Add to ORKGAbstract.—Fish assemblages play a key role in stream ecosystems and are influenced by physical habitat. We analyzed fish assemblages and physical habitat at 93 randomly selected sites on second- through fifth-order wadeable Iowa streams to explore fish assemblage relationships with reach-scale physical habitat in this agriculturally dominated landscape. Sites were sampled using DC electrofishing and the wadeable streams physical habitat protocol of the U.S. Environmental Protection Agency’s Environmental Monitoring and Assessment Program. In all, 82 species were collected, with species richness at sites averaging 14. Over 80% of the sites had fish assemblages rated as fair (53%) or poor (32%) based on a fish index of biotic integrity (FIBI)...
Over 400 riprap grade control structures (GCSs) have been built in streams of westernIowa to reduce ...
The objective of this study was to determine the relationship between fish assemblage structure and ...
To effectively conserve and restore stream ecosystems, we need to better understand the distribution...
Fish assemblages play a key role in stream ecosystems and are influenced by physical habitat. We ana...
Abstract.—Iowa leads the nation in percentage of land area converted to cropland, with a result-ing ...
Fish assemblages play a key role in stream ecosystems, and play a crucial role in the assessment of ...
Iowa leads the nation in percentage of land area converted to cropland, with a resulting negative im...
Nonwadeable or large rivers are dynamic aquatic ecosystems capable supporting high fish biodiversity...
Landscapes in Iowa and other midwestern states have been profoundly altered by conversion of native ...
In the Midwestern United States, landscape and stream channel modification have caused habitat homog...
Comparisons were made of fish populations inhabiting 11 channelized and natural stream reaches in th...
Abstract.—The influence of land use and instream physical habitat on biotic condition of fish assemb...
Abstract.—Riparian buffers can improve stream water and habitat quality by reducing non-point-source...
Over 400 riprap grade control structures (GCSs) have been built in streams of westernIowa to reduce ...
Fish distributions and habitat relations have not been extensively studied in streams of Northern Gr...
Over 400 riprap grade control structures (GCSs) have been built in streams of westernIowa to reduce ...
The objective of this study was to determine the relationship between fish assemblage structure and ...
To effectively conserve and restore stream ecosystems, we need to better understand the distribution...
Fish assemblages play a key role in stream ecosystems and are influenced by physical habitat. We ana...
Abstract.—Iowa leads the nation in percentage of land area converted to cropland, with a result-ing ...
Fish assemblages play a key role in stream ecosystems, and play a crucial role in the assessment of ...
Iowa leads the nation in percentage of land area converted to cropland, with a resulting negative im...
Nonwadeable or large rivers are dynamic aquatic ecosystems capable supporting high fish biodiversity...
Landscapes in Iowa and other midwestern states have been profoundly altered by conversion of native ...
In the Midwestern United States, landscape and stream channel modification have caused habitat homog...
Comparisons were made of fish populations inhabiting 11 channelized and natural stream reaches in th...
Abstract.—The influence of land use and instream physical habitat on biotic condition of fish assemb...
Abstract.—Riparian buffers can improve stream water and habitat quality by reducing non-point-source...
Over 400 riprap grade control structures (GCSs) have been built in streams of westernIowa to reduce ...
Fish distributions and habitat relations have not been extensively studied in streams of Northern Gr...
Over 400 riprap grade control structures (GCSs) have been built in streams of westernIowa to reduce ...
The objective of this study was to determine the relationship between fish assemblage structure and ...
To effectively conserve and restore stream ecosystems, we need to better understand the distribution...