Developing a toolkit for fish passage, ecological flow management and fish habitat works

• Published in: Journal of hydraulic research Vol. 43; no. 5; pp. 451 - 467
• Main Author: Katopodis, Christos
• Format: Journal Article
• Language: English
• Published: Delft Taylor & Francis 01.01.2005; International Association for Hydraulic Research
• Subjects: dam removal; Earth sciences; Earth, ocean, space; ecological flows; ecology; environmental flows; Exact sciences and technology; fish; fish habitat; fish migrations; fish passage; fish screens; fisheries; fishways; habitat replacement; Hydraulics; hydrodynamics; hydrology; Hydrology. Hydrogeology; ice; instream flows; river or stream restoration; sediment; habitat; projects; Chordata; springs; simulation; habitat replacement; ice; global; air; currents; ecology; hydraulics; water resources; solution; selenium; Pisces; fish passage; sulfur; dam removal; rivers; instream flows; environmental flows; hydrology; fish screens; fishways; hydrodynamics; technology; ecological flows; sédiment; river or stream restoration; sedimentation; sustainable development; Vertebrata; glaciation; management; fish habitat; fish; erosion; migration; fisheries; fish migrations; hydrographs
• ISSN: 0022-1686; 1814-2079
• DOI: 10.1080/00221680509500144

Fish passage, including fishways and fish screens, ecological flow management for open or ice-covered waters and fish habitat works, such as stream rehabilitation, habitat replacement, erosion and sediment management, are the subject of increased interest worldwide. Research and development in these areas, establishing a foundation of sound science and innovative engineering, has intensified, as a result of widespread recognition of the importance of sustainable and environmentally acceptable use of water resources. Scientific and engineering studies, along with technological advancements have allowed the development of a range of methods and tools for assessing the feasibility of and for providing guidance in seeking effective solutions. Methods and tools range from fairly simple to fairly sophisticated, from long-life rigid structures to adjustable ones, and solutions that are applicable at a variety of projects, scales, site conditions, fish species, aquatic biota, data sources and economic circumstances. A set of tools and methods is presented, which together form a toolkit under development. Each tool is at a different stage of advancement and the process of development is outlined. The toolkit includes analytical methods for relating fish migration timing to hydrographs, ways of attracting and guiding fish to fishways, analysis of fishway hydraulics and fish passage abilities, fish screen hydraulics and fish responses, nature-mimicking fish habitat structures, hydrodynamic and habitat simulation, and the initial stages of considering sediment and ice processes. Suggestions are made for further research and development in these interdisciplinary areas, which challenge interested researchers to focus their individual studies on fish passage, habitat and ecological issues and improve available tools.