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Referenser vägledning fisk- och faunapassager

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Birnie-Gauvin, K., Aarestrup, K., Riis, T.M.O., Jepsen, N., and Koed, A. 2017. Shining a light on the loss of rheophilic fish habitat in lowland rivers as a forgotten consequence of barriers, and its implications for management. Aquatic Conservation-Marine and Freshwater Ecosystems 27(6): 1345-1349.

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Bunt, C.M., Castro-Santos, T., and Haro, A. 2012. Performance of fish passage structures at upstream barriers to migration. River Research and Applications 28(4): 457-478.

Cai, L., Hou, Y.Q., Katopodis, C., He, D., Johnson, D., and Zhang, P. 2019. Rheotaxis and swimming performance of Perch-barbel (Percocypris pingi, Tchang, 1930) and application to design of fishway entrances. Ecological Engineering 132: 102-108.

Calles, E.O., and Greenberg, L.A. 2007. The use of two nature-like fishways by some fish species in the Swedish River Eman. Ecology of Freshwater Fish 16(2): 183-190.

Calles, O., Christiansson, J., Andersson, J.-O., Karlsson, S., Wickström, H., and Östergren, J. 2014. Tekniska lösningars tillämpbarhet för förbättrad nedströmspassage för ål - applicerat på Göta älv och Motala ström. Elforsk rapport 14:35.

Calles, O., Degerman, E., Wickström, H., Christiansson, J., Gustafsson, S., and Näslund, I. 2013a. Anordningar för upp- och nedströmsvandring av fisk vid vattenanläggningar. Underlag till vägledningom lämpliga försiktighetsmått och bästa möjliga teknik för vattenkraft. Havs- och vattenmyndighetens rapport 2013:14.

Calles, O., and Greenberg, L. 2009. Connectivity is a two-way street-the need for a holistic approach to fish passage problems in regulated rivers. River Res. Appl. 25(10): 1268-1286.

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Calles, O., Rivinoja, P., and Greenberg, L. 2013c. A historical perspective on downstream passage at hydroelectric plants in Swedish rivers. In Ecohydraulics: an integrated approach. Edited by I. Maddock, A. Harby, P. Kemp and P. Wood. John Wiley & Sons. pp. 309-322.

Carlsson, N. 2019. Låglutande galler och betydelsen av spaltvidd för passageeffektivitet hos nedströmsvandrande Europeisk ål (Anguilla anguilla), Fackulteten för hälsa, natur- och teknikvetenskap, Karlstad Universitet.

Carlsson, N., Alvdén, D., Nyqvist, D., Rund, H., Dolk, J., and Calles, O. in press. Låglutande galler och betydelsen av spaltvidd för laxsmoltpassage.

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DWA. 2014. DWA Regelwerk, Merkblatt DWA-M 509, Fischaufstiegsanlagen und fischpassierbare Bauwerke - Gestaltung, Bemessung, Qualitätssicherung. DWA Regelwerk, Merkblatt DWA-M 509, Hennef.

DVWK. 2002. Fish passes - design, dimensions and monitoring. FAO, Rome.

Eberstaller, J., Hinterhofer, M., and Parasiewicz, P. 1998. The effectiveness of two nature-like bypass channels in an upland Austrian river.

Emanuelsson, A., Christensen, P., Mikaelsson, F., Böjer, M., Göransson, F., Östberg, J., Öhrfeldt, U., Hemfrid-Schwartz, Y., Norén, P., and Calles, O. 2017. Fysiska avledare för uppsamling av blankål vid vattenkraftverk. Tekniska utmaningar och kostnadseffektiviseringar. Energiforsk Rapport 2017:458 Projekt Krafttag Ål. https://energiforskmedia.blob.core.windows.net/media/23726/fysiska-avledare-for-uppsamling-av-blankal-vid-vattenkraftverk-energiforskrapport-2017-458.pdf

Environment-Agency. 2011. Elver and eel passes. A guide to the design and implementation of passage solutions at weirs, tidal gates and sluices. GEHO0211BTMV-E-E, Bristol, Storbrittanien.

Fjeldstad, H.-P., Pulg, U., and Forseth, T. 2018. Safe two-way migration for salmonids and eel past hydropower structures in Europe: a review and recommendations for best-practice solutions. Marine and Freshwater Research 69(12): 1834-1847.

Fjeldstad, H.P., and Alfredsen, K. 2015. Atlantic salmon fishways: The Norwegian experiences. Vann.

Francis, F. 1870. Reports on salmon ladders: with original drawings, plans, and sections, Citerat från Katopodis, C. and J. G. Williams (2012). "The development of fish passage research in a historical context." Ecological Engineering 48: 8-18. .

Frankham, R., Bradshaw, C.J.A., and Brook, B.W. 2014. Genetics in conservation management: Revised recommendations for the 50/500 rules, Red List criteria and population viability analyses. Biological Conservation 170: 56-63.

Franklin, P., Gee, E., Baker, C., and Bowie, S. 2018. New Zealand fish passage guidelines for structures up to 4 metres. NIWA Client Report No: 2018019HN.

Garavelli, L., Linley, T.J., Bellgraph, B.J., Rhode, B.M., Janak, J.M., and Colotelo, A.H. 2019. Evaluation of passage and sorting of adult Pacific salmonids through a novel fish passage technology. Fisheries Research 212: 40-47.

Goerig, E., and Castro-Santos, T. 2017. Is motivation important to brook trout passage through culverts? Canadian Journal of Fisheries and Aquatic Sciences 74(6): 885-893.

Greenberg, L., Nyqvist, D., Bergman, E., and Calles, O. 2017. Förbättrad nedströmspassage för vild laxfisk i Klarälven. Naturresurs rinnande vatten, Biologi, Karlstad Universitet, Karlstad.

Gustafsson, S., Osterling, M., Skurdal, J., Schneider, L.D., and Calles, O. 2013. Macroinvertebrate colonization of a nature-like fishway: The effects of adding habitat heterogeneity. Ecological Engineering 61: 345-353.

Hagelin, A., Calles, O., Greenberg, L., Piccolo, J., and Bergman, E. 2016. Spawning Migration of Wild and Supplementary Stocked Landlocked Atlantic Salmon (Salmo Salar). River Research and Applications 32(3): 383-389.

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Haro, A., Odeh, M., Noreika, J., and Castro-Santos, T. 2016. Effect of water acceleration on downstream migratory behavior and passage of Atlantic salmon smolts and juvenile American shad at surface bypasses. Transactions of the American Fisheries Society 127(1): 118-127.

Hatry, C., Binder, T.R., Thiem, J.D., Hasler, C.T., Smokorowski, K.E., Clarke, K.D., Katopodis, C., and Cooke, S.J. 2013. The status of fishways in Canada: trends identified using the national CanFishPass database. Reviews in Fish Biology and Fisheries 23(3): 271-281.

Hatry, C., Thiem, J.D., Hatin, D., Dumont, P., Smokorowski, K.E., and Cooke, S.J. 2016. Fishway approach behaviour and passage of three redhorse species (Moxostoma anisurum, M. carinatum, and M. macrolepidotum) in the Richelieu River, Quebec. Environmental Biology of Fishes 99(2): 249-263.

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