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Modeling Short-Term Landscape Modification and Sedimentary Budget Induced by Dam Removal: Insights from LEM Application

Dario Gioia, Marcello Schiattarella

2020Applied Sciences18 citationsDOIOpen Access PDF

Abstract

Simulation scenarios of sediment flux variation and topographic changes due to dam removal have been investigated in a reservoir catchment of the axial zone of southern Italy through the application of a landscape evolution model (i.e.,: the Caesar–Lisflood landscape evolution models, LEM). LEM simulation highlights that the abrupt change in base level due to dam removal induces a significant increase in erosion ability of main channels and a strong incision of the reservoir infill. Analysis of the sediment dynamics resulting from the dam removal highlights a significant increase of the total eroded volumes in the post dam scenario of a factor higher than 4. Model results also predict a strong modification of the longitudinal profile of main channels, which promoted fluvial incision upstream and downstream of the former reservoir area. Such a geomorphic response is in agreement with previous analysis of the fluvial system short-term response induced by base-level lowering, thus demonstrating the reliability of LEM-based analysis for solving open problems in applied geomorphology such as perturbations and short-term landscape modification natural processes or human impact.

Topics & Concepts

Sedimentary budgetFluvialInfillSediment transportGeologyHydrology (agriculture)SedimentGeomorphologyErosionDam removalEnvironmental scienceTerm (time)Sedimentary rockGeotechnical engineeringStructural basinEcologyGeochemistryPhysicsQuantum mechanicsBiologyHydrology and Sediment Transport ProcessesSoil erosion and sediment transportHydrology and Watershed Management Studies