Adding sediment transport to the integrated hydrology model (InHM): Development and testing

Advances in Water Resources

Volumn 29, Issue 6, 2006, Pages 930-943

  Heppner, Christopher S ^a   Ran, Qihua ^a   VanderKwaak, Joel E ^b   Loague, Keith ^a  

^a STANFORD UNIVERSITY   (United States)

^b 3DGeo Development Inc   (United States)

Author keywords

Calibration; Hydraulic erosion; Hydrologic response simulation; Model performance; Plot scale experiments; Rainsplash erosion; Sediment transport simulation; Sensitivity analysis; Validation

Indexed keywords

COMPUTER SIMULATION; EROSION; HYDRAULICS; MATHEMATICAL MODELS; RAIN; SEDIMENT TRANSPORT; SENSITIVITY ANALYSIS; STATISTICAL METHODS;

HYDRAULIC EROSION; HYDROLOGIC-RESPONSE SIMULATION; INTEGRATED HYDROLOGY MODEL (INHM); MODEL PERFORMANCE; PLOT-SCALE EXPERIMENTS; RAINSPLASH EROSION; SEDIMENT TRANSPORT SIMULATION;

HYDROLOGY;

COMPUTER SIMULATION; EROSION; HYDRAULICS; HYDROLOGY; MATHEMATICAL MODELS; RAIN; SEDIMENT TRANSPORT; SENSITIVITY ANALYSIS; STATISTICAL METHODS;

ALGORITHM; HYDROLOGICAL MODELING; HYDROLOGICAL RESPONSE; SEDIMENT TRANSPORT; SENSITIVITY ANALYSIS;

EID: 33645639248     PISSN: 03091708     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.advwatres.2005.08.003     Document Type: Article

References (55)

1. Abbott M.B., Bathurst J.C., Cunge J.A., O'Connell P.E., and Rasmussen J.L. An introduction to the European Hydrology System SHE, 2: Structure of a physically-based, distributed modeling system. J Hydrol 87 (1986) 61-77
2. Beasley D.B., Huggins L.F., and Monke E.J. ANSWERS: a model for watershed planning. Trans Am Soc Agric Eng 23 (1980) 938-944
3. Bennett J.P. Concepts of mathematical modeling of sediment yield. Water Resour Res 10 (1974) 485-492
4. Beven K., and Robert E. Horton's perceptual model of infiltration processes. Hydrol Process 18 (2004) 3447-3460
5. Beven K., and Robert E. Horton and the abrupt rises of ground water. Hydrol Process 18 (2004) 3687-3696
6. Carsel R.F., and Parrish R.S. Developing joint probability distributions of soil water retention characteristics. Water Resour Res 24 (1988) 755-769
7. Chang H.H. Fluvial-12, Mathematical model for erodible channels (user's manual) (1993), San Diego State University, San Diego, CA
8. Dunne T. Relation of field studies and modeling in the prediction of storm runoff. J Hydrol 65 (1983) 25-48
9. Dunne T. Wolman lecture: hydrologic science ... in landscapes ... on a planet ... in the future. Hydrologic sciences: taking stock and looking ahead (1998), National Academy Press, Washington, DC 10-43
10. Engelund F., and Hansen E. A monograph on sediment transport in alluvial streams (1967), Technical University of Denmark, Copenhagen, Denmark
11. Entekhabi D., Asrar G.R., Betts A.K., Beven K.J., Bras R.L., Duffy C.J., et al. An agenda for land surface hydrology research and a call for the second international hydrological decade. Bull Am Meteorol Soc 80 (1999) 2043-2058
12. Ferro V. Evaluating overland flow sediment transport capacity. Hydrol Process 12 (1998) 1895-1910
13. Foster G.R. Modeling the erosion process. In: Haan, Johnson, and Brakensiek (Eds). Hydrologic modeling of small watersheds (1982), American Society of Agricultural Engineers, St. Joseph, MI [chapter 8]
14. Freeze R.A., and Harlan R.L. Blueprint for a physically-based digitally simulated, hydrologic response model. J Hydrol 9 (1969) 237-258
15. Freeze R.A., and Cherry J.A. Groundwater (1979), Prentice-Hall, Englewood Cliffs, NJ
16. Gabet E.J., and Dunne T. Sediment detachment by rain power. Water Resour Res 39 (2003) 1002 10.1029/2001WR000656
17. Gabet E.J., and Dunne T. Correction to sediment detachment by rain power. Water Resour Res 40 (2004) 10.1029/2004WR003422 [W08901]
18. Gerits J.J.P., de Lima J.L.M.P., and van den Broek T.M.W. Overland flow and erosion. In: Anderson, and Burt (Eds). Process studies in hillslope hydrology (1990), John Wiley and Sons Ltd., Chichester, West Sussex, England [chapter 6]
19. Gessler J. The beginning of bedload movement of mixtures investigated as natural armouring in channels. Reprint, Laboratory of Hydraulics and Water Resources, CIT, 1965.
20. Gessler D., Hall B., Spasojevic M., Holly F., Pourtaheri H., and Raphelt N. Application of 3D mobile bed, hydrodynamic model. J Hydraul Eng 125 (1999) 737-749
21. Holly F., and Rahuel J.-L. New numerical/physical framework for mobile bed modeling, Part 1: Numerical and physical principles. J Hydraul Res 28 (1990) 401-416
22. Horton R.E. Erosional development of streams and their drainage basins: hydrophysical approach to quantitative morphology. Bull Geol Soc Am (1945) 275-370
23. Inbar M., Tamir M., and Wittenberg L. Runoff and erosion processes after a forest fire in Mount Carmel, a Mediterranean area. Geomorphology 24 (1998) 17-33
24. James L.D., and Burges S.J. Selection, calibration and testing of hydrologic models. In: Haan, Johnson, and Brakensiek (Eds). Hydrologic modeling of small watersheds (1982), American Society of Agricultural Engineers, St. Joseph, MI [chapter 14]
25. Johansen M.P., Hakonson T.E., and Breshears D.D. Post-fire and erosion from rainfall simulation: contrasting forests with shrublands and grasslands. Hydrol Process 15 (2001) 2953-2965
26. Jones JP, Sudicky EA, Brookfield AE, Park Y-J. Quantifying groundwater contributions to streamflow generation: the reliability of tracer-based hydrograph separation techniques. Water Resour Res, in review.
27. Karim MF, Kennedy JF. IALLUVIAL: a computer-based flow- and sediment-routing for alluvial streams and its application to the Missouri River. Iowa Institute of Hydraulic Research, The University of Iowa, Iowa City, IA, Report No. 250, 1982.
28. Kinnell P.I.A. Raindrop-impact-induced erosion processes and prediction: a review. Hydrol Process 19 (2005) 2815-2844
29. Kirkby M.J. Implications for sediment transport. In: Kirkby (Ed). Hillslope hydrology (1978), John Wiley and Sons Ltd., Chichester, West Sussex, England [chapter 9]
30. Knisel WG. CREAMS: a field scale model for chemicals, runoff and erosion from agricultural management systems. US Department of Agriculture, Conservation Research Report No. 26, 1980.
31. Lane L.J., Shirley E.D., and Singh V.P. Modeling erosion on hillslopes. In: Anderson (Ed). Modelling geomorphological systems (1988), John Wiley and Sons Ltd, Chichester, West Sussex, England [chapter 10]
32. Li R.M. Water and sediment routing from watersheds. In: Shen (Ed). Modeling of rivers (1979), Wiley, New York, NY [chapter 9]
33. Loague K., and VanderKwaak J.E. Simulating hydrologic response for the R-5 catchment: comparison of two models and the impact of the roads. Hydrol Process 16 (2002) 1015-1032
34. Loague K., and VanderKwaak J.E. Physics-based hydrologic response simulation: platinum bridge, 1958 Edsel, or useful tool. Hydrol Process 18 (2005) 2949-2956
35. Loague K., Heppner C.S., Abrams R.H., VanderKwaak J.E., Carr A.E., and Ebel B.A. Further testing of the integrated hydrology model (InHM): event-based simulations for a small rangeland catchment located near Chickasha, Oklahoma. Hydrol Process 19 (2005) 1373-1398
36. Luce C.H., and Black T.A. Sediment production from forest roads in western Oregon. Water Resour Res 35 (1999) 2561-2570
37. Merritt W.S., Letcher R.A., and Jakeman A.J. A review of erosion and sediment transport models. Environ Model Software 18 (2003) 761-799
38. Morgan R.P.C., Quinton J.N., Smith R.E., Govers G., Poesen J.W.A., Auerswald K., et al. The European soil erosion model (EUROSEM): a dynamic approach for predicted sediment transport from fields and small catchments. Earth Surf Process Landforms 23 (1998) 527-544
39. Orvis C., and Randle R. STARS: sediment transport and river simulation model (1987), Technical Service Center, US Bureau of Reclamation, Denver, CO
40. Panday S., and Huyakorn P.S. A fully coupled physically-based spatially-distributed model for evaluating surface/subsurface flow. Adv Water Resour 27 (2004) 361-382
41. Pebesma E.J., Switzer P., and Loague K. Error analysis for the evaluation of model performance: Rainfall-runoff time series. Hydrol Process 19 (2005) 1529-1548
42. Prosser I.P., and Rustomji P. Sediment transport capacity relations for overland flow. Prog Phys Geography 24 (2000) 179-193
43. Rawls W.J., Gish T.J., and Brakensiek D.L. Estimating soil water retention from soil physical properties and characteristics. Adv Soil Sci 16 (1991) 213-234
44. Reid LM. Research and cumulative watershed effects. PSW-GTW-141, Pacific Southwest Research Station, Forest Service, US Department of Agriculture, 1993. 118p.
45. Roering J.J., and Gerber M. Fire and the evolution of steep, soil-mantled landscapes. Geology 33 (2005) 349-352 10.1130/G21260.1
46. Tayfur G. Applicability of sediment transport capacity models for nonsteady state erosion from steep slopes. J Hydrol Eng 7 (2002) 252-259
47. US Department of Agricultural, Agricultural Research Service (USDA-ARS). Hydrology, erosion, and water quality studies in the southern great plains research watershed, Southwestern Oklahoma, 1961-1978. Agricultural Reviews and Manuals, ARM-S-29, 1983.
48. VanderKwaak JE. Numerical simulation of flow and chemical transport in integrated surface-subsurface hydrologic systems. PhD dissertation, Department of Earth Sciences, University of Waterloo, Ontario, Canada, 1999.
49. VanderKwaak J.E., and Loague K. Hydrologic-response simulations for the R-5 catchment with a comprehensive physics-based model. Water Resour Res 37 (2001) 999-1013
50. van Genuchten M.T. A closed-form equation for predicting the hydraulic conductivity of unsaturated soils. Soil Sci Soc Am J 44 (1980) 892-898
51. Wicks J.M., and Bathurst J.C. SHESED: a physically based, distributed erosion and sediment yield component for the SHE hydrological modeling system. J Hydrol 175 (1996) 213-238
52. Woolhiser DA, Smith RE, Goodrich DC. KINEROS, a kinematic runoff and erosion model:Documentation and user manual. Agricultural Research Service, US Department of Agriculture, Report No. ARS-77, 1990.
53. Ziegler A.D., Giambelluca T.W., and Southerland R.A. Improved method for modeling sediment transport on unpaved roads using KINEROS2 and dynamic erodibility. Hydrol Process 16 (2002) 3079-3089
54. Ziegler A.D., Southerland R.A., and Giambelluca T.W. Acceleration of Horton overland flow and erosion by footpaths in an upland agricultural watershed in northern Thailand. Geomorphology 41 (2001) 249-262
55. Ziemer R.R., Lewis J., Rice R.M., and Lisle T.E. Modeling the cumulative watershed effects of forest management strategies. J Environ Quality 20 (1991) 36-42