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Fischer, J. R., and M. C. Quist. In review. Understanding fish assemblage structure in lentic ecosystems: relative effects of abiotic factors and management legacies. Lake and Reservoir Management.

Abstract

Reservoirs are often managed similar to natural lakes because they are assumed to be functionally comparable. However, direct comparisons of fish assemblage-environment relationships between these two ecosystems are rare. We investigated associations of fish assemblage structure from 45 natural lakes and reservoirs in Iowa, USA. Fish sampling was conducted with benthic trawls in summer in conjunction with modified-fyke nets and night electrofishing in fall to characterize lentic fish assemblages and reduce gear selectivity. High species diversity in reservoirs was most strongly related to morphometric characteristics (i.e., larger surface area, increased depth); whereas, fewer species were observed in natural lakes with low water clarity and high suspended solids. Fish assemblage structure between natural lakes and reservoirs was consistently dissimilar for all sampling methods. Structuring of species composition in reservoirs was correlated with a variety of limnological and physical characteristics, but was inconsistent among sampling methods. In contrast, trophic structure of fishes in reservoirs was weakly associated with the environmental factors and was similar to taxonomic structure of fish in natural lakes. Fish trophic composition of natural lakes was most strongly related to waterbody size. Overall, distinct differences in fish assemblage structure were observed between natural and artificial lentic ecosystems. Differences were likely the result of dissimilar management activities (e.g., rotenone, stocking) between waterbody types that had overriding effects on assemblage-habitat relationships. Our results emphasize the need to consider waterbody origin and management legacies on fish assemblage characterization and subsequent inferences made from environmental correlations.

 

Current Staff

Federal Staff: 3

Masters Students: 6

Phd Students: 3

Post Docs: 0

University Staff: 4

5 Year Summary

Students graduated: 25

Scientific Publications: 80

Presentations: 237

 

Status

Submitted
October (4th Quarter/Autumn) 2014

Unit Authors

Idaho Cooperative Fish and Wildlife Research Unit Cooperators

  1. Idaho Department of Fish and Game
  2. U.S. Fish and Wildlife Service
  3. U.S. Geological Survey
  4. University of Idaho
  5. Wildlife Management Institute