Future changes in snowpack will impact seasonal runoff and low flows in Czechia

Study Region: Central Europe, Czechia. Study Focus: Mountains are referred to as water towers because they substantially affect the hydrology of downstream areas. However, snow storages will decrease in the future due to the increase in air temperature which will affect streamflow regime. Main objectives of this study were 1) to simulate the future changes in snow for a large set of mountain catchments in Czechia, reflecting a wide range of climate projections and 2) to analyse how the snow changes will affect groundwater recharge, streamflow seasonality and low flows in the future. New Hydrological Insights: The future hydrological projections showed a decrease in annual maximum SWE by 30 %-70 % in the study area until the end of the 21st century. Additionally, snowmelt was found to occur on average 3-4 weeks earlier. The results showed the large variability between individual climate chains and indicated that the increase in air temperature causing the decrease in snowfall might be partly compensated by the increase in winter precipitation. Changes in snowpack will cause the highest streamflow during melting season to occur one month earlier, in addition to lower spring runoff volumes due to lower snowmelt inputs. The future climate projections leading to overall dry conditions in summer are associated with both the lowest summer precipitation and seasonal snowpack. The expected lower snow storages might therefore contribute to more extreme low flow periods.

Automated summary

The study in Central Europe, Czechia focused on the impact of future snow changes on hydrology, projecting a decrease in annual maximum snow water equivalent by 30%-70% and an average 3-4 week earlier snowmelt. The decrease in snowpack will lead to earlier peak streamflow during melting season and lower spring runoff volumes. Future climate projections also suggest overall dry conditions in summer are associated with the lowest summer precipitation and reduced seasonal snowpack.