Citation: G. Willgoose et G. Hancock, REVISITING THE HYPSOMETRIC CURVE AS AN INDICATOR OF FORM AND PROCESS IN TRANSPORT-LIMITED CATCHMENT, Earth surface processes and landforms, 23(7), 1998, pp. 611-623
Citation: G. Willgoose et S. Riley, THE LONG-TERM STABILITY OF ENGINEERED LANDFORMS OF THE RANGER URANIUM-MINE, NORTHERN-TERRITORY, AUSTRALIA - APPLICATION OF A CATCHMENT EVOLUTION MODEL, Earth surface processes and landforms, 23(3), 1998, pp. 237-259
Citation: H. Perera et G. Willgoose, A PHYSICAL EXPLANATION OF THE CUMULATIVE AREA DISTRIBUTION CURVE, Water resources research, 34(5), 1998, pp. 1335-1343
Citation: G. Willgoose, A HYDRODYNAMIC PARTICLE TRACKING ALGORITHM FOR SIMULATING SETTLING OFSEDIMENT, Mathematics and computers in simulation, 43(3-6), 1997, pp. 343-349
Citation: Y. Gyasiagyei et al., EFFECTS OF VERTICAL RESOLUTION AND MAP SCALE OF DIGITAL ELEVATION MODELS ON GEOMORPHOLOGICAL PARAMETERS USED IN HYDROLOGY, Hydrological processes, 9(3-4), 1995, pp. 363-382
Citation: G. Willgoose et G. Kuczera, ESTIMATION OF SUBGRID SCALE KINEMATIC WAVE PARAMETERS FOR HILLSLOPES, Hydrological processes, 9(3-4), 1995, pp. 469-482
Citation: G. Willgoose, A STATISTIC FOR TESTING THE ELEVATION CHARACTERISTICS OF LANDSCAPE SIMULATION-MODELS, J GEO R-SOL, 99(B7), 1994, pp. 13987-13996
Citation: G. Willgoose, A PHYSICAL EXPLANATION FOR AN OBSERVED AREA-SLOPE-ELEVATION RELATIONSHIP FOR CATCHMENTS WITH DECLINING RELIEF, Water resources research, 30(2), 1994, pp. 151-159