, Vol. 22, no. 5, 794- 804 Onorati, G., Poscolieri, M., Ventura, R., etc. (1992). The Digital Model of Italy for Geomorphology and Structural Geology. Catena, Vol. 19, 147-178 Palacios-Velez, O. L. & Cuevas-Renaud, B. (1986). Automated River-Course, Ridge and Basin Delineation from Digital Elevation Data. Journal of Hydrology, Vol. 86, 299-314 Palacios-Velez, O. L. & Cuevas-Renaud, B. (1992). SHIFT: a distributed runoff model using irregular triangular facets. Journal of Hydrology, Vol. 134, 35-55 Panuska, J. C., Moore, I. D. and Kramer, L. A. (1991). Terrain analysis: Integration into the agricultural nonpoint source (AGNPS) pollution model. Journal of Soil and Water Conservation. January-February, 59-64 Parker, M., Thompson, J. G., Reynolds, R. R., etc. (1995). Use and Misuse of Complexed Models: Examples from Water Demand Management. Water Resources Bulletin. AWRA. Vol. 31, no. 2, 257-265 Pennock, D. J. & De Jong, E. (1987). The Influence of Slope Curvature on Soil Erosion and Deposition in Hummock Terrain. Soil Science. Vol. 144, no. 3, 209-217 Pennock, D. J. & De Jong, E. (1991). Spatial Pattern of Soil Redistribution in Boroll Landscapes, Southern Saskatchewan, Canada. Soil Science. Vol. 150, no. 6, 867- 873 Philips J. D. (1989). Predicting minimum achievable soil loss in developing countries. Applied Geography, 9, 219-236 Pickup, G. (1988). Hydrology and sediment models. In M.G. Anderson (ed): Modelling Geomorphological Systems. John Wiley & Sons Ltd. Chapter 7, 153-165 Price, C. V. & Pierce, R. R. (1994). GIS Applications to Hydrological Modelling in the U. S. Geological Survey, Water Resources Division: Past and Future. Proceedings of the Fourteenth Annual ESRI User Conference, 1163-1167 Quine, T. A. & Walling, D. E. (1991). Rates of soil erosion on arable fields in Britain: quantitative data from caesium-137 measurements. Soil Use and Management. Vol. 7, no. 4, 169 - 175 Quine, T. A., Walling, D. E., Zhang, X., etc. (1992). Investigation of Soil Erosion on Terraced Fields near Yanting, Sichuan Province, China, Using Caesium-137. Erosion, Debris Flow and Environment in Mountain Regions (Proceedings of the Chengdu Symposium, July 1992). IAHS Publ. no. 209, 155-167 Quine, T. A. & Walling, D. E. (1993). Use of Caesium-137 Measurements to investigate Relationship between Erosion Rates and Topography. In D. S. g. Thomas and R. J. Allison (eds): Landscape Sensitivity. John Wiley and Sons Ltd. 31-48 Quine, T. A., Walling D. E. and Zhang, X. (1993). the Role of Tillage in Soil Redistribution within Terraced Fields on the Loess plateau, China: An Investigation Using Cesium-137. In: Runoff and Sediment Yields Modelling (Proceedings of the Warsaw Symposium, September 1993), Dept. of Hydraulic Structures - SGGW. 149- 154 Quine, T. A., Navas A., Walling, D. E., etc. (1994). Soil Erosion and Redistribution on Cultivated and Uncultivated Land Near Las Bardenas in the Central Ebro River Basin, Spain. Land degradation & Rehabilitation, Vol., 5, 41-55 Quine, T. A., P. J. Desmet, G. Govers, etc. (1994). A Comparison of the roles of tillage and water erosion in landform development and sediment export on agricultural land near Leuven, Belgium. In L. Olive, R. J. Loughran & J. A. Kesby (eds): Variability in Stream Erosion and Sediment Transport (Proceedings of the Canberra Symposium, December 1994), IAHS Publication No 224, 77-86. Quinn, P. F., Beven, K., Chevallier, P., etc. (1991). The Prediction of Hillslope Flow Paths for Distributed Hydrological Modelling Using Digital Terrain Models. Hydrological Processes, Vol. 5, 59-79 Quinn, P. F., Beven, K. J. and Lamb, R. (1995). The ln(a*tanB) Index: How to Calculate It and How to Use It Within the Topmodel Framework. Hydrological Processes. Vol. 9, 161-182 Quinton, J. N. (1994). Validation of Physically-based Erosion Models, with Particular Reference to EUROSEM. In R. J. Rickson (ed): Conserving Soil resources: European Perspectives. CAB International. Chapter 28. 300-313 Raper, J. (1993). Geographical information systems. Progress in Physical Geography, 17, 4, 493-502 Renard, K. G., Foster, G. R., Weesies, G. A., etc., (1991). RUSLE: Revised universal soil loss equation. Journal of Soil and Water Conservation, January - February, 30- 33 Risse, L. M., Nearing, M. A., Nicks, A. D., etc. (1993). Error Assessment in the Soil Loss Equation. Soil Sci. Soc. Am. J. 57: 825-833 Ritches, J. C., Spraberry, J. A. and McHenry, J. R. (1974). Estimating Soil Erosion from the Redistribution of Fallout 137Cs. Soil Sci. Amer. Proc., Vol. 38, 137-140 Ritchie, J. C. & McHenry, J. R. (1978). Fallout Cesium-137 in Cultivated and Noncultivated North Central United States Watersheds. J. Environ. Qual., Vol. 7, no. 1, 41- 44 Ritchie, J. C. & McHenry, J. R. (1985). A Comparison of Three Methods for Measuring Recent Rates of Sediment Accumulation. Water Resources Bulletin. AWRA. Vol. 21, no. 1, 99-103 Ritchie, J. C. & McHenry, J. R. (1990). Application of Radioactive Fallout Cesium- 137 for Measuring Soil Erosion and Sediment Accumulation Rates and Patterns: A Review. J. Environ. Qual. 19: 215-233 Rose, C. W., McCallan, M. E., O'Leary, B. M., etc. (1980). A Model for Field Scale Soil Erosion and Deposition on a Plane Land Element and Discussion on Using the Fallout Isotope CS 137 to Test Such Models. Proceedings of Agricultural Engineering Conference, 1980. Geelong, 30 September - 2 October. 130-136 Schoolmaster, F. A. & Marr, P. G. (1992). Geographic Information Systems as a Tool in Water Use Data Management.. AWRA. Vol. 28, no. 2, 331-336 Water Resources Bulletin Schumm, S. A. (1956). The Role of Creep and Rainwash on the Retreat of Badland Slopes. American Journal of Science, Vol. 254, 693-706 Schwertmann, U. & Schmidt, F. (1980). Estimation of long-term Soil Loss Using Copper as a Tracer. In: De Boodt, M. and D. Gabriels (eds): Assessment of Erosion, Chichester. John Wiley, 403-406. See, R. B., Naftz, D. L. and Qualls, C. L. (1992). GIS-Assisted Regression Analysis to Identify Sources of Selenium in Stream. Water Resources Bulletin. AWRA. Vol. 28, no. 2, 315-330 Sharpley A. & Meyer, M. (1994). Minimizing Agricultural Nonpoint-Source Impacts: A symposium Overview. Technical Reports from symposium 'Minimizing Agricultural Nonpoint-Source Impacts' held the week of 2 Nov., 1992 at the ASA annual meeting in Minneapolis MN. J. of Environ. Qual. Vol. 23, no. 1, 1-4 Skidmore, A. K. (1989). A comparison of techniques for calculating gradient and aspect from a digital elevation model. Int. J. Geographical Information Systems, Vol. 3, no. 4, 323-334 Soileau, J. M., Hajek, B. F. and Touchton, J. T. (1990). Soil Erosion and Deposition Evidence in a Small Watershed Using Fallout Cesium-137. Soil Sci. Soc. Am. J. 54:1712-1719 Spomer, R. G., McHenry, Piest, J. R., R. F., etc. (1985). Sediment Movement and Deposition Using Cesium-137 Tracer. Transactions of the ASAE. Vol. 28 (3):May- June, 767-772 Stocking M, Chakela, Q. andElwell, H. (1988). An Improved Methodology for Erosion Hazard Mapping, Part I: The Technique. Geografiska Annaler. 70A, 3, 169-180 Sutherland, R. A. & De Jong, E. (1990). Estimation of sediment redistribution within agricultural fields using caesium-137, Crystal Springs, Saskatchewan, Canada. Applied Geography, 10, 205-221 Sutherland, R. A. (1991). Caesium-137 and sediment budgeting within a partially closed drainage basin. . Z. Geomorph. N. F., Vol. 35, no, 1, 47-63 Sutherland, R. A. (1992). Caesium-137 Estimates of Erosion in Agricultural Areas. Hydrological Processes, Vol. 6, 215-225 Sutherland, R. A. (1994). Spatial Variability of 137Cs and the influence of sampling on estimates of sediment redistribution. Catena 21, 57-71 Tachikawa, Y., Shiba, M. and Takasao, T. (1994). Development of a Basin Geographic Information System Using a TIN-DEM Data Structure. Water Resources Bulletin. AWRA. Vol. 30, no. 1, 9-18 Tarboton, D. G., Bras, R. L. and Rodriguez-iturbe, I. (1991). On the Extraction of Channel Networks from Digital Elevation Data. Hydrological Processes. Vol. 5, 81- 100 Thorne, C. R., Zevenbergen, L. W., Burt, T. P., etc., (1987). Terrain analysis for quantitative description of zero-order basin. Erosion and Sedimentation in the Pacific Rim (Proceedings of the Corvallis Symposium, August, 1987). IAHS Publ., no. 165, 121-130 Thornes, J. B. (1980). Chapter 5: Erosion Processes of running water and their spatial and temporal controls: a theoretical viewpoint. In M. J. Kirkby and R. P. C. Morgan (eds): Soil Erosion. 158-167 Tims, U. S., Mostaghimil, S. and Shanholtz, V. O. (1992). Identification of Critical Nonpoint Pollution Source Areas using Geographic Information Systems and Water Quality Modelling. Water Resources Bulletin. AWRA. Vol. 28, no. 5, 877-887 Tim, U. S. & Robert, J. (1994). Evaluating Agricultural Nonpoint-Source Pollution Using Integrated Geographic Information Systems and Hydrologic/Water Quality Model. J. Environ. Qual., 23:25-35 Version 94.7 User Summary for Water Erosion Prediction Project: Erosion Prediction Model. NSERL Report No. 9. USDA - Agricultural Research Service, National Soil Erosion Research Laboratory, West Lafayette, Indiana, USA, August, 1994 Vertessy, R. A., Wilson, C. J., Silburn, D. M. etc. (1990). Predicting erosion hazard areas using digital terrain analysis. Research Needs and Applications to Reduce Erosion and Sedimentation in Tropical Steeplands (Proceedings of the Fiji Symposium, June 1990): IAHS-AISH Publ. no. 192, 298-308 Vieux, B. E. (1991). Geographic Information Systems and Non-Point Source Water Quality and Quantity Modelling. Hydrological Processes, Vol. 5, 101-113 Wallbrink, P. J. & Murray, A. S. (1993). Use of Fallout Radionuclides as Indicators of Erosion Processes. Hydrological Processes, Vol. 7, 297-304 Walling, D. E., Bradley, S. B. and Wilkinson, C. J. (1986). A Caesium-137 budget approach to the investigation of sediment delivery from a small agricultural drainage basin in Devon, UK. In R. F. Hadley (ed): Drainage Basin Sediment Delivery Proceedings of a symposium held in Albuquerque, New Mexico, USA, 4-8 August 1986. IAHS Publ., no. 159, 423-435 Walling, D. E. & Bradley, S. B. (1988). The use of caesium-137 measurements to investigate sediment delivery from cultivated areas in Devon, UK. In: Sediment Budgets (Proceedings of the Porto Alegre Symposium, December, 1988). IAHS Publ. no. 174. 325-335 Walling, D. E. & Quine, T. A. (1990). Calibration of Caesium-137 Measurements to Provide Quantitative Erosion Rate Data. Land Degradation & Rehabilitation, Vol. 2, 161-175 Walling, D. E. (1990). Linking the Field to the River: Sediment Delivery from Agricultural Land. In J. Boardman, I. D. L. Foster and J. A. Dearing (eds): Soil erosion on Agricultural Land. John Wiley & Sons Ltd. 129-152 Walling, D. E. & Quine, T. A. (1991). Use of 137Cs measurements to investigate soil erosion on arable fields in the UK: potential applications and limitations. Journal of Soil Science, 42, 147-165 Walling, D. E. and Quine, T. A. (1992). The use of caesium-137 measurements in soil erosion surveys. In: Erosion and Sediment Transport Monitoring Programs in River basins (Proceedings of the Osle Symposium, August, 1992). IAHS Publ. no. 210, 143- 151 Walling, D. E. (1993). Erosion and Sediment Yield Research: Current Status and Needs. In: Runoff and Sediment Yield Modelling (Proceedings of the Warsaw Symposium, September, 1993). Dept. of Hydraulics Structures - SGGW, 23-42 Walling D. E., & Quine, T. A. (1993). Use of Caesium-137 as a tracer of Erosion and Sedimentation: Handbook for the Application of the Caesium-137 Technique. Report for UK Overseas Development Administration Research Scheme R4579 Weibel, R. & Heller, M. (1991). Digital Terrain Modelling. In: D. J. Maguire, M. F. Goodchild, and D. W. Rhind (eds): Geographic Information Systems: Principles and Application. Longman Group UK Ltd. 269-297 Wise, S. W. (1989). Caesium-137 and Lead-210: A Review of the techniques and some applications in geomorphology. In R. A. Cullingford, D. A. Davidson, and J. Lewin (eds): Timescales in Geomorphology. John Wiley & Sons Ltd. 109-127 Wooldridge, D. D. (1965). Tracing Soil Particle Movement with Fe-59. Soil. Sci. Soc. Proc. 469-472 Xiang, W-F. (1993). A GIS method for riparian water quality buffer generation. Int. J. Geographical Information Systems, Vol. 7, no. 1, 57-70. Young, R. A. & Mutcher, C. K. (1969). Effect of Slope Shape on Erosion and Runoff. Transactions of the ASAE, Vol. 12, no. 2., pp231, 232, 233, and 239. Published by the American Society of Agricultural Engineers, St. Joseph, Michigan Young, R. A., Onstad, C. A., Bosch, D. D. and Anderson, W. P. (1994). AGNPS User Manual v4.03 Zevenbergen, L. W. & Thorne, C. R. (1987). Quantitative Analysis of Land Surface Topography. Earth Surface Processes and Landforms, Vol. 12, 47-56 [Image] [Image][Image][Image][Image]