Add to ORKGHydropeaking is well known for its direct, physical impact on river systems through the effect of scour causing catastrophic drift in aquatic communities. Moreover, river regulation with daily hydropeaking may persistently alter periphyton abundance and nutritional quality (e.g. nutrient ratios and essential fatty acids) compared to reference conditions, resulting in an indirect and potentially overlooked limiting effect on the aquatic communities in hydropower-impacted streams. Periphyton nutritional quality, especially fatty acids, have been suggested to be a fundamental limiting resource in aquatic systems, and have been demonstrated to be an important control on consumer growth rates, energy assimilation, reproduction, and other ...
Hydroelectric dams represent an ever-growing portion of the global energy grid, and the number of op...
Anthropogenic altered flow regimes and nutrient enrichment can cause significant impacts on stream ...
To evaluate the effects of water velocity and artificial substratum characteristics on the growth ra...
Hydropeaking is well known for its direct, physical impact on river systems through the effect of s...
Hydropeaking has been shown to limit secondary production, most notably by causing catastrophic drif...
The daily fluctuating discharge from hydroelectric power plants, known as hydropeaking, has been sho...
We assessed the effect of a hydropeaking diversion mitigation measure that allows for additional hyd...
Hydropeaking has negative effects on aquatic biota, but the causal relationships have not been studi...
We investigated the ecohydraulic effects of a recently implemented hydropeaking mitigation measure i...
Climate change asks for the reduction in the consumption of fossil-based fuels and an increased shar...
We investigated the effects of an experimental flood regime on periphyton and stream metabolism down...
Responses of stream algal biomass to nutrient enrichment were studied in two regions where differenc...
Agricultural inputs of nitrogen (N) and phosphorus (P) to aquatic ecosystems stimulate the growth of...
Abstract – We studied the role of nutrients on various aspects of the periphyton community in artifi...
Field ecology has generally focussed on the quantification of patterns in the distribution of biota ...
Hydroelectric dams represent an ever-growing portion of the global energy grid, and the number of op...
Anthropogenic altered flow regimes and nutrient enrichment can cause significant impacts on stream ...
To evaluate the effects of water velocity and artificial substratum characteristics on the growth ra...
Hydropeaking is well known for its direct, physical impact on river systems through the effect of s...
Hydropeaking has been shown to limit secondary production, most notably by causing catastrophic drif...
The daily fluctuating discharge from hydroelectric power plants, known as hydropeaking, has been sho...
We assessed the effect of a hydropeaking diversion mitigation measure that allows for additional hyd...
Hydropeaking has negative effects on aquatic biota, but the causal relationships have not been studi...
We investigated the ecohydraulic effects of a recently implemented hydropeaking mitigation measure i...
Climate change asks for the reduction in the consumption of fossil-based fuels and an increased shar...
We investigated the effects of an experimental flood regime on periphyton and stream metabolism down...
Responses of stream algal biomass to nutrient enrichment were studied in two regions where differenc...
Agricultural inputs of nitrogen (N) and phosphorus (P) to aquatic ecosystems stimulate the growth of...
Abstract – We studied the role of nutrients on various aspects of the periphyton community in artifi...
Field ecology has generally focussed on the quantification of patterns in the distribution of biota ...
Hydroelectric dams represent an ever-growing portion of the global energy grid, and the number of op...
Anthropogenic altered flow regimes and nutrient enrichment can cause significant impacts on stream ...
To evaluate the effects of water velocity and artificial substratum characteristics on the growth ra...