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[1]
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Modeling the impact of historical and future land use land cover changes on the hydrological response of an Ethiopian watershed
Sustainable Water Resources Management,
2024
DOI:10.1007/s40899-023-01011-0
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[2]
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Assessment of the effects of climate change on water balance components in the upper Erer subbasin, Ethiopia
Heliyon,
2024
DOI:10.1016/j.heliyon.2024.e30297
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[3]
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Groundwater modelling in SWAT+: Considerations for a realistic baseflow simulation
Groundwater for Sustainable Development,
2024
DOI:10.1016/j.gsd.2024.101275
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[4]
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Evaluating water balance components in a tropical ecological zone under land use changes
Ecohydrology & Hydrobiology,
2024
DOI:10.1016/j.ecohyd.2024.09.007
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[5]
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Hydrological simulation and evaluation of drought conditions in the ungauged watershed Parishan lake Iran, using the SWAT model
Journal of Water and Climate Change,
2024
DOI:10.2166/wcc.2024.268
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[6]
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Groundwater modelling in SWAT+: Considerations for a realistic baseflow simulation
Groundwater for Sustainable Development,
2024
DOI:10.1016/j.gsd.2024.101275
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[7]
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Quantification of global Digital Elevation Model (DEM) – A case study of the newly released NASADEM for a river basin in Central Vietnam
Journal of Hydrology: Regional Studies,
2023
DOI:10.1016/j.ejrh.2022.101282
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[8]
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Responses of soil and water-related ecosystem services to landscape dynamics in the eastern Afromontane biodiversity Hotspot
Heliyon,
2023
DOI:10.1016/j.heliyon.2023.e22639
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[9]
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Quantification of global Digital Elevation Model (DEM) – A case study of the newly released NASADEM for a river basin in Central Vietnam
Journal of Hydrology: Regional Studies,
2023
DOI:10.1016/j.ejrh.2022.101282
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[10]
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Revealing salient aquatic ecosystem services bundles in the Olifants River catchment, South Africa
Wetlands Ecology and Management,
2023
DOI:10.1007/s11273-023-09915-6
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[11]
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Quantification of global Digital Elevation Model (DEM) – A case study of the newly released NASADEM for a river basin in Central Vietnam
Journal of Hydrology: Regional Studies,
2023
DOI:10.1016/j.ejrh.2022.101282
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[12]
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Revealing salient aquatic ecosystem services bundles in the Olifants River catchment, South Africa
Wetlands Ecology and Management,
2023
DOI:10.1007/s11273-023-09915-6
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[13]
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Using SWAT to model the response of evapotranspiration and runoff to varying land uses and climatic conditions in the Muringato basin, Kenya
Modeling Earth Systems and Environment,
2023
DOI:10.1007/s40808-022-01579-0
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[14]
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Evaluation of Water Provision Ecosystem Services Associated with Land Use/Cover and Climate Variability in the Winike Watershed, Omo Gibe Basin of Ethiopia
Environmental Management,
2022
DOI:10.1007/s00267-021-01573-9
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[15]
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Evaluation of Water Provision Ecosystem Services Associated with Land Use/Cover and Climate Variability in the Winike Watershed, Omo Gibe Basin of Ethiopia
Environmental Management,
2022
DOI:10.1007/s00267-021-01573-9
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[16]
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Impact of Climate Change on Soil Water Content in Southern Saskatchewan, Canada
Water,
2022
DOI:10.3390/w14121920
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[17]
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Responses of evapotranspiration to changing climate for the past six decades in the upper catchment of the Olifants River basin
IOP Conference Series: Earth and Environmental Science,
2022
DOI:10.1088/1755-1315/983/1/012072
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[18]
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Impact of Climate Change on Soil Water Content in Southern Saskatchewan, Canada
Water,
2022
DOI:10.3390/w14121920
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[19]
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Using SWAT to model the response of evapotranspiration and runoff to varying land uses and climatic conditions in the Muringato basin, Kenya
Modeling Earth Systems and Environment,
2022
DOI:10.1007/s40808-022-01579-0
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[20]
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Evaluating Soil Loss for Identification of Land Risk Area in the Kabe Watershed of Ethiopia
Applied and Environmental Soil Science,
2022
DOI:10.1155/2022/7679104
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[21]
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Assessment of localized seasonal precipitation variability in the upper middle catchment of the Olifants River basin
Journal of Water and Climate Change,
2020
DOI:10.2166/wcc.2020.187
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[22]
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Land use/land cover change effect on soil erosion and sediment delivery in the Winike watershed, Omo Gibe Basin, Ethiopia
Science of The Total Environment,
2020
DOI:10.1016/j.scitotenv.2020.138776
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[23]
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Potential for small hydropower development in the Lower Pra River Basin, Ghana
Journal of Hydrology: Regional Studies,
2020
DOI:10.1016/j.ejrh.2020.100757
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[24]
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Impact of climate change on surface runoff: a case study of the Darabad River, northeast of Iran
Journal of Water and Climate Change,
2020
DOI:10.2166/wcc.2020.089
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[25]
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Past and present spatial precipitation variability in the upper middle catchment of the Olifants River basin
IOP Conference Series: Earth and Environmental Science,
2020
DOI:10.1088/1755-1315/467/1/012212
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[26]
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Impacts of Land Use Land Cover Change on Runoff and Sediment Yield of Upper Tapi River Sub Basin, India
International Journal of River Basin Management,
2019
DOI:10.1080/15715124.2019.1613413
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[27]
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Comparison of the performance of SWAT, IHACRES and artificial neural networks models in rainfall-runoff simulation (case study: Kan watershed, Iran)
Physics and Chemistry of the Earth, Parts A/B/C,
2019
DOI:10.1016/j.pce.2019.05.002
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[28]
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Land use planning based on soil and water assessment tool model in a mountainous watershed to reduce runoff and sediment load
Canadian Journal of Soil Science,
2019
DOI:10.1139/cjss-2018-0109
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[29]
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Evaluation of multisite performance of SWAT model in the Gomti River Basin, India
Applied Water Science,
2019
DOI:10.1007/s13201-019-1013-x
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[30]
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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
DOI:10.1016/j.pce.2018.03.012
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[31]
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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
DOI:10.1007/s40808-018-0474-5
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[32]
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Application of SWAT to Assess the Effects of Land Use Change in the Murchison Bay Catchment in Uganda
Computational Water, Energy, and Environmental Engineering,
2017
DOI:10.4236/cweee.2017.61003
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[33]
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Groundwater recharge modelling in a large scale basin: an example using the SWAT hydrologic model
Modeling Earth Systems and Environment,
2017
DOI:10.1007/s40808-017-0383-z
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[34]
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Hydrological Responses to Land Use/Cover Changes in the Olifants Basin, South Africa
Water,
2016
DOI:10.3390/w8120588
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[35]
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Hydrological Responses to Land Use/Cover Changes in the Olifants Basin, South Africa
Water,
2016
DOI:10.3390/w8120588
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