- Title
- A one-dimensional model for simulating armouring and erosion on hillslopes: 2. long term erosion and armouring predictions for two contrasting mine spoils
- Creator
- Sharmeen, Saniya; Willgoose, Garry R.
- Relation
- Earth Surface Processes and Landforms Vol. 32, Issue 10, p. 1437-1453
- Publisher Link
- http://dx.doi.org/10.1002/esp.1482
- Publisher
- John Wiley and Sons
- Resource Type
- journal article
- Date
- 2007
- Description
- This paper investigates the dynamics of soil armouring as a result of fluvial erosion for a non-cohesive sandy gravel spoil from the Ranger Mine, Australia, and a cohesive silt loam spoil from the Northparkes Mine, Australia, using a model for hillslope soil armouring. These long term predictions concentrate on the temporal and spatial changes of the spoil grading and erosion over 100-200 years for the flat cap regions (1-2%) and steep batter edges (10-30%) typically encountered on waste rock dumps. The existence of a significant rock fragment fraction in the Ranger spoil means that it armours readily, while Northparkes does not. For Ranger the waste rock showed reductions in (1) cumulative erosion of up to 81% from that obtained by extrapolating the initial erosion rate out 100 years and (2) the erosion/year by more than 10-fold. For Northparkes reductions were less marked, with the maximum reduction in erosion/year being 37% after 200 years. For Ranger the reductions were greatest and fastest for intermediate gradient hillslopes. For the steepest hillslopes the armouring decreased because the flow shear stresses were large enough to mobilize all material in the armour layer. Model uncertainty was assessed with probabilistic confidence limits demonstrating that these erodibility reductions were statistically significant. A commonly used hillslope erosion model (sediment flux = β1 discharge m1 slope n1) was fitted to these predictions. The erodibility, β1, and m1 decreased with time, which was consistent with our physical intuition about armouring. At Ranger the parameter m1 asymptoted to 1·5-1·6 while at Northparkes it asymptoted to 1·2-1·3. At Ranger transient spatial trends in armouring led to a short term (50-200 years in the future) reduction in n1, to below zero under certain circumstances, recovering to an asymptote of about 0·5-1. At Northparkes n1 asymptoted to about 0·6, with no negative transients predicted. The m1 and n1 parameters predicted for Ranger were shown to be consistent with field data from a 10-year-old armoured hillslope and consistent with published relationships between erodibility and rock content for natural hillslopes.
- Subject
- erosion; armouring; landform evolution; mine rehabilitation
- Identifier
- http://hdl.handle.net/1959.13/33982
- Identifier
- uon:3439
- Identifier
- ISSN:0197-9337
- Language
- eng
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