In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly respond to short-term changes in energy demand makes it an ideal source to meet the needs of the deregulated energy market. This economic need is reflected in the temporal patterns of dam operations with consequences for the water bodies that receive downstream releases in the form of ‘hydropeaking’, typically consisting of sharp water releases in river reaches below dams. The unsteadiness related to this highly intermittent phenomenon has cascading effects on both biotic and abiotic river resources. Regulation by dams may also significantly affect the thermal regime of riversespecially in mountain areas, where releases from high-elevation reserv...
Daily changes in physical and chemical water parameters (i.e., ecopeaking) can arise seasonally in n...
The assessment of the ecological impacts of anthropic alteration of stream ecosystems is often diffi...
Within the past 30 years there have been two major heatwave events (in 2003 and 2006) that broke 500...
In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly resp...
Rivers downstream of the water release point from hydropower plants often exhibit rapidly fluctuatin...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e., hydropeaking) can caus...
Hydropower represents a primary and strategic renewable energy source in the Alps and, more in gener...
Sudden instream releases of hypolimnetic water from hydropower plants [i.e. hydropeaking (HP)] can c...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e. hydropeaking) can cause ...
The relationships between discharge alterations due to the intermittent discharge of turbinated wate...
Repeated hydropeaking events characterize most alpine rivers downstream of power plants fed by high ...
In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed ...
Daily changes in physical and chemical water parameters (i.e., ecopeaking) can arise seasonally in n...
The assessment of the ecological impacts of anthropic alteration of stream ecosystems is often diffi...
Within the past 30 years there have been two major heatwave events (in 2003 and 2006) that broke 500...
In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly resp...
Rivers downstream of the water release point from hydropower plants often exhibit rapidly fluctuatin...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e., hydropeaking) can caus...
Hydropower represents a primary and strategic renewable energy source in the Alps and, more in gener...
Sudden instream releases of hypolimnetic water from hydropower plants [i.e. hydropeaking (HP)] can c...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e. hydropeaking) can cause ...
The relationships between discharge alterations due to the intermittent discharge of turbinated wate...
Repeated hydropeaking events characterize most alpine rivers downstream of power plants fed by high ...
In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed ...
Daily changes in physical and chemical water parameters (i.e., ecopeaking) can arise seasonally in n...
The assessment of the ecological impacts of anthropic alteration of stream ecosystems is often diffi...
Within the past 30 years there have been two major heatwave events (in 2003 and 2006) that broke 500...