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Impact of reservoir construction on the sediment budget of a downstream-linked freshwater lake

Hanibal Lemma, Jan Nyssen, Jean Poesen, Habtamu Assaye, Enyew Adgo, Amaury Frankl

2024Hydrological Sciences Journal5 citationsDOIOpen Access PDF

Abstract

We investigated the magnitude of reservoir sedimentation upstream and its sediment-shadow effect on a large downstream-linked lake, Lake Tana (Ethiopia). To better understand the reservoir-induced reductions of fluvial sediment downstream, sediment budgets for two scenarios were developed. The results indicated that reservoir sedimentation is extremely high, with annual storage capacity losses (1–4.2%) exceeding the global average. Consequently, unless mitigation measures are implemented, the reservoirs’ dead storage volume will be filled with sediment in less than 42% of their designed life expectancy. The sediment-trapping conditions created by the reservoirs will also reduce sediment inflow from tributaries into the lake by 15–52%, overbank sedimentation on floodplains by 33–48%, and sediment deposition in Lake Tana by 16–54% annually. Overall, under the current environmental set-up, the ongoing and planned reservoir constructions could extend the expected useful lifetime of Lake Tana from 918 to 2022 years.

Topics & Concepts

OverbankSedimentary budgetSedimentationSedimentHydrology (agriculture)TributaryEnvironmental scienceFluvialGeologyAggradationSediment transportInflowStructural basinGeomorphologyGeographyOceanographyGeotechnical engineeringCartographyAquatic Ecosystems and BiodiversityGroundwater and Watershed AnalysisSoil erosion and sediment transport
Impact of reservoir construction on the sediment budget of a downstream-linked freshwater lake | Litcius