Litcius/Paper detail

Efficient approach for impact analysis of land cover changes on hydrological extremes by means of a lumped conceptual model

Jan De Niel, A. Vermeir, Quoc Quan Tran, Sotirios Moustakas, Patrick Willems

2020Journal of Hydrology Regional Studies21 citationsDOIOpen Access PDF

Abstract

Belgium, Flanders, Grote Nete and Zuunbeek catchments. The focus of this study is the development and subsequent application of a computationally-efficient framework for parsimonious hydrological models to simulate impact of land cover changes. The framework was applied to the NAM conceptual model, considering the disaggregation approach by Tran et al. (2018), and urban development scenarios for the study region for 2050. Considering the urban development scenarios for 2050, an intensification of the hydrological extremes was found. On average, 10 % increase in urbanization causes an increase in river peak flows of about 3 %. Peak-flow changes by 2050 vary between +2 % to +14 % for the Grote Nete catchment, and between -2 % to +8 % for the Zuunbeek catchment. Low-flow changes vary in the range [-5 %, -1 %] and [-33 %, 10 %] for the Grote Nete and Zuunbeek catchments, respectively.

Topics & Concepts

Land coverCover (algebra)Environmental scienceConceptual modelHydrology (agriculture)Land useComputer scienceGeologyEngineeringCivil engineeringGeotechnical engineeringDatabaseMechanical engineeringHydrology and Watershed Management StudiesFlood Risk Assessment and ManagementCryospheric studies and observations