Browsing by Autor "Anne Gobin"

Now showing 1 - 2 of 2

Impacts of climate change on the hydropower potential of a multipurpose storage system project in Bolivian Andes
(Elsevier BV, 2025) I. Flores; Santiago Mendoza Paz; Mauricio Villazón; Patrick Willems; Anne Gobin
Andean Region, Bolivia. Rositas is a multipurpose storage system designed to enhance hydropower generation, agricultural production, and flood mitigation downstream in the Rio Grande basin. This study evaluates the climate resilience of the project by analysing changes in its hydropower potential. Using regional climate models from the Coordinated Regional Climate Downscaling Experiment (CORDEX) for the near (2040–2069) and far (2070–2099) future, river flow impacts were analysed under three future scenarios (RCP 2.6, 4.5, 8.5). K-means clustering was applied to 101 stations with similar climatic features to perform statistical downscaling (quantile perturbation, and delta change) at the catchment scale. The hydrological models SWAT+ and HEC-HMS were used to estimate changes in water availability and hydropower potential. Projections indicate that river discharges will increase in the wet season and decrease in the dry season, exacerbating severity of droughts. While annual hydropower potential increases by up to 11 % in the near future and 9 % for the far future, seasonal variations are significant. Energy potential decreases by up to 30 % in June to September but increases by up to 25 % in November to February. Calibration focused on seasonal transitions enhances analysis, since hydrological models significantly contribute to uncertainty. These results highlight climate risks faced by the Rositas project and the need for adaptative water management strategies to mitigate potential water conflicts. • Climate change impacts water availability and hydropower potential. • K-means clustering identified climate patterns. • Statistical downscaling was applied to an ensemble of six RCMs. • Model calibration should focus more on seasonal transitions. • Dry season hydropower potential is projected to decrease in the Rositas project.
Understanding the water-ecosystem nexus in the Inter-Andean region of Bolivia – a synergistic, historical and complex connection
(2026) I. Flores; Santiago Mendoza Paz; Andres Saul Gonzales Amaya; Mauricio Florencio Villazon Gomez; Santiago Núñez Mejía; Patrick Willems; Anne Gobin
Climate change poses a major threat to vulnerable regions, necessitating the development of adaptive strategies to ensure a sustainable future. To achieve sustainability, a deeper understanding of ecosystems and their nexus with climate is needed. Moreover, the interconnection between mountains and valleys demonstrate the synergies of water services in these two zones. Mountain regions, which function as critical water sources for downstream users, are particularly vulnerable and should be prioritized in adaptation strategies. These areas play a central role in water production, storage, and distribution, rendering their resilience essential for regional sustainable water management. Remote sensing products, such as MODIS and GMET, provide valuable tools for monitoring ecosystem dynamics and their interconnection with climatic variables. Precipitation emerges as the key driver influencing ecosystem responses. Our analysis reveals that vegetation indicators, NDVI and EVI, exhibit a lag by approximately one month in response to changes in precipitation. Seasonal-Trend decomposition (STL) confirms a strong correlation in the trend component: wet events typically trigger ecosystem responses after about one month. Furthermore, both wet and dry extreme events, significantly influence ecosystem development and their capacity to deliver services. Climate change scenarios indicate that future extremes will predominantly be wet rather than dry. This suggests an increase in the frequency and intensity of precipitation events by 2050, raising the risk of flooding and associated socio-ecological challenges. Such extremes can disrupt vegetation dynamics in EVI and NDVI indicators which may reflect a reduction in plant productivity and altering the dynamics of ecosystem services. Understanding these dynamics is crucial for designing resilient integrated water and ecosystem management strategies that safeguard both human and environmental well-being in the Inter - Andean region of Bolivia.