The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patterns of regional diversity. However, such ecological gradients may be disrupted as a result of habitat fragmentation. We tested the hypothesis that coarse-scale anthropogenic disturbances such as upstream land use and proximity to reservoirs can alter ecological gradients, thus influencing instream habitat, headwater fish assemblage composition, and species turnover in the Little Tallahatchie River system in north-central Mississippi. To test this hypothesis, we calculated species turnover coefficients, ordinated samples, and examined the correlations between assemblage composition and environmental and anthropogenic variables. Assemblage comp...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
Abstract Biocomplexity is an emergent property of ecosystems that captures the interplay of structur...
In intermittent streams, hydrological variation is probably the single-most important factor affecti...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
Artificial fluctuations in streamflow have been documented to alter the composition andstructure of ...
Artificial fluctuations in streamflow have been documented to alter the composition andstructure of ...
Artificial fluctuations in streamflow have been documented to alter the composition andstructure of ...
Typified by their branching pattern, headwaters are numerically abundant as the density of these hab...
Interspersed inputs of wood and sediment bring about morphological change at confluences and the ext...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
Abstract Biocomplexity is an emergent property of ecosystems that captures the interplay of structur...
In intermittent streams, hydrological variation is probably the single-most important factor affecti...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
The spatial and hydrological properties of headwaters allow dendritic systems to contribute to patte...
Artificial fluctuations in streamflow have been documented to alter the composition andstructure of ...
Artificial fluctuations in streamflow have been documented to alter the composition andstructure of ...
Artificial fluctuations in streamflow have been documented to alter the composition andstructure of ...
Typified by their branching pattern, headwaters are numerically abundant as the density of these hab...
Interspersed inputs of wood and sediment bring about morphological change at confluences and the ext...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
River networks, seen as ecological corridors featuring connected and hierarchical dendritic landscap...
Abstract Biocomplexity is an emergent property of ecosystems that captures the interplay of structur...
In intermittent streams, hydrological variation is probably the single-most important factor affecti...