Thermal stratification of Portuguese reservoirs: potential impact of extreme climate scenarios

• Published in: Journal of water and climate change Vol. 6; no. 3; pp. 544 - 560
• Main Authors: Almeida, Manuel C., Coelho, Pedro S., Rodrigues, António C., Diogo, Paulo A., Maurício, Rita, Cardoso, Rita M., Soares, Pedro M.
• Format: Journal Article
• Language: English
• Published: London IWA Publishing 01.09.2015
• Subjects: 21st century; Climate; Climate change; Climate models; Climatic extremes; Computational fluid dynamics; Computer simulation; Density stratification; Dynamics; Ecosystems; Fluid flow; Future climates; Hydrodynamics; Hydroelectric power; Hydrologic models; Hydrologic regime; Hydrology; Inflow; Intergovernmental Panel on Climate Change; Irrigation; Irrigation water; Precipitation; Rainfall-runoff relationships; Regional analysis; Regional climate models; Regional climates; Reservoirs; Runoff; Simulation; Stratification; Temperature anomalies; Temperature effects; Thermal stratification; Volume transport; Water inflow; Water quality; Water stratification; Water supply; Water temperature; Europe; ANE, Europe
• ISSN: 2040-2244; 2408-9354
• DOI: 10.2166/wcc.2015.071

Changes in water temperature and stratification dynamics can have a significant effect on hydrodynamics and water quality in reservoirs. Therefore, to assess future climate impacts, projections of three regional climate models for Europe, under the IPCC A1B emission scenario (2081–2100), were used with the CE-QUAL-W2 water quality model to evaluate changes in the thermal regime of 24 Portuguese reservoirs, representing different geographic regions, morphologies, volumes and hydrological regimes. Simulation results were compared with reference simulations for the period 1989–2008 and changes in water temperature and thermal stratification characteristics were evaluated. Future inflow scenarios were estimated from precipitation-runoff non-linear correlations and outflows were estimated considering present water uses, including hydropower, water supply and irrigation. Results suggest a significant increment in the mean water temperature of the reservoirs for the entire water volume and at water surface of 2.3 and 2.5 °C, respectively, associated with a runoff reduction of approximately 23%. Overall, variations in annual stratification patterns are characterized by changes in the mean annual length of stratification anomaly that ranged from −21 to +39 days. Results also show the influence of depth and volume over the reservoir's temperature anomaly, highlighting the importance of future water uses and operation rule curves optimization for reservoirs.