Zaerpour, MasoudMasoudZaerpourPapalexiou, Simon MichaelSimon MichaelPapalexiouNazemi, AliAliNazemi2025-10-022025-10-022021-09-10Advances in Water Resources 156: 104037 (2021)https://hdl.handle.net/11420/57759Despite the existence of several stochastic streamflow generators, not much attention has been given to representing the impacts of large-scale climate indices on seasonal to interannual streamflow variability. By merging a formal predictor selection scheme with vine copulas, we propose a generic approach to explicitly incorporate large-scale climate indices in ensemble streamflow generation at single and multiple sites and in both short-term prediction and long-term projection modes. The proposed framework is applied at three headwater streams in the Oldman River Basin in southern Alberta, Canada. The results demonstrate higher skills than existing models both in terms of representing intra- and inter-annual variability, as well as accuracy and predictability of streamflow, particularly during high flow seasons. The proposed algorithm presents a globally relevant scheme for the stochastic streamflow generation, where the impacts of large-scale climate indices on streamflow variability across time and space are significant.en1872-96572021ElsevierAlgorithm development | Large-scale climate indices | Predictor selection | Stochastic streamflow generation | Streamflow variability | Vine copulasTechnology::600: TechnologyJournal Article10.1016/j.advwatres.2021.104037Journal Article