Transient landscapes: gully development and evolution using a landscape evolution model

Ahnert F (1976) Brief description of a comprehensive three-dimensional model of landform development. Zeitschrift fur Geomorphologie Supplement Band 25:29–49

Alonso CV, Bennet SJ (2002) Predicting head cut erosion and migration in concentrated flows typical of upland areas. Water Resour Res 38(12):1303. doi: 10.1029/2001WR001173,2002

Bergonse RV, Reis EJ (2011) Theoretical constraints to gully erosion research: time for a re-evaluation of concepts and assumptions. Earth Surf Process Landf. doi: 10.1002/esp.2188

Bevan KJ, Kirkby MJ (1979). A physically based contributing area model of basin hydrology. Hydrol Sci Bull 24:43–69

Braun J, Sambridge M (1997) Modelling landscape evolution on geological time scales: a new method based on irregular spatial discretization. Basin Res 9:27–52

Casali J, Gimenez R, Bennett S (2009) Gully erosion processes: monitoring and modelling. Earth Surf Process Landf 34:1839–1840

Cohen S, Willgoose GR, Hancock G (2009) The mARM spatially distributed soil evolution model: a computationally efficient modelling framework and analysis of hillslope soil surface organization. J Geophys Res 114:F03001. doi: 10.1029/2008JF001214

Commonwealth of Australia (1987) Department of Arts, Sports, the Environment, Tourism and Territories. Code of Practice on the Management of Radioactive Wastes from Mining of Radioactive Ores 1982, Guidelines. AGPS, Canberra, 1987

Coulthard TJ (2001) Landscape evolution models: a software review. Hydrol Process 15:165–173

Coulthard TJ, Van De Wiel MJ (2006) A cellular model of river meandering. Earth Surf Process Landf 31:123–132

Coulthard T, Hancock GR, Lowry J (2012) Modelling soil erosion with a downscaled landscape evolution model. Earth Surf Process Landf. doi: 10.1002/esp.3226

CSIRO (2007) Climate Change in Australia—Technical Report 2007. CSIRO, Australia

Cull R, Hancock G, Johnston A, Martin P, Marten R, Murray AS, Pfitzner J, Warner RF, Wasson RJ (1992) Past, present and future sedimentation on the Magela plain and its catchment. In Wasson RJ (ed) Modern sedimentation and late quaternary evolution of the Magela Plain. Supervising Scientist for the Alligator Rivers Region Research Report 6. AGPS, Canberra, pp 226–268

Daba S, Rieger W, Strauss P (2003) Assessment of gully erosion in eastern Ethiopia using photogrammetric techniques. Catena 50:273–291

Eroglu H, Gunay C, Sivrikaya F, Akay AE (2010) Using high resolution images and elevation data in classifying erosion risks of bare soil areas in the Hatila Valley Natural Protected Area, Turkey. Stoch Environ Res Risk Assess 24:699–704

Erskine WD, Saynor MJ (2000) Assessment of the off-site geomorphic impacts of uranium mining on Magela Creek, Northern Territory, Australia. Supervising Scientist Report 156. Supervising Scientist, Darwin

Evans KG, Willgoose GR, Saynor MJ, Riley SJ (2000) Post-mining landform evolution modelling. I. Derivation of sediment transport model and rainfall-runoff model parameters. Earth Surf Process Landf 25(7):743–763

Flint JJ (1974) Stream gradient as a function of order, magnitude and discharge. Water Resour Res 10(5):969–973

Gutierrez AG, Schnabel S, Felicisimo AM (2009) Modelling the occurrence of gullies in rangelands of southwest Spain. Earth Surf Process Landf 34:1894–1902

Hack JT (1957) Studies of longitudinal stream profiles in Virginia and Maryland. U S Geol Surv Prof Pap 292(B):45–97

Hancock GR (2009) A catchment scale assessment of increased rainfall and storm intensity on erosion and sediment transport for Northern Australia. Geoderma 152:350–360

Hancock GR, Evans KG (2006) Gully position, characteristics and geomorphic thresholds in an undisturbed catchment in Northern Australia. Hydrol Process 20:2935–2951

Hancock GR, Evans KG (2010) Channel and hillslope erosion—an assessment for a traditionally managed catchment. Earth Surf Process Landf 13:1468–1479. doi: 10.1002/esp.2043

Hancock GR, Willgoose GR (2002) The use of a landscape simulator in the validation of the SIBERIA landscape evolution model: transient landforms. Earth Surf Process Landf 27:1321–1334

Hancock GR, Willgoose GR, Evans KG, Moliere DR, Saynor MJ (2000) Medium term erosion simulation of a abandoned mine site using the SIBERIA landscape evolution model. Aust J Soil Res 38:249–263

Hancock GR, Willgoose GR, Evans KG (2002) Testing of the SIBERIA landscape evolution model using the Tin Camp Creek, Northern Territory, Australia, field catchment. Earth Surf Process Landf 27:125–143

Hancock GR, Crawter D, Fityus SG, Chandler J, Wells T (2007) The measurement and modelling of rill erosion at angle of repose slopes in mine spoil. Earth Surf Process Landf. doi: 10.1002/esp.1585

Hancock GR, Loughran RJ, Evans KG, Balog RM (2008) Estimation of soil erosion using field and modelling approaches in an undisturbed Arnhem Land catchment, Northern Territory, Australia. Geogr Res 46(3):333–349

Hancock GR, Lowry JBC, Coulthard TJ, Evans KG, Moliere DR (2010a) A catchment scale evaluation of the SIBERIA and CAESAR landscape evolution models. Earth Surf Process Landf 35:863–875

Hancock GR, Coulthard TJ, Martinez C, Kalma JD (2010b) An evaluation of landscape evolution models to simulate decadal and centennial scale soil erosion in grassland catchments. J Hydrol. doi: 10.1016/j.jhydrol.2010.12.002

Hancock GR, Evans KG, McDonnell JJ, Hopp L (2011) Ecohydrological controls on soil erosion and landscape evolution. Ecohydrology. doi: 10.1002/eco.241

Heimsath AM, Fink D, Hancock GR (2009) The ‘humped’ soil production function: eroding Arnhem Land, Australia. Earth Surf Process Landf 34:1674–1684

Kirkby MS (1971) Hillslope process-response models based on the continuity equation. Slopes form and process. Institute of British Geographers Serial Publication No. 3, London, January

Kirkby M, Bracken LJ (2009) Gully processes and dynamics. Earth Surf Process Landf 34:1841–1851

LaBarbera P, Roth G (1994) Invariance and scaling properties in the distributions of contributing area and energy in drainage basins. Hydrol Process 8:125–135

Lin S, Jing C, Coles NA, Chaplot V, Moore NJ, Wu J (2013) Evaluating DEM source and resolution uncertainties in the Soil and Water Assessment Tool. Stoch Environ Res Risk Assess 27:209–221

Moliere DR, Evans KG, Willgoose GR and M. J. Saynor MJ (2002) Temporal trends in erosion and hydrology for a post-mining landform at Ranger Mine. Northern Territory. Supervising Scientist Report 165, Supervising Scientist, Darwin NT

Montgomery D, Dietrich WE (1988) Where do channels begin. Nature 336:232–234

Nachtergaele J, Poesen J, Vandekerckhove L, Oostwoud-Wijdenes D, Roxo M (2001a) Testing the ephemeral gully model (EGEM) for two Mediterranean environments. Earth Surf Process Landf 26:17–30

Nachtergaele J, Poesen J, Steegen A, Takken I, Beuselinck L, Vandekerckhove L, Govers G (2001b) The value of a physically based model versus an empirical approach in the prediction of ephemeral gully erosion for loess-derived soils. Geomorphology 40:237–252

Nachtergaele J, Poesen J, Sidorchuk A, Torri D (2002a) Prediction of concentrated flow width in ephemeral gully channels. Hydrol Process 16:1935–1953

Nachtergaele J, Poesen J, Oostwoud-Wijdenes D, Vandekerckhove L (2002b) Medium-term evolution of a gully developed in a loess-derived soil. Geomorphology 46:223–239

Needham RS (1988) Geology of the Alligator Rivers uranium Field, Northern Territory, Bulletin 224. Australian Government Publishing Service, Canberra

Phillips JD, Marion DA (2006) Biomechanical effects of trees on soil and regolith: beyond Treethrow. Ann Assoc Am Geogr 96(2):233–247

Phillips JD, Marion DA, Turkington AV (2008) Pedologic and geomorphic impacts of a tornado blowdown event in a mixed pine-hardwood forest. Catena 75:278–287

Poesen J, Nachtergaele J, Verstraeten G, Valentin C (2003) Gully erosion and environmental change: importance and research needs. Catena 50:91–133

Prosser IP, Slade CJ (1994) Gully formation and the role of valley-floor vegetation, south-eastern Australia. Geology 22:1127–1130

Prosser IP, Dietrich W, Stevenson J (1995) Flow resistance and sediment transport by concentrated overland flow in a grassland valley. Geomorphology 13:71–86

Rodriguez-Iturbe I, Rinaldo A (1997) Fractal river basins chance and self organisation. Cambridge University Press, Cambridge

Rodriguez-Iturbe I, Ijjasz Vasquez EJ, Bras RL, Tarboton DG (1992) Distributions of discharge, mass and energy in river basins. Water Resour Res 28(4):1089–1093

Russell-Smith J, Ryan PG, Durieu R (1997) A LANDSAT-MSS derived fire history of Kakadu National Park, monsoonal northern Australia, 1980–1994: seasonal extent, frequency and patchiness. J Appl Ecol 34:748–766

Saynor MJ, Erskine WD, Evans KG, Eliot I (2004) Gully initiation and implications for management of scour holes in the vicinity of Jabiluka Mine, Northern Territory, Australia. Geogr Ann 86(A):191–203

Schumm SA (1979) Geomorphic thresholds: the concept and its applications. Trans Inst Br Geogr New Ser 4:484–515

Sidorchuk A (1999) Dynamic and static models of gully erosion. Catena 37:401–414

Souchere V, Cerdan O, Ludwig B, Le Bissonnais Y, Couturier A, Papy F (2003) Modelling ephemeral gully erosion in small cultivated catchments. Catena 50:489–505

Story R, Galloway RW, McAlpine JR, Aldrick JM, Williams MAJ (1976) Lands of the Alligator Rivers Area, Northern Territory. Land Research Series No. 38. CSIRO, Australia

Strahler AN (1952) Hypsometric (area-altitude) analysis of erosional topography. Geol Soc Am Bull 63:1117–1142

Surkan AJ (1968) Synthetic hydrographs: effects of network geometry. Water Resour Res 5(1):112–128

Tarboton DG, Bras RL, Rodriguez-Iturbe I (1989) The analysis of river basins and channel networks using digital terrain data, TR 326. Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, Boston

Torri D, Borselli L (2003) Equation for high-rate gully erosion. Catena 50:449–467

Tucker G, Lancaster S, Gasparini N, Bras R (2001) The Channel-Hillslope Integrated Landscape Development model (CHILD). Landscape erosion and evolution modeling. Kluwer/Plenum Publishers, New York

Uren C (1992) An investigation of surface geology in the Alligator Rivers Region for possible analogues of uranium mine rehabilitation structures. Internal report 56, Unpublished paper. Supervising Scientist for the Alligator Rivers Region, Canberra

Valentin C, Poesen J, Li Y (2005) Gully erosion: impacts, factors and control. Catena 63:132–153

Vandaele K, Poesen J, Govers G, van Wesemael B (1996) Geomorphic threshold conditions for ephemeral gully incision. Geomorphology 16:161–173

Vandekerckhove L, Poesen J, Oostwoud-Wijdenes D, DeFigueiredo T (1998) Topographic thresholds for ephemeral gully initiation in intensively cultivated areas of the Mediterranean. Earth Surf Process Landf 25:1201–1220

Vandekerckhove L, Poesen J, Oostwoud Wijdenes D, Nachtergaele J, Kosmas C, Roxo MJ, DeFigueiredo T (2000a) Thresholds for gully initiation and sedimentation in Mediterranean Europe. Earth Surf Process Landf 25:1201–1220

Vandekerckhove L, Poesen J, Oostwoud Wijdenes D, Gyssels G, Bueselinck L, de Luna E (2000b) Characteristics and controlling factors of bank gullies in two semi-arid Mediterranean environments. Geomorphology 33:37–58

Wainwright J, Mathys N, Esteves M (2006) Gully erosion in mountain areas: processes, measurement, modelling and regionalisation. Earth Surf Process Landf 31:133–134

Willgoose GR (2005) User Manual for SIBERIA (version 8.30). http://www.telluricresearch.com/siberia-homepage.html

Willgoose GR, Bras RL, Rodriguez-Iturbe I (1991) A physically based coupled network growth and hillslope evolution model: 1 Theory. Water Resour Res 27(7):1671–1684

Yang T, Xu C, Zhang Q, Yu Z, Baron A, Wang X, Singh VP (2012) DEM-based numerical modelling of runoff and soil erosion processes in the hilly–gully loess regions. Stoch Environ Res Risk Assess 26:581–597