1. Relevance and Scale Dependence of Hydrological Changes in Glacierized Catchments: Insights from Historical Data Series in the Eastern Italian Alps
- Author
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Paola Bonato, Giancarlo Dalla Fontana, Luca Carturan, Fabrizio de Blasi, Federico Cazorzi, Marco Borga, and Davide Zoccatelli
- Subjects
lcsh:Hydraulic engineering ,010504 meteorology & atmospheric sciences ,alpine watersheds ,Geography, Planning and Development ,0207 environmental engineering ,Climate change ,02 engineering and technology ,Data series ,Aquatic Science ,01 natural sciences ,Biochemistry ,historical data series ,Alpine watersheds ,Glacier runoff change ,Glacio-hydrological modeling ,Historical data series ,Italian Alps ,Water Science and Technology ,lcsh:Water supply for domestic and industrial purposes ,lcsh:TC1-978 ,Glacial period ,020701 environmental engineering ,0105 earth and related environmental sciences ,Planning and Development ,lcsh:TD201-500 ,geography ,geography.geographical_feature_category ,Geography ,Glacier ,glacier runoff change ,Current (stream) ,climate change ,glacio-hydrological modeling ,Environmental science ,Catchment area ,Physical geography ,Scale (map) ,Surface runoff - Abstract
Glaciers have an important hydrological buffering effect, but their current rapid reduction raises concerns about future water availability and management. This work presents a hydrological sensitivity analysis to different climatic and glacier cover conditions, carried out over four catchments with area between 8 and 1050 km2, and with glacierization between 2% and 70%, in the Italian Alps. The analysis is based on past observations, and exploits a unique dataset of glacier change and hydro-meteorological data. The working approach is aimed at avoiding uncertainties typical of future runoff projections in glacierized catchments. The results highlight a transition from glacial to nival hydrological regime, with the highest impacts in August runoff over smaller catchments. The buffering effect of current glaciers has largely decreased if compared to the Little Ice Age, up to 75% for larger catchments, but it is still important during warm and dry summers like 2003. We confirm a non-linear relationship between glacier contribution in late summer and catchment area/percent glacierization. The peak in runoff attributable to glacier melt, expected in the next 2&ndash, 3 decades on highly glacierized alpine catchments, has already passed in the study area.
- Published
- 2019