Litcius/Paper detail

The role of internal climate variability on future streamflow projections

Mina Faghih, François Brissette

2023Journal of Hydrology17 citationsDOIOpen Access PDF

Abstract

Uncertainty about the future impacts of climate change represents a significant barrier to implementing adaptation measures. This work explores the impact of internal climate variability on streamflow projections for 133 catchments across the eastern and northeastern United States. Using data from a single model initial-condition large ensemble (SMILE) at high spatial and temporal resolution, this work assesses the magnitude of anthropogenic climate change and internal climate variability on projected future streamflow. The impact of catchment size is studied by grouping catchments into three different size classes (less than500 km 2 , between 500 and 1000 km 2 , and greater than 1000 km 2 ). Results show that in a warmer climate, low to middle quantiles of future streamflow will systematically decrease, while the upper quantiles will increase. Increases are largest for more extreme streamflow indices. Using three different approaches, the role of internal variability is studied to estimate the time of emergence (TOE). In this case, results show that the climate change signal of extreme floods and droughts emerges later than that of median flow quantiles, even though the changes for floods as droughts is more significant. There is a clear relationship between catchment size and TOE, with small catchments seeing an earlier TOE for floods, and a later one for droughts. These results provide insight into adaptation times for small to large watersheds.

Topics & Concepts

StreamflowQuantileClimate changeEnvironmental scienceClimatologyDrainage basinDownscalingGeographyGeologyStatisticsOceanographyMathematicsCartographyHydrology and Watershed Management StudiesHydrology and Drought AnalysisClimate variability and models