Add to ORKGReducing phosphorus (P) loading to rivers is seen as a key mitigation measure to improve aquatic ecology and control excessive algal growth because P is widely assumed to be the limiting nutrient in most rivers. Nutrient enrichment experiments using within-river flume mesocosms were conducted in the oligotrophic River Rede to determine how periphyton accrual was affected by increasing P concentrations. Increasing the soluble reactive phosphorus (SRP) concentration from the ambient concentration of 15 µg L−1 to concentrations ranging from 30 to 130 µg L−1 had no significant effect of periphyton growth rate, demonstrating that the periphyton was not P limited, even in this nutrient-poor river. At SRP concentrations >...
While vital for the survival of all organisms, nutrients can also pose a threat to aquatic life. S...
The species composition of benthic algae changes as water phosphorus concentrations increase, and th...
Primary productivity in aquatic systems relies on carbon (C), nitrogen (N), and phosphorus (P) avail...
The excessive growth of benthic algal biofilms in UK rivers is a widespread problem, resulting in lo...
Nutrient modification experiments were conducted in streamside flumes to determine the concentration...
Periphyton growth rate has been identified as the key process that leads to river eutrophication. Ef...
Soluble reactive phosphorus (SRP) concentrations in the River Thames, south east England, have signi...
<p>Soluble reactive phosphorus (SRP) concentrations in the River Thames, south east England, have si...
The purpose of this study was to experimentally evaluate the effects of nutrient ratios and nutrient...
Eastern England is mostly rural with extensive arable farming. It is one of the driest areas of the ...
The release of nutrients into aquatic ecosystems has been dramatically increasing over the past deca...
Periphyton (viz. algal) growth in many freshwater systems is associated with severe eutrophication t...
Increased concentrations of phosphorus (P) in riverine systems lead to eutrophication and can contri...
The concentration of dissolved organic matter (DOM) in freshwaters is increasing in large areas of t...
Phosphorus (P) is a limiting nutrient in freshwater systems and when present in runoff from agricult...
While vital for the survival of all organisms, nutrients can also pose a threat to aquatic life. S...
The species composition of benthic algae changes as water phosphorus concentrations increase, and th...
Primary productivity in aquatic systems relies on carbon (C), nitrogen (N), and phosphorus (P) avail...
The excessive growth of benthic algal biofilms in UK rivers is a widespread problem, resulting in lo...
Nutrient modification experiments were conducted in streamside flumes to determine the concentration...
Periphyton growth rate has been identified as the key process that leads to river eutrophication. Ef...
Soluble reactive phosphorus (SRP) concentrations in the River Thames, south east England, have signi...
<p>Soluble reactive phosphorus (SRP) concentrations in the River Thames, south east England, have si...
The purpose of this study was to experimentally evaluate the effects of nutrient ratios and nutrient...
Eastern England is mostly rural with extensive arable farming. It is one of the driest areas of the ...
The release of nutrients into aquatic ecosystems has been dramatically increasing over the past deca...
Periphyton (viz. algal) growth in many freshwater systems is associated with severe eutrophication t...
Increased concentrations of phosphorus (P) in riverine systems lead to eutrophication and can contri...
The concentration of dissolved organic matter (DOM) in freshwaters is increasing in large areas of t...
Phosphorus (P) is a limiting nutrient in freshwater systems and when present in runoff from agricult...
While vital for the survival of all organisms, nutrients can also pose a threat to aquatic life. S...
The species composition of benthic algae changes as water phosphorus concentrations increase, and th...
Primary productivity in aquatic systems relies on carbon (C), nitrogen (N), and phosphorus (P) avail...