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Impact model: SWAT-VUB

Sector
Water (regional)
Region
regional

SWAT is one of the 15 regional hydrology models following the ISIMIP2a protocol which form the base of simulations for the ISIMIP2a regional water sector outputs; for a full technical description of the ISIMIP2a Simulation Data from Water (regional) Sector, see this DOI link: http://doi.org/10.5880/PIK.2018.007

Information for the model SWAT-VUB is provided for the simulation rounds shown in the tabs below. Click on the appropriate tab to get the information for the simulation round you are interested in.

Person responsible for model simulations in this simulation round
Celray James Chawanda: celray.chawanda@vub.be, Vrije Universiteit Brussel (Belgium)
Aklilu Dinkneh: aklilu.dinkneh.teklesadik@vub.ac.be, Vrije Universiteit Brussel (Belgium)
Sandhya Rao: sandhya.mrigasira@gmail.com, Indian Institute of Technology Delhi, India (India)
Output Data
Experiments: II, III
Climate Drivers: None
Date: 2017-10-16
Basic information
Model Output License: CC0
Simulation Round Specific Description: Data in embargo period: not yet publicly available, but currently only shared among the ISIMIP participants
Person responsible for model simulations in this simulation round
Tadesse Alemayehu: tade.alex@gmail.com, 0000-0002-7868-2780, Vrije Universiteit Brussel (Belgium)
Aklilu Dinkneh: aklilu.dinkneh.teklesadik@vub.ac.be, Vrije Universiteit Brussel (Belgium)
Sandhya Rao: sandhya.mrigasira@gmail.com, Indian Institute of Technology Delhi, India (India)
Raghavan Srinivasan: r-srinivasan@tamu.edu, Texas A&M University (USA)
Martin Volk: martin.volk@ufz.de, 0000-0003-0064-8133, Helmholtz Centre for Environmental Research GmbH (Germany)
Ann van Griensven: ann.vangriensven@gmail.com, 0000-0002-2105-6287, Vrije Universiteit Brussel, Belgium (Belgium)
Additional persons involved: Aklilu Teklesadik
Output Data
Experiments: historical (Blue Nile)
Climate Drivers: None
Date: 2017-02-20
Basic information
Model Version: SWATV637
Reference Paper: Main Reference: Arnold J, Srinivasan R, Muttiah R, Williams J et al. LARGE AREA HYDROLOGIC MODELING AND ASSESSMENT PART I: MODEL DEVELOPMENT. Journal of the American Water Resources Association,34,73-89,2007
Reference Paper: Other References:
Resolution
Spatial aggregation: subbasins
Horizontal resolution: subbasins
Temporal resolution of input data: climate variables: Daily
Temporal resolution of input data: co2: 30 years
Temporal resolution of input data: land use/land cover: constant
Temporal resolution of input data: soil: constant
Input data
Observed atmospheric climate data sets used: GSWP3, PGMFD v2.1 (Princeton), WATCH (WFD), WATCH-WFDEI
Climate variables: tasmax, tasmin, wind, rhs, pr
Spin-up
Was a spin-up performed?: Yes
Natural Vegetation
Natural vegetation partition: Static Landuse
Management & Adaptation Measures
Management: Management for agriculture crop (Irrigation and fertilization, both at auto)
Extreme Events & Disturbances
Key challenges: Outputs are at daily time step (as the inputs), therefore reproducing flood extreme may not be meaningful
Additional comments: Elevation bands (10 bands) was used and Temperature lapse and precipitation lapse rate were used
Methods
Potential evapotranspiration: Penman-Monteith, Hargreaves, Priestely-Talyor
Snow melt: Degree-day method
Routing
Runoff routing: Muskingum method




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