Assessment of soil erosion using two spatial approaches: RUSLE and SWAT Model

Soufiane Taia; Lamia Erraioui; Noella Claire Mbrenga; Jamal Chao; Bouabid El Mansouri; Souad Haida; Kamal Taj-Eddine

doi:10.1051/e3sconf/202123400082

All issues

Volume 234 (2021)

E3S Web Conf., 234 (2021) 00082

References

Open Access

Issue		E3S Web Conf. Volume 234, 2021 The International Conference on Innovation, Modern Applied Science & Environmental Studies (ICIES2020)


Article Number		00082
Number of page(s)		7
DOI		https://doi.org/10.1051/e3sconf/202123400082
Published online		02 February 2021

W.H. Wischmeier and D.D. Smith, Predicting Rainfall Erosion Losses from Cropland East of Rocky Mountains. USDA Sci & Edu. Admin. Handb., 282p. 44(1965) [Google Scholar]
J.R. Williams, Sediment routing for agricultural watersheds. Water Resour. Bull., 11(5)p. 965-974(1975) [Google Scholar]
D.B. Beasley A mathematical model for simulating the effects of land use and management on water quality Ph.D Thesis, Purdue University, West Lafayette, p. 266(1977) [Google Scholar]
R.P. Rudra, W.T. Dickinson, D.J. Clark,G.J. Wall A screening model of soil erosion and fluvial sedimentation on agricultural watershed., Can. Water Res. J., GAMES—11(4) p. 58-71(1986) [Google Scholar]
H. Mitasova, J. Hofierka, M. Zlocha, L.R. Iverson, Modelling topographic potential for erosion and deposition using GIS. IJGIS, 10p. 629-641(1996) [Google Scholar]
K.G. Renard, Washington, D.C. Predicting Soil Erosion by Water : A Guide to Conservation Planning with the Revised Universal Soil Loss Equation (RUSLE), USDA-ARS., 703p. 404(1997) [Google Scholar]
J.G. Arnold, D.N. Moriasi, P.W. Gassman, K.C., baspour, M.J. White, R. Srinivasan, C. Santhi, R.D. Harmel, A. van Griensven, M.W. Van Liew, N. Kannan and M.K. Jha, Model use, calibration and validation ASABE,.55(4)p. 1491-1508(2012) [Google Scholar]
S.L. Neitsch, J.R. Arnold, J.G. Kiniry, J.G., Kiniry and J.R. Williams, Theoretical Documentation Version 2009, USDA, ARS, PA, GRASSLAND/ SOIL/WATER RES LAB, p. 406(2011) [Google Scholar]
W. Worqlul, E.K. Ayana, B.H. Maathuis, C. MacAlister, W.D. Philpot, J.M.O Leyton, T.S. Steenhuis, Performance of bias corrected MPEG rainfall estimate for rainfall-runoff simulation in the upper Blue Nile basin, Ethiopia. J. Hydrol., 556p. 1182-1191(2018) [Google Scholar]
S.L. Neitsch, J.G. Arnold, J.R Kiniry and R.J. Williams, Soil and Water Assessment Tool theoretical documentation, version 2005. USDA, ARS, PA, GRASSLAND/ SOIL/ WATER RES LAB, p. 494(2005) [Google Scholar]
K.C. Abbaspour, J. Yang, I. Maximov, R. Siber, K. Bogner, J. Mieleitner, J. Zobrist, T. Srinivasan, Modelling hydrology and water quality in the pre-alpine Thur watershed using SWAT. J. of Hydr., 333p. 413-430.(2007) [Google Scholar]
K.J. Beven, A.M. Binley, The future of distributed models: model calibration and uncertainty prediction Hydr. Processes, 6p. 279-298(1992) [Google Scholar]
R.C. Eberhart and J. Kermedy, 4 New Optimizer Using Particles Swarm TheoIy, Proc. Sixth International Symposium on Micro Machine and Hmm Science (Nagoya, Japan) IEEE, (1995) [Google Scholar]
D. Alamirew, Modeling of Hydrology and Soil Erosion in Upper Awash River Basin. Ph.D Thesis: Uni. of Bonn, Institut für Städtebau, Bodenordnung und Kulturtechnik, p. 235(2006) [Google Scholar]
K. Tadele and G. Forch, Impact of Landuse/ Land Cover change on streamflow: A case study of Hare atershed, Ethiopia. FWU Water Resour. Pub., 6p. 1613-1045(2007) [Google Scholar]
K.C. Abbaspour, A. Johnson, M.T. van Genuchten, Estimating uncertain flow and transport parameters using a sequential uncertainty fitting procedure. Vadose Zone J., 3p. 1340-1352(2004) [Google Scholar]
Malagò, L. Pagliero, F. Bouraoui, M. Franchini, Comparing calibrated parameter sets of the SWAT model for the Scandinavian and Iberian peninsulas. Hydrol. Sci. J., 60p. 949-967(2015) [Google Scholar]
M.P. Bilondi, K.C. Abbaspour and B. Ghahraman , Application of three different calibration-uncertainty analysis methods in a semi-distributed rainfall-runoff model application. ME J. of Sci. Resear., 15p. 1255-1263(2013) [Google Scholar]
M.E. Coffey, S.R. Workman, J.L. Taraba and A.W. Fogle, Statistical procedures for evaluating daily and monthly hydrologic model predictions Trans. ASAE,. 47(1) p. 59-68(2004) [Google Scholar]
N. Moriasi, J.G. Arnold,M.W. Van Liew, R.L. Bingner, R.D. Harmel, and T.L. Veith, Model evaluation guidelines for systematic quantification of accuracy in watershed simulations ASABE,.50(3)p. 885-900(2007) [Google Scholar]
W.H. Wischmeier, D.D. Smith, Predicting rainfall erosion losses: A guide to conservation planning U.S.Dep.Agric.Handb.,. 537(1978) [Google Scholar]
Y. Cormary and J. Masson, Application à un projet type de la formule de perte de sols de Wischmeier.p. Etude de conser. des eaux et du sol au Cent. de rech. du GR de Tunisie, 26 (1963) [Google Scholar]
Sadiki, A. Faleh, J.L. Zêzere, H. Mastass, Quantification de l’érosion en nappe dans le bassin versant de l’oued Sahla Rif central, Maroc. Cahiers géographiques, 6p. 12(2009) [Google Scholar]
P. Billaux, G. Bryssine, Les sols du Maroc Chapitre III. Cahier de l'ORSTO, 13703p. 59-101(1970) [Google Scholar]
Ait Fora, Modélisation spatiale de l’érosion hydrique dans un bassin versant du Rif marocain : validation de l’approche géomatique par la sédimentologie, les traceurs radioactifs et la susceptibilité magnétique des sédiments. Thèse de PhD, Université de Sherbrooke, Québec, Canada., p. 290 (1995) [Google Scholar]
L.C. Brown, and G.R. Foster, Storm Erosivity Using Idealized Intensity Distribution. Trans. of the ASAE, 30p. 379-386(1987) [Google Scholar]
H. M. J. Arnoldus, ., Methodologie used to determine the maximum potentiel average soil loss due to sheet and rill erosion in Morrocco Bulletin F.A.O p. 34(1980) [Google Scholar]
Rango and H. M. J. Arnoldus , Aménagement des bassins versants. Cahiers techniques de la FAO, p. 11(1987) [Google Scholar]
R.A. Bagnold, Bedload transport in natural rivers. Water Resour. Res., 13(2)p. 303-312(1977) [Google Scholar]
F. Lelandais, F. Fabre 1995 Risques d'érosion et systèmes d'information géographique AEFCS du Maroc p.5 (1993) [Google Scholar]
M. Snoussi, J.M. Jouanneau et C. Latouche, J Flux de matières issues de bassins versants de zones semi-arides. Importance dans le bilan global des apports d’origine continentale parvenant à l’Océan Mondial.. of Afr. Earth Sci. 11(1-2),p. 43-54 (1990) [Google Scholar]

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[1] W.H. Wischmeier and D.D. Smith, Predicting Rainfall Erosion Losses from Cropland East of Rocky Mountains. USDA Sci & Edu. Admin. Handb., 282p. 44(1965) [Google Scholar]

[2] J.R. Williams, Sediment routing for agricultural watersheds. Water Resour. Bull., 11(5)p. 965-974(1975) [Google Scholar]

[3] D.B. Beasley A mathematical model for simulating the effects of land use and management on water quality Ph.D Thesis, Purdue University, West Lafayette, p. 266(1977) [Google Scholar]

[4] R.P. Rudra, W.T. Dickinson, D.J. Clark,G.J. Wall A screening model of soil erosion and fluvial sedimentation on agricultural watershed., Can. Water Res. J., GAMES—11(4) p. 58-71(1986) [Google Scholar]

[5] H. Mitasova, J. Hofierka, M. Zlocha, L.R. Iverson, Modelling topographic potential for erosion and deposition using GIS. IJGIS, 10p. 629-641(1996) [Google Scholar]

[6] K.G. Renard, Washington, D.C. Predicting Soil Erosion by Water : A Guide to Conservation Planning with the Revised Universal Soil Loss Equation (RUSLE), USDA-ARS., 703p. 404(1997) [Google Scholar]

[7] J.G. Arnold, D.N. Moriasi, P.W. Gassman, K.C., baspour, M.J. White, R. Srinivasan, C. Santhi, R.D. Harmel, A. van Griensven, M.W. Van Liew, N. Kannan and M.K. Jha, Model use, calibration and validation ASABE,.55(4)p. 1491-1508(2012) [Google Scholar]

[8] S.L. Neitsch, J.R. Arnold, J.G. Kiniry, J.G., Kiniry and J.R. Williams, Theoretical Documentation Version 2009, USDA, ARS, PA, GRASSLAND/ SOIL/WATER RES LAB, p. 406(2011) [Google Scholar]

[9] W. Worqlul, E.K. Ayana, B.H. Maathuis, C. MacAlister, W.D. Philpot, J.M.O Leyton, T.S. Steenhuis, Performance of bias corrected MPEG rainfall estimate for rainfall-runoff simulation in the upper Blue Nile basin, Ethiopia. J. Hydrol., 556p. 1182-1191(2018) [Google Scholar]

[10] S.L. Neitsch, J.G. Arnold, J.R Kiniry and R.J. Williams, Soil and Water Assessment Tool theoretical documentation, version 2005. USDA, ARS, PA, GRASSLAND/ SOIL/ WATER RES LAB, p. 494(2005) [Google Scholar]

[11] K.C. Abbaspour, J. Yang, I. Maximov, R. Siber, K. Bogner, J. Mieleitner, J. Zobrist, T. Srinivasan, Modelling hydrology and water quality in the pre-alpine Thur watershed using SWAT. J. of Hydr., 333p. 413-430.(2007) [Google Scholar]

[12] K.J. Beven, A.M. Binley, The future of distributed models: model calibration and uncertainty prediction Hydr. Processes, 6p. 279-298(1992) [Google Scholar]

[13] R.C. Eberhart and J. Kermedy, 4 New Optimizer Using Particles Swarm TheoIy, Proc. Sixth International Symposium on Micro Machine and Hmm Science (Nagoya, Japan) IEEE, (1995) [Google Scholar]

[14] D. Alamirew, Modeling of Hydrology and Soil Erosion in Upper Awash River Basin. Ph.D Thesis: Uni. of Bonn, Institut für Städtebau, Bodenordnung und Kulturtechnik, p. 235(2006) [Google Scholar]

[15] K. Tadele and G. Forch, Impact of Landuse/ Land Cover change on streamflow: A case study of Hare atershed, Ethiopia. FWU Water Resour. Pub., 6p. 1613-1045(2007) [Google Scholar]

[16] K.C. Abbaspour, A. Johnson, M.T. van Genuchten, Estimating uncertain flow and transport parameters using a sequential uncertainty fitting procedure. Vadose Zone J., 3p. 1340-1352(2004) [Google Scholar]

[17] Malagò, L. Pagliero, F. Bouraoui, M. Franchini, Comparing calibrated parameter sets of the SWAT model for the Scandinavian and Iberian peninsulas. Hydrol. Sci. J., 60p. 949-967(2015) [Google Scholar]

[18] M.P. Bilondi, K.C. Abbaspour and B. Ghahraman , Application of three different calibration-uncertainty analysis methods in a semi-distributed rainfall-runoff model application. ME J. of Sci. Resear., 15p. 1255-1263(2013) [Google Scholar]

[19] M.E. Coffey, S.R. Workman, J.L. Taraba and A.W. Fogle, Statistical procedures for evaluating daily and monthly hydrologic model predictions Trans. ASAE,. 47(1) p. 59-68(2004) [Google Scholar]

[20] N. Moriasi, J.G. Arnold,M.W. Van Liew, R.L. Bingner, R.D. Harmel, and T.L. Veith, Model evaluation guidelines for systematic quantification of accuracy in watershed simulations ASABE,.50(3)p. 885-900(2007) [Google Scholar]

[21] W.H. Wischmeier, D.D. Smith, Predicting rainfall erosion losses: A guide to conservation planning U.S.Dep.Agric.Handb.,. 537(1978) [Google Scholar]

[22] Y. Cormary and J. Masson, Application à un projet type de la formule de perte de sols de Wischmeier.p. Etude de conser. des eaux et du sol au Cent. de rech. du GR de Tunisie, 26 (1963) [Google Scholar]

[23] Sadiki, A. Faleh, J.L. Zêzere, H. Mastass, Quantification de l’érosion en nappe dans le bassin versant de l’oued Sahla Rif central, Maroc. Cahiers géographiques, 6p. 12(2009) [Google Scholar]

[24] P. Billaux, G. Bryssine, Les sols du Maroc Chapitre III. Cahier de l'ORSTO, 13703p. 59-101(1970) [Google Scholar]

[25] Ait Fora, Modélisation spatiale de l’érosion hydrique dans un bassin versant du Rif marocain : validation de l’approche géomatique par la sédimentologie, les traceurs radioactifs et la susceptibilité magnétique des sédiments. Thèse de PhD, Université de Sherbrooke, Québec, Canada., p. 290 (1995) [Google Scholar]

[26] L.C. Brown, and G.R. Foster, Storm Erosivity Using Idealized Intensity Distribution. Trans. of the ASAE, 30p. 379-386(1987) [Google Scholar]

[27] H. M. J. Arnoldus, ., Methodologie used to determine the maximum potentiel average soil loss due to sheet and rill erosion in Morrocco Bulletin F.A.O p. 34(1980) [Google Scholar]

[28] Rango and H. M. J. Arnoldus , Aménagement des bassins versants. Cahiers techniques de la FAO, p. 11(1987) [Google Scholar]

[29] R.A. Bagnold, Bedload transport in natural rivers. Water Resour. Res., 13(2)p. 303-312(1977) [Google Scholar]

[30] F. Lelandais, F. Fabre 1995 Risques d'érosion et systèmes d'information géographique AEFCS du Maroc p.5 (1993) [Google Scholar]

[31] M. Snoussi, J.M. Jouanneau et C. Latouche, J Flux de matières issues de bassins versants de zones semi-arides. Importance dans le bilan global des apports d’origine continentale parvenant à l’Océan Mondial.. of Afr. Earth Sci. 11(1-2),p. 43-54 (1990) [Google Scholar]