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Hydrological Sciences Journal Volume 52, 2007 - Issue 5
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Original Articles

Applicability of the Modified Universal Soil Loss Equation for prediction of sediment yield in Khanmirza watershed, Iran

Applicabilité de l'Equation Universelle Modifiée de Perte des Sols pour la prévision de la production sédimentaire dans le bassin versant de Khanmirza, en Iran

S. H. R. SADEGHI Department of Watershed Management Engineering, College of Natural Resources and Marine Sciences, Tarbiat Modares University, Noor, 46414-356, Iran E-mail: [email protected]
&
T. MIZUYAMA Laboratory of Erosion Control, SABO, Graduate School of Agriculture, Kyoto University, Kyoto, 606-8502, Japan E-mail: [email protected]
Pages 1068-1075 | Received 07 Apr 2006, Accepted 03 Jul 2007, Published online: 18 Jan 2010

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Abiot Ketema & G. S Dwarakish. (2021) Water erosion assessment methods: a review. ISH Journal of Hydraulic Engineering 27:4, pages 434-441.
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A. Millares, H. A. Chikh, M. Habi, B. Morsli, J. P. Galve, J. V. Perez-Peña & W. Martín-Rosales. (2020) Seasonal patterns of suspended sediment load and erosion-transport assessment in a Mediterranean basin. Hydrological Sciences Journal 65:6, pages 969-983.
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D. Gwapedza, D. A. Hughes & A. R. Slaughter. (2018) Spatial scale dependency issues in the application of the Modified Universal Soil Loss Equation (MUSLE). Hydrological Sciences Journal 63:13-14, pages 1890-1900.
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RABIN BHATTARAI & DUSHMANTA DUTTA. (2008) A comparative analysis of sediment yield simulation by empirical and process-oriented models in Thailand / Une analyse comparative de simulations de l'exportation sédimentaire en Thaïlande à l'aide de modèles empiriques et de processus. Hydrological Sciences Journal 53:6, pages 1253-1269.
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Articles from other publishers (23)

Lynn Gacheri Kaberia, Charles Ndegwa Mundia, Godfrey Ouma Makokha & Duncan Maina Kimwatu. (2023) Simulation and prediction of sediment loads using MUSLE–HEC-HMS model in the Upper Ewaso Nyiro River Basin, Kenya. Modeling Earth Systems and Environment 9:3, pages 3119-3133.
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Melese Baye Hailu, S. K. Mishra & Sanjay K. Jain. (2023) Sediment yield modelling and prioritization of erosion-prone sub-basins in the Tekeze watershed, Ethiopia. Environment, Development and Sustainability.
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M. B. Hailu, S. K. Mishra, S. K. Jain & V. P. Singh. (2023) Identifying and prioritizing erosion-prone areas at the subbasin level of the Tekeze watershed, Ethiopia. International Journal of Environmental Science and Technology.
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Allois Luvai, John Obiero, Christian Omuto & Joseph Sang. (2022) Soil erosion and sediment yield modeling for the Maruba dam catchment, Machakos County, Kenya. Modeling Earth Systems and Environment 8:4, pages 5723-5742.
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Azadeh Katebikord, Seyed H. Sadeghi & Vijay P. Singh. (2022) Efficacy of Synthetic Sediment Graph Developed using Various Modified Time-Area Methods. GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY 15:2, pages 38-57.
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Konstantinos Kaffas, George Papaioannou, George Varlas, Mario J. Al Sayah, Anastasios Papadopoulos, Elias Dimitriou, Petros Katsafados & Maurizio Righetti. (2022) Forecasting soil erosion and sediment yields during flash floods: The disastrous case of Mandra, Greece, 2017. Earth Surface Processes and Landforms 47:7, pages 1744-1760.
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Subodh Chandra Pal & Rabin ChakraborttySubodh Chandra Pal & Rabin Chakrabortty. 2022. Climate Change Impact on Soil Erosion in Sub-tropical Environment. Climate Change Impact on Soil Erosion in Sub-tropical Environment 67 87 .
J. Tiwari, C. M. Thornton & B. Yu. (2021) The Brigalow Catchment Study: VI.. Soil Research 59:8, pages 778-793.
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L K Yong, P L Law, S N L Taib, J O K Ngu, D Y S Mah & S L G Law. (2021) A study on topography versus sediment yield under simulated rainfall. IOP Conference Series: Materials Science and Engineering 1101:1, pages 012019.
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David Gwapedza, Namso Nyamela, Denis Arthur Hughes, Andrew Robert Slaughter, Sukhmani Kaur Mantel & Benjamin van der Waal. (2021) Prediction of sediment yield of the Inxu River catchment (South Africa) using the MUSLE. International Soil and Water Conservation Research 9:1, pages 37-48.
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Tony W. Carr, Juraj Balkovič, Paul E. Dodds, Christian Folberth, Emil Fulajtar & Rastislav Skalsky. (2020) Uncertainties, sensitivities and robustness of simulated water erosion in an EPIC-based global gridded crop model. Biogeosciences 17:21, pages 5263-5283.
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Haicheng Zhang, Ronny Lauerwald, Pierre Regnier, Philippe Ciais, Wenping Yuan, Victoria Naipal, Bertrand Guenet, Kristof Van Oost & Marta Camino‐Serrano. (2020) Simulating Erosion‐Induced Soil and Carbon Delivery From Uplands to Rivers in a Global Land Surface Model. Journal of Advances in Modeling Earth Systems 12:11.
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C. Fabre, S. Sauvage, J.-L. Probst & J.M. Sánchez-Pérez. (2020) Global-scale daily riverine DOC fluxes from lands to the oceans with a generic model. Global and Planetary Change 194, pages 103294.
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Atikilt Abera Alemayehu, Alemayehu Muluneh, Awdenegest Moges & Hailu Kendie. (2020) Estimation of sediment yield and effectiveness of level stone bunds to reduce sediment loss in the Gumara-Maksegnit watershed, Nile Basin, Ethiopia. Journal of Soils and Sediments 20:10, pages 3756-3768.
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Akbar Norouzi-Shokrlu, Mehdi Pajouhesh & Khodayar Abdollahi. (2020) Relating Sediment Yield Estimations to the Wet Front Term Using Rainfall Simulator Field Experiments. Water Resources Management 34:13, pages 4181-4196.
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Lu & Chiang. (2019) Assessment of Sediment Transport Functions with the Modified SWAT-Twn Model for a Taiwanese Small Mountainous Watershed. Water 11:9, pages 1749.
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Lei Wu, Xia Liu & Xiaoyi Ma. (2016) Application of a modified distributed-dynamic erosion and sediment yield model in a typical watershed of a hilly and gully region, Chinese Loess Plateau. Solid Earth 7:6, pages 1577-1590.
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Kishan Singh Rawat, Ainl Kumar Mishra & Ranjan Bhattacharyya. (2016) Soil erosion risk assessment and spatial mapping using LANDSAT-7 ETM+, RUSLE, and GIS—a case study. Arabian Journal of Geosciences 9:4.
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Ya Luo, Shengtian Yang, Xiaoyan Liu, Changming Liu, Yichi Zhang, Qiuwen Zhou, Xu Zhou & Guotao Dong. (2015) Suitability of revision to MUSLE for estimating sediment yield in the Loess Plateau of China. Stochastic Environmental Research and Risk Assessment 30:1, pages 379-394.
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Selen Deviren Saygın, Ali Ugur Ozcan, Mustafa Basaran, Ozgur Burhan Timur, Melda Dolarslan, Fevziye Ebru Yılman & Gunay Erpul. (2013) The combined RUSLE/SDR approach integrated with GIS and geostatistics to estimate annual sediment flux rates in the semi-arid catchment, Turkey. Environmental Earth Sciences 71:4, pages 1605-1618.
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V.O. ODONGO, J.O. ONYANDO, B.M. MUTUA, P.R. van OEL & R. BECHT. (2013) Sensitivity analysis and calibration of the Modified Universal Soil Loss Equation (MUSLE) for the upper Malewa Catchment, Kenya. International Journal of Sediment Research 28:3, pages 368-383.
Crossref
Saleh Arekhi, Afshin Shabani & Ghobad Rostamizad. (2011) Application of the modified universal soil loss equation (MUSLE) in prediction of sediment yield (Case study: Kengir Watershed, Iran). Arabian Journal of Geosciences 5:6, pages 1259-1267.
Crossref
Ashish Pandey, V. M. Chowdary & B. C. Mal. (2009) Sediment yield modelling of an agricultural watershed using MUSLE, remote sensing and GIS. Paddy and Water Environment 7:2, pages 105-113.
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