Add to ORKGLotic ecosystems respond to modified flow regimes through changes in physical habitat availability, water chemistry and temperature, nutrient cycling, biomass/energy relationships, and the population and community dynamics of aquatic biota. A systems perspective is therefore essential in understanding flow-related impacts and in making water management decisions. More retrospective studies and experimental management are needed to provide the necessary design information for environmentally sound hydropower development. The responsibility for these studies must be shared among developers, regulators, and natural resource managers
122 pagesThe role that environmental flows (e-flows) have in aquatic ecosystems can be explained by ...
Our ability as a society to responsibly manage water resources for both humans and the environment r...
The flow regime is a determinant of the ecological function and natural dynamics of a river system w...
Lotic ecosystems respond to modified flow regimes through changes in physical habitat availability, ...
The construction and operation of dams, reservoirs, hydropower plants, and water diversion infrastru...
Most rivers worldwide are highly regulated by anthropogenic activities through flow regulation and w...
The infrastructure that supports agricultural irrigation, domestic water supply and hydroelectric po...
Water quality describes the physicochemical characteristics of the water body. These vary naturally...
As an intersection between environmental (e.g. ecological continuity restoration) and societal (e.g....
We critically analyzed a set of ecological models that are used to assess the impact of hydropower d...
As we move into the twenty-first century, global economic prosperity is driving the consumption of e...
To enable prioritization among measures for ecological restoration, knowing the expected benefits an...
Rapid changes in flow below hydroelectric facilities result from peaking operations, where water is ...
Rivers and streams have suffered multiple transformations to attend the increasing water demands wor...
Applying the environmental flows concept to human-altered lotic ecosystems continues to face many pr...
122 pagesThe role that environmental flows (e-flows) have in aquatic ecosystems can be explained by ...
Our ability as a society to responsibly manage water resources for both humans and the environment r...
The flow regime is a determinant of the ecological function and natural dynamics of a river system w...
Lotic ecosystems respond to modified flow regimes through changes in physical habitat availability, ...
The construction and operation of dams, reservoirs, hydropower plants, and water diversion infrastru...
Most rivers worldwide are highly regulated by anthropogenic activities through flow regulation and w...
The infrastructure that supports agricultural irrigation, domestic water supply and hydroelectric po...
Water quality describes the physicochemical characteristics of the water body. These vary naturally...
As an intersection between environmental (e.g. ecological continuity restoration) and societal (e.g....
We critically analyzed a set of ecological models that are used to assess the impact of hydropower d...
As we move into the twenty-first century, global economic prosperity is driving the consumption of e...
To enable prioritization among measures for ecological restoration, knowing the expected benefits an...
Rapid changes in flow below hydroelectric facilities result from peaking operations, where water is ...
Rivers and streams have suffered multiple transformations to attend the increasing water demands wor...
Applying the environmental flows concept to human-altered lotic ecosystems continues to face many pr...
122 pagesThe role that environmental flows (e-flows) have in aquatic ecosystems can be explained by ...
Our ability as a society to responsibly manage water resources for both humans and the environment r...
The flow regime is a determinant of the ecological function and natural dynamics of a river system w...