The biology and ecology of slimy sculpin: A recipe for effective environmental monitoring

The biology and ecology of slimy sculpin: A recipe for effective environmental monitoring

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Recently, the use of small-bodied fish Systematization of interaction between the customer and the contractor responsible for the overhaul work in environmental monitoring has increased, particularly within the Canadian environmental effects monitoring (EEM) and other adaptive programs.Although it is possible to measure changes with many small-bodied species, interpretation is often complicated by the absence of information on the biology and ecology of fish not of commercial, recreational, or traditional interest.Knowing and understanding the basic biology of these fishes aids in the sensitivity of study designs (i.e., ability to detect change) and the interpretation of all biological levels of responses (e.

g., cellular to community).The increased use of slimy sculpin (Cottus cognatus Richardson, 1836) in impact assessment Impacts of Leading Edge Pitting and Delamination on Aerodynamic Characteristics of Wind Turbine Blades under Shear Inflow studies in North America provides a considerable amount of information on life history aspects.The slimy sculpin has the most ubiquitous North American distribution among cottids but yet has a very small home range, thus integrating environmental conditions of localized areas.This paper describes aspects of slimy sculpin life cycle that affect collection efficiency and timing, and describes and provides data collected over more than 10 years of studies at more than 20 reference study sites.

This overview provides a functional and informative compilation to support adaptive environmental monitoring and provide a baseline for comparative ecological study.