Add to ORKGDeposition of fine sediment that fills interstitial spaces in streambed substrates is widely acknowledged to have significant negative effects on macroinvertebrate communities, but the temporal consistency of clogging effects is less well known. In this study the effects of experimentally enhanced fine sediment content on aquatic invertebrates were examined over 126 days in two lowland UK streams. Taxonomic approaches indicated significant differences in macroinvertebrate community structure associated with sediment treatment (clean or sedimented substrates), although the effects were variable on some occasions. The degree of separation between clean and sedimented communities was strong within 7 of the 9 sampling periods with significant d...
Excessive fine sediment (particles <2 mm) deposition in freshwater systems is a pervasive stressor w...
1. Detrimental impacts of excessive fine-grained sediment inputs to streams and rivers are well esta...
AbstractAnthropogenic modifications of sediment load can cause ecological degradation in stream and ...
The deposition of excess fine sediment and clogging of benthic substrates is recognised as a global ...
Globally, excessive fine sediment (particles <2 mm) deposition is acknowledged to have deleterious e...
Excessive inputs of fine‐grained sediment can damage aquatic ecosystems both by degrading habitat co...
Excessive inputs of fine‐grained sediment can damage aquatic ecosystems both by degrading habitat co...
Fine sediment in streams and rivers is one of the most globally widespread of all freshwater polluta...
AbstractThe influence of streambed sediment clogging on macroinvertebrate communities was investigat...
Fine sediment is one of the major sources of stream physical and ecological impairment worldwide. We...
Agricultural development has resulted in the degradation of freshwater ecosystems worldwide. Disenta...
The amount of fine sediment entering river systems has increased dramatically in the last century a...
1. Anthropogenic activities can increase fine sediment supply to streams over multiple spatial and t...
Excess fine sediment negatively influences the fauna of North American streams. With the current emp...
Abstract Ensuring the provision of essential ecosystem services in systems affected by multiple stre...
Excessive fine sediment (particles <2 mm) deposition in freshwater systems is a pervasive stressor w...
1. Detrimental impacts of excessive fine-grained sediment inputs to streams and rivers are well esta...
AbstractAnthropogenic modifications of sediment load can cause ecological degradation in stream and ...
The deposition of excess fine sediment and clogging of benthic substrates is recognised as a global ...
Globally, excessive fine sediment (particles <2 mm) deposition is acknowledged to have deleterious e...
Excessive inputs of fine‐grained sediment can damage aquatic ecosystems both by degrading habitat co...
Excessive inputs of fine‐grained sediment can damage aquatic ecosystems both by degrading habitat co...
Fine sediment in streams and rivers is one of the most globally widespread of all freshwater polluta...
AbstractThe influence of streambed sediment clogging on macroinvertebrate communities was investigat...
Fine sediment is one of the major sources of stream physical and ecological impairment worldwide. We...
Agricultural development has resulted in the degradation of freshwater ecosystems worldwide. Disenta...
The amount of fine sediment entering river systems has increased dramatically in the last century a...
1. Anthropogenic activities can increase fine sediment supply to streams over multiple spatial and t...
Excess fine sediment negatively influences the fauna of North American streams. With the current emp...
Abstract Ensuring the provision of essential ecosystem services in systems affected by multiple stre...
Excessive fine sediment (particles <2 mm) deposition in freshwater systems is a pervasive stressor w...
1. Detrimental impacts of excessive fine-grained sediment inputs to streams and rivers are well esta...
AbstractAnthropogenic modifications of sediment load can cause ecological degradation in stream and ...