Integrated Modeling of RMS Impacts: Hydrological Processes, and Water Resources Modeling Team: IWMI (Charlotte, Solomon) Cornell (Tamo, Dan, Zack) SEI.

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Presentation transcript:

Integrated Modeling of RMS Impacts: Hydrological Processes, and Water Resources Modeling Team: IWMI (Charlotte, Solomon) Cornell (Tamo, Dan, Zack) SEI (David, Paco) BDU (Seifu, Esaya) NBI (Mekuria, Yesuf, Solomon)

Objectives 1.Assess integrated biophysical impacts of RMS practices and large-scale developments on water availability, sediment load (and groundwater recharge) 2.Device mechanisms of incorporating RMS practices into basin IWRM planning 3.Investigate up- and out-scaling options of RMS practices using sustainability criteria of satisfying downstream requirements

Framework Watersheds Sub-basins Abay Basin SWAT Model Climate Soil LU TI WEAP Model RMS Scenarios L-S Dev’t Scenarios Impact Evaluation Large dams and River Junctions

WEAP Modeling  Large-scale development interventions (practices): −Water control and storage infrastructures −Irrigation schemes −Hydropower plants −Environmental flows  Improved schematization for SWAT-WEAP linkages  SEI provided first feedback on the WEAP setup  Scenario definition (development + RMS) ?

WEAP Schematization Dams / Reservoirs Irrigation demands River Networks

SWAT-WEAP Interface SWAT sub-catchments Dams / Reservoirs Irrigation demands River Networks

SWAT Modeling  SWAT initialized based on WEAP requirements and flow data availability  Landuse, soil and climate data improved  Variable sources area (VSA) concept implemented using TI  GIS Tool developed for the Soil-TI derivation  Calibration and RMS scenarios

SWAT Sub-basins +

Landuse Map for SWAT

UBN SWAT Landuse Map

Soil Map for SWAT

Soil-Topography Dynamics (1)

Soil-Topography Dynamics (2)

Topography-Soil Map

Climate Data

Rainfall Vegetation Land Surface Water Body Soil Aquifer Stream Canopy Evaporation Soil Evaporation Evaporation Transpiration Watershed discharge Baseflow Overland flow Interflow Percolation Throughfall Infiltration Capillary Rise Unproductive water use TARGET/Productive water use Transfers Minimize: Maximize: Optimize: RMS Impacts on Runoff Processes

SWAT Scheduled Management Operations CodePracticeOperation 1TerracingSimulates a terrace to the HRU 2Tile drainageSimulates a tile to the HRU 3ContouringSimulates a contour to the HRU 4Filter stripSimulates a vegetative filter strip to the HRU 5Strip croppingSimulates strip cropping to the HRU 6fireSimulates fire to the HRU 7Grassed waterwaySimulates grassed waterways to the HRU 8Plant parameterUpdates crop parameters to the HRU

SWAT Management Operations

SWAT Calibration GRID CODE Outlet UBN Subbasins Watershed Subbasins 1Megech_nr_Azezo_Stn11 3 UpRibb_on_DebreTaborRoad_S tn 33 4Gumara_nr_BahirDar_Stn44 7Andassa_nr_BahirDar_Stn71 8GilgelAbbay_nr_Merawi_Stn86 9Koga_at_Merawi_Stn97 12GilgelBeles_nr_Mandura_Stn121 17Birr_nr_Jiga_Stn171 19LowerFettam_at_Galebed_Stn191 31Robi_Gumero_nr_Lemi_Stn311 33Neshi_nr_Shambu331 37Aleltu_at_Nedjo_Stn371 43Mugher_nr_Chancho_Stn431 44Debis_at_Guder_Stn442 46Bello_nr_Guder_Stn463 2Ribb_nr_AddisZemen_Stn22 11MainBeles_at_Bridge_Stn Angar_nr_Nekemte_Stn Didesa_nr_Arjo_Stn Abbay_at_BhirDar_Stn65 23Abbay_nr_Kessie_Stn Abbay_at_SudanBorder_Stn

Outlook Finalize SWAT Calibration and SWAT-WEAP interactions for baseline scenarios Develop scenarios of RMS practices and large-scale developements Implement RMS Scenarios in SWAT and large-scale development scenarios in WEAP Evaluate RMS impacts using WEAP and SWAT outputs