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Igor Paz, Bernard Willinger, Auguste Gires, Bianca Alves de Souza, Laurent Monier, Hervé Cardinal, Bruno Tisserand, Ioulia Tchiguirinskaia and Daniel Schertzer
Recent studies have highlighted the need for high resolution rainfall measurements for better modelling of urban and peri-urban catchment responses. In this work, we used a fully-distributed model called ?Multi-Hydro? to study small-scale rainfall variab...
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Suli Pan, Li Liu, Zhixu Bai and Yue-Ping Xu
This study presents an approach that integrates remote sensing evapotranspiration into multi-objective calibration (i.e., runoff and evapotranspiration) of a fully distributed hydrological model, namely a distributed hydrology?soil?vegetation model (DHSV...
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Min Luo, Fanhao Meng, Tie Liu, Yongchao Duan, Amaury Frankl, Alishir Kurban and Philippe De Maeyer
The effects of global climate change threaten the availability of water resources worldwide and modify their tempo-spatial pattern. Properly quantifying the possible effects of climate change on water resources under different hydrological models is a gr...
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Rui Daniel Pina, Susana Ochoa-Rodriguez, Nuno Eduardo Simões, Ana Mijic, Alfeu Sá Marques, Cedo Maksimovic
Pág. 1 - 20
Urban stormwater models can be semi-distributed (SD) or fully distributed (FD). SD models are based on subcatchment units with various land use types, where rainfall is applied and runoff volumes are estimated and routed. FD models are based on the two d...
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