The importance of river confluences as inter-levee floodplain of small and medium-sized rivers.
Author:
Affiliation:
1. River Basin Research Center, Gifu University
2. Regional Adaptation Research Center, Gifu University
3. Institute of Technology and Science, The University of Tokushima
4. Water Environment Research Group, Public Works Research Institute
Publisher
Ecology and Civil Engineering Society
Subject
Ecology,Civil and Structural Engineering
Link
https://www.jstage.jst.go.jp/article/ece/23/1/23_109/_pdf
Reference24 articles.
1. Baird O. E. & Krueger C. C. (2003) Behavioral Thermoregulation of Brook and Rainbow Trout: Comparison of Summer Habitat Use in an Adirondack River, New York. Transactions of the American Fisheries Society 132: 1194-1206.
2. Benda L., Poff N. L., Miller D., Dunne T., Reeves G., Pess G. & Pollock M. (2004) The network dynamics hypothesis: how channel networks structure riverine habitats. BioScience 54: 413-427.
3. Birjukova O., Ferreira R. M. L., Guillén-Ludeña S., Alegria F. & Cardoso A. H. (2020) Three-dimensional flow structure at fixed 70°open-channel confluence with bed discordance. Journal of Hydraulic Research 58: 434-446.
4. Boddy N. C., Booker D. J. & McIntosh A. R. (2019) Confluence configuration of river networks controls spatial patterns in fish communities. Landscape Ecology 34: 187-201.
5. Braaten P. J. & Guy C. S. (1999) Relations between Physicochemical Factors and Abundance of Fishes in Tributary Confluences of the Lower Channelized Missouri River. Transactions of the American Fisheries Society 128: 1213-1221.
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