In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed by an Alpine stream (Fersina stream, left tributary to the Adige River, Trentino, Italy), where benthic invertebrates can freely colonize the flumes by downstream drift and egg deposition. We simulated a repetition of 5 daily hydropeaking events, lasting approximately 6 hours, of different intensities. We collected benthic samples before and after the set of simulations to determine changes in the benthic communities due to the depletive effect of repeated hydropeaking inducing the massive drift of invertebrates. During each simulation, we collected drifting organisms at short time intervals. We observed: 1) a strong increase in drift duri...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e., hydropeaking) can caus...
The Italian Alps feed a large number of reservoirs for hydropower production, which are losing stora...
Die vorliegende Arbeit wurde im Rahmen des Masterstudiums “Water management and environmental engine...
In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed ...
Repeated hydropeaking events characterize most alpine rivers downstream of power plants fed by high ...
We assessed the effects of repeated hydropeaking over five consecutive days on the zoobenthic commun...
The relationships between discharge alterations due to the intermittent discharge of turbinated wate...
AbstractThe impact of a single hydropeaking event was studied in the Alpine stream Noce Bianco. Four...
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 (HP)] can c...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e. hydropeaking) can cause ...
In earlier studies, changes have been detected in the composition of the lotic benthic macroinverteb...
In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly resp...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e., hydropeaking) can caus...
The Italian Alps feed a large number of reservoirs for hydropower production, which are losing stora...
Die vorliegende Arbeit wurde im Rahmen des Masterstudiums “Water management and environmental engine...
In late summer 2013, we conducted a set of controlled simulations in five steel flumes directly fed ...
Repeated hydropeaking events characterize most alpine rivers downstream of power plants fed by high ...
We assessed the effects of repeated hydropeaking over five consecutive days on the zoobenthic commun...
The relationships between discharge alterations due to the intermittent discharge of turbinated wate...
AbstractThe impact of a single hydropeaking event was studied in the Alpine stream Noce Bianco. Four...
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 (HP)] can c...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e. hydropeaking) can cause ...
In earlier studies, changes have been detected in the composition of the lotic benthic macroinverteb...
In Alpine regions, hydroelectricity generation is a key power source and its ability to quickly resp...
Sudden instream releases of hypolimnetic water from hydropower plants (i.e., hydropeaking) can caus...
The Italian Alps feed a large number of reservoirs for hydropower production, which are losing stora...
Die vorliegende Arbeit wurde im Rahmen des Masterstudiums “Water management and environmental engine...