Journal of Water Resource and Protection

Journal of Water Resource and Protection

ISSN Print: 1945-3094
ISSN Online: 1945-3108
www.scirp.org/Journal/jwarp
E-mail: jwarp@scirp.org
"Application of SWAT Model to the Olifants Basin: Calibration, Validation and Uncertainty Analysis"
written by Charles Gyamfi, Julius Musyoka Ndambuki, Ramadhan Wanjala Salim,
published by Journal of Water Resource and Protection, Vol.8 No.3, 2016
has been cited by the following article(s):
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[1] Impact of climate change on surface runoff: a case study of the Darabad River, northeast of Iran
2021
[2] Assessing the effects of site preparation treatments on erosion processes and sediment yield on a commercial Eucalyptus plantation: case study at Two Streams …
2020
[3] Potential for small hydropower development in the Lower Pra River Basin, Ghana
2020
[4] Land use/land cover change effect on soil erosion and sediment delivery in the Winike watershed, Omo Gibe Basin, Ethiopia
2020
[5] Attribution of the 2015-2016 hydrological drought in KwaZulu-Natal to anthropogenic climate change
2020
[6] Assessment of localized seasonal precipitation variability in the upper middle catchment of the Olifants River basin
2020
[7] Past and present spatial precipitation variability in the upper middle catchment of the Olifants River basin
2020
[8] Simulating Change in Surface Runoff due to LULC Change using Soil Water and Assessment Tool for Flash Flood Prediction
2020
[9] Calibration and Validation of the SWAT Model on the Watershed of Bafing River, Main Upstream Tributary of Senegal River: Checking for the Influence of the …
2020
[10] Watershed Hydrology, Management and Modeling
2019
[11] Calibration of a hydrological model and sensitivity analysis of its parameters: a case study of Seonath river basin
2019
[12] 气候和土地利用变化对大汶河流域径流的影响
2019
[13] Land use planning based on soil and water assessment tool model in a mountainous watershed to reduce runoff and sediment load
2019
[14] Impacts of land use land cover change on runoff and sediment yield of Upper Tapi River Sub-Basin, India
2019
[15] Comparison of the performance of SWAT, IHACRES and artificial neural networks models in rainfall-runoff simulation (case study: Kan watershed, Iran)
2019
[16] Land use planning based on SWAT model in a mountainous watershed to reduce runoff and sediment load
Canadian Journal of Soil Science, 2019
[17] Evaluation of multisite performance of SWAT model in the Gomti River Basin, India
2019
[18] Parâmetros pedológicos para estimativa de vazões em bacias hidrográficas
2019
[19] SWAT Model and its Application
2019
[20] Simulation of Runoff Using SWAT Model at Annual Scale (Case Study: Neyshabour Watershed)
2019
[21] Simulation of surface runoff using semi distributed hydrological model for a part of Satluj Basin: parameterization and global sensitivity analysis using SWAT CUP
Modeling Earth Systems and Environment, 2018
[22] SWAT model uncertainty analysis, calibration and validation for runoff simulation in the Luvuvhu River catchment, South Africa
Physics and Chemistry of the Earth, Parts A/B/C, 2018
[23] Groundwater recharge modelling in a large scale basin: an example using the SWAT hydrologic model
Modeling Earth Systems and Environment, 2017
[24] Modelling Groundwater Recharge in a Semi-arid River Basin: A Retrospective Assessment
Int'l Journal of Advances in Agricultural & Environmental Engg, 2017
[25] Hydrological Responses to Land Use/Cover Changes in the Olifants Basin, South Africa
Water, 2016
[26] Application of SWAT to Assess the Effects of Land Use Change in the Murchison Bay Catchment in Uganda
2016
[27] SPATIO-TEMPORAL VARIABILITY MODELLING OF SEDIMENT YIELD IN A SEMI ARID RIVER BASIN: THE SWAT APPROACH
Proceeding (836) Environment and Water Resource Management / 837: Health Informatics / 838: Modelling and Simulation / 839: Power and Energy Systems, 2016
[28] Corrected Proof
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