Geology Reference
In-Depth Information
Van Oost, K., Govers, G. & Desmet, P. (2000) Evaluating
the effects of changes in landscape structure on soil
erosion by water and tillage.
Landscape Ecology
15
:
577-89.
Van Oost, K., Govers, G., Cerdan, O.,
et al
. (2005)
Spatially distributed data for erosion model calibra-
tion and validation: the Ganspoel and Kinderveld
datasets.
Catena
61
: 105-21.
Van Rompaey, A.J.J., Verstraeten, G., Van Oost, K.,
et al
.
2001. Modelling mean annual sediment yield using a
distributed approach.
Earth Surface Processes and
Landforms
26
: 1221-36.
Veihe, A. & Quinton, J.N. (2000) Sensitivity analysis of
EUROSEM using Monte Carlo simulation I: hydro-
logical, soil and vegetation parameters.
Hydrological
Processes
14
: 915-26.
Veihe, A., Quinton J.N. & Poesen, J. (2000) Sensitivity
analysis of EUROSEM using Monte Carlo simulation
II: the effect of rills and rock fragments.
Hydrological
Processes
14
: 927-39.
Vigiak, O., Sterk, G., Romanowicz, R.J. & Beven, K.J.
(2006) A semi-empirical model to assess uncertainty
of spatial patterns of erosion.
Catena
66
: 198-210.
Wainwright, J., Parsons, A.J., Müller, E.N.,
et al
. (2008a)
A transport distance approach to scaling erosion rates:
1. Background and model development.
Earth Surface
Processes and Landforms
33
: 813-26. DOI: 10.1002/
esp.1624
Wainwright, J., Parsons, A.J., Müller, E.N.,
et al
. (2008b)
A transport distance approach to scaling erosion rates:
2. Sensitivity and evaluation of MAHLERAN.
Earth
Surface Processes and Landforms
33
: 962-84. DOI:
10.1002/esp.1623
Wainwright, J., Parsons, A.J., Müller, E.N.,
et al
. (2008c)
A transport distance approach to scaling erosion rates:
3. Evaluating scaling characteristics of MAHLERAN.
Earth Surface Processes and Landforms
33
: 1113-28.
DOI: 10.1002/esp.1622
Wang, G., Fang, S., Gertner, G.Z. & Anderson, A.B. (2000a)
Uncertainty propagation and partitioning in spatial pre-
diction of topographical factors of RUSLE. In Heuvelink,
G.B.M. & Lemmens, M.J.P.M. (eds),
Proceedings of the
Fourth International Symposium on Spatial Accuracy
Assessment in Natural Resources and Environmental
Sciences
. Delft University Press, Amsterdam.
Wang, G., Gertner, G.Z., Parysow, P. & Anderson, A.B.
(2000b) Spatial prediction and uncertainty analysis of
topographical factors for the Revised Universal Soil
Loss Equation (RUSLE).
Journal of Soil and Water
Conservation
55
: 373-82.
Wang G., Gertner G., Singh, V.,
et al
. (2002) Spatial and
temporal prediction and uncertainty of soil loss using
the Revised Universal Soil Loss Equation: a case study
of the rainfall-runoff erosivity R factor.
Ecological
Modelling
153
: 143-55.
Wei, H., Nearing, M.A. & Stone J.J. (2007) A compre-
hensive sensitivity analysis framework for model
evaluation and improvement using a case study of
rangeland hydrology and erosion model.
Transactions
of the American Society of Agricultural and Biological
Engineers
50
: 945-53.
Wei, H., Nearing, M.A., Stone J.J. & Breshears D.D.
(2008) A dual Monte Carlo approach to estimate
model uncertainty and its application to the range-
land hydrology and erosion model.
Transactions of
the American Society of Agricultural and Biological
Engineers
51
: 515-20.
Wicks, J.M., Bathurst, J.C. & Johnson, C.W. (1992)
Calibrating the SHE soil-erosion model for different
land covers.
Journal of Irrigation and Drainage
Engineering ASCE
118
: 708-23.
Wischmeier, W.H. & Smith, D.D. (1960) A universal
soil-loss equation to guide conservation farm plan-
ning.
Transactions of the 7th
International Congress
of Soil Science
. International Society of Soil Science,
Amsterdam: 418-25.
Wischmeier, W.H. & Smith, D.D. (1978) Predict-
ing rainfall erosion losses. A guide to conserva-
tion planning.
Agriculture Handbook No. 537
.
USDA-SEA, US Government Printing Office,
Washington, DC.
Woolhiser, D.A., Smith, R.E. & Goodrich, D.C. 1990.
KINEROS - a kinematic runoff and erosion model:
documentation and user manual. USDA Agricultural
Research Service, ARS-77.
Zhang, X.C., Nearing, M.A., Risse, L.M. & McGregor,
K.C. (1996) Evaluation of WEPP runoff and soil loss
predictions using natural runoff plot data.
Transactions of the American Society of Agricultural
Engineers
39
: 855-63.
