Properly designed fishway plays an important role to mitigate the migrating problem of fish and help them meet their life cycle’s basic requirements, especially the spawning activities with enhancing the local ecosystem as well. However, the fishways are still constricted at the small section of the dam or weir giving less priority and the designs of fishways are further limited by engineering, hydraulic and economic constraints. Thus, this paper presents an overview of the fishway design history and their consequences following different available literatures till date. Furthermore this paper also suggests on considering some important parameters during design such as turbulence, roughness coefficient, minimum head difference, slope which have a key role in improving the working efficiency of fishway. In addition, this review provides following recommendations: i) Need to improve downstream design of fishway and associated experimental methodology, ii) Consideration of river temperature with dissolved oxygen and their effect on fish behavior during design work, iii) Importance of further research work on coarse species along with other economically important fish, and iv) Updating the fishway design by considering fluctuating water level condition in the river. Hence this paper can contribute in the enhancement and restoration of fisheries resources from the perspective of fish passage design problems and their solution. Furthermore it may help the new researchers and designers to upgrade the existing design concept for the better result in fishway efficiency in coming future.
| Published in | American Journal of Environmental Protection (Volume 4, Issue 6) |
| DOI | 10.11648/j.ajep.20150406.21 |
| Page(s) | 344-353 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Attraction Efficiency, Dam, Discharge, Fishway, Passage Efficiency, Velocity
| [1] | DVWK (2002) Fish Passes - Design, dimensions and monitoring. |
| [2] | Bunt C. M., Castro-Santos T. Haro A (2012) Performance of fish passage structures at upstream barriers to migration, River Res. Applic 28: 457–478. |
| [3] | Larinier M., Travade F., Porcher J. P. (2002) Fishways: biological basis, design criteria and monitoring, Bull. Fr. Pêche Piscic., 364 (Suppl.), p. 208. |
| [4] | Kamula R. (2002) Flow Over Weirs with Application to Fish Passage Facilities, Oulu University Press, Finland. |
| [5] | Clay C. H. (1995) Design of Fishways and Other Fish Facilities, (second ed.) Lewis Publishers, Boca Raton, FL, U. S. A. |
| [6] | Chen Kai - Qi, Tao Jie, Chang Zhong-Nong, Cao Xiao-Hong, Ge Huai-Feng (2014) Difficulties and prospects of fishways in China: An overview of the construction status and operation practice since 2000, Ecological Engineering 70: 82–91. |
| [7] | Wang Y. (1990) Design and Application of Fish Passage and Protection Facilities in China. In: Proceedings of the International Symposium on Fishways, Gifu, Japan. |
| [8] | Nakamura S. (1993) A review of fish passage facilities in East Asia. Fish Passage Policy and Technology. In: Proceedings of the Symposium. Portland, Oregon, USA. |
| [9] | Zhili G., Qinhao L., Keming A. (1990) Layout and Performance of Yangtang Fishway, Proceedings of the International Symposium on Fishways, Gifu, Japan. |
| [10] | Xiao BL, Hui CD, Zhu G, Yong C. (2014) Research progress of fish protection in water resources and hydropower engineering. International Conference on Water Resource and Environmental Protection (WREP 2014). |
| [11] | White L. J., Harris J. H., Keller R. J. (2010) Movement of three non-salmonid fish species through a low-gradient vertical-slot fishway. River Res. & Appl. 27: 499-510. |
| [12] | Katopodis C., Williams J. G. (2011) The development of fish passage research in a historical context, J. ecol. eng., Published online DOI: 10.1016. |
| [13] | Silva A. T, Santos J. M., Ferreira M. T., Pinheiro A. N., Katopodis C. (2011) Effects of water velocity and turbulence on the behavior of Iberian barbel (Luciobarbus bocagei, Steindachner 1864) in an experimental pool-type fishway. River Research and Applications 27: 360-373. |
| [14] | Larinier M., Marmulla G. (2003) Fish Passes: Types, Principles and Geographical Distribution an Overview, Proceedings of the Second International Symposium on the Management of Large Rivers for Fisheries, Volume II. |
| [15] | Katopodis C. (1992) Introduction to Fishway Design, Working Document. Winnipeg, Freshwater Institute: Winnipeg. |
| [16] | Lucas M. C. and Baras E. (2000) Methods for studying spatial behaviour of freshwater fishes in the natural environment. Fish and Fisheries 1: 283–316. |
| [17] | Lucas M. C., Baras E., Thom T. J., Duncan A. and Slavik O. (2001) Migration of Freshwater Fishes. Blackwell Science Ltd, London, UK. 192. |
| [18] | Gehrke P. C., Brown P., Schiller C. B., Moffatt D. B. and Bruce A. M. (1995) River regulation and fish communities in the Murray-Darling River system, Australia. Regulated Rivers: Research & Management 11: 363–375. |
| [19] | Pelicice F. M. and Agostinho A. A. (2008) Fish passage facilities as ecological traps in large neotropical rivers. Conservation Biology 22: 180–188. |
| [20] | Welcomme R. L. (1995) Relationships between fisheries and the integrity of river systems. Regulated Rivers: Research and Management 11: 121–136. |
| [21] | Laine A, Jokivirta T, Katopodis C. (2002) Atlantic salmon, Salmo salar L., and sea trout, Salmo trutta L., passage in a regulated northern river - fishway efficiency, fish entrance and environmental factors. Fisheries Management and Ecology 9: 65–77. |
| [22] | Katopodis C. (2005) Developing a toolkit for fish passage, ecological flow management and fish habitat works. Journal of Hydraulic Research 43: 451–467. |
| [23] | Lucas MC, Frear PA. (1997) Effects of a flow-gauging weir on the migratory behaviour of adult barbel, a riverine cyprinid. Journal of Fish Biology 50: 382–396. |
| [24] | Ovidio M, Philippart JC. (2002) The impact of small physical obstacles on upstream movements of six species of fish - Synthesis of a 5-year telemetry study in the River Meuse basin. Hydrobiologia 483: 55–69. |
| [25] | Tu Z. , Yuan X., Han J, Shi X., Huang Y., Johnson D. (2011) Aerobic swimming performance of juvenile Schizothorax chongi (Pisces, Cyprinidae) in the Yalong River, southwestern China, Hydrobiologia 675: 119–127. |
| [26] | Cai L. et al. (2014) Integrating water flow, locomotor performance and respiration of Chinese Sturgeon during multiple fatigue-recovery cycles, PLOS ONE 9(4): e94345. |
| [27] | Ead SA, Katopodis C, Sikora GJ, Rajaratnam N. (2004) Flow regimes and structure in pool and fishways. Journal of Environmental Engineering and Science 3: 379–390. |
| [28] | Liu M., Rajaratnam N. and Zhu D. Z. (2006) Mean Flow and Turbulence Structure in Vertical Slot Fishways. Journal of Hydraulic Engineering 132: 765–777. |
| [29] | Barton AF, Keller RJ, Katopodis C. (2008) A free surface model of a vertical slot fishway to numerically predict velocity and turbulence distributions. In Advances in fisheries bioengineering, Amaral SV, Mathur D, Taft EP (eds). American Fisheries Society Symposium 61, Bestheda, Maryland 39–52. |
| [30] | Stuart IG, Mallen-Cooper M. (1999) An assessment of the effectiveness of a vertical-slot fishway at a tidal barrier on a large tropical/subtropical river. Regulated Rivers: Resource & Management 15: 575–590. |
| [31] | Adams, S R, Adams G, L, Parsons G R. (2003) Critical swimming speed and behavior of juvenile shovel nose sturgeon and pallid sturgeon. Transactions of the American Fisheries Society, 132(2): 392-397. |
| [32] | Cheong T S, Kavvas M L, Anderson E K. (2006) Evaluation of adult white sturgeon swimming capabilities and applications to fishway design. Environmental Biology of Fishes, 77(2): 197-208. |
| [33] | He X, Lu S, Liao M, et al. (2013) Effects of age and size on critical swimming speed of juvenile Chinese sturgeon Acipenser sinensisat seasonal temperatures. Journal of Fish Biology, 82: 1047-1056. |
| [34] | Larinier M. (2008) Fish passage experience at small-scale hydro-electric power plants in France. Hydrobiologia, 609(1): 97-108. |
| [35] | Castro-Santos T. (2005) Optimal swim speeds for traversing velocity barriers: an analysis of volitional high-speed swimming behavior of migratory fishes. The Journal of Experimental Biology, 208(3): 421-432. |
| [36] | Roscoe D. W., Hinch S. G. (2010), Effectiveness monitoring of fish passage facilities: historical trends, geographic patterns and future direction. Fish and Fisheries 11: 12–33. |
| [37] | Hatry C, Thiem J D, Binder T R, et al. (2014) Comparative Physiology and Relative Swimming Performance of Three Redhorse (Moxostoma spp.) Species: Associations with Fishway Passage Success. Physiological and Biochemical Zoology, 87(1): 148-159. |
| [38] | Jain K E, Hamilton J C, Farrell A P. (1997) Use of a ramp velocity test to measure critical swimming speed in rainbow trout (Onchorhynchus mykiss). Comparative Biochemistry and Physiology Part A, 117(4): 441-444. |
| [39] | Kerr S R, Nelson J A. (2000) Aerobic and anaerobic swimming performance of individual Atlantic cod. Journal of Experimental Biology, 203(2): 347-357. |
| [40] | Yagci O. (2010) Hydraulic aspects of pool-weir fishways as ecologically friendly water structure. Ecological Engineering, 36(1): 36-46. |
| [41] | Jones M. J. and Stuart I. G. (2008) Regulated floodplains a trap for unwary fish. Fisheries Management and Ecology 15: 71–79. |
| [42] | Jones M. J. and Stuart I. G. (2009) Lateral movement of common carp (Cyprinus carpio L.) in a large lowland river and floodplain. Ecology of Freshwater Fish 18: 72–82. |
| [43] | Stuart I. G. and Jones M. J. (2006) Movement of common carp, Cyprinus carpio, in a regulated lowland Australian river: implications for management. Fisheries Management and Ecology 13: 213–219. |
| [44] | Larinier M. (2001) Environmental Issues, Dams and Fish migration, Published in dams, fish and fisheries opportunities, challenges and conflict resolution, FAO fisheries technical paper. |
| [45] | Bates, K. (1992). Fishway design guidelines for Pacific salmon. Report of Washington Department of Fish and Wildlife. |
| [46] | Katopodis Ecohydraulics Ltd. (2013) Fish passage considerations for developing small hydroelectric sites and improving existing water control structures in Ontario. |
| [47] | Colavecchia M., Katopodis C., Goosney R., Scruton D. A., McKinley R. S. (1998) Measurement of burst swimming performance in wild Atlantic salmon (Salmo salar L.) Using Digital Telemetry. Regul. Rivers-Res. Manage. 14: 41–51. |
| [48] | Banks, J. W. (1969) A review of the literature on the upstream migration of adult salmonids. Journal of Fish Biology 1: 85–136. |
| [49] | Alabaster, J. S. (1970) River flow and upstream movements and catch of migratory salmonids. Journal of Fish Biology 2: 1–13. |
| [50] | Andrew, F. J., and G. H. Geen. (1960) Sockeye and pink salmon production in relation to proposed dams in the Fraser River system. International Pacific Salmon Fisheries Commission Bulletin 11. |
| [51] | Leman, B., and G. J. Paulik. (1966) Spill-pattern manipulation to guide migrant salmon upstream. Transactions of the American Fisheries Society 95: 397–407. |
| [52] | Larinier, M. (1998) Upstream and downstream fish passage experience in France. Pages 127–145 in M. Jungwirth, S. |
| [53] | Wu S, Rajaratnam N, Katopodis C. (1999) Structure of flow in vertical slot fishway. Journal of Hydraulic Engineering 125(4): 351–360. |
| [54] | Lee Baumgartner, Brenton Zampatti, Matthew Jones, Ivor Stuart and Martin Mallen-Cooper. (2014) Ecological Management & Restoration vol 15 no s1. |
| [55] | Mallen-Cooper M. (2005) Monitoring fish in Innovations of the Vertical-Slot Fishway Design. Fishway Consulting Services, Canberra 66 pp. |
| [56] | Tarrade L., Texier A., David L. and Larinier M. (2008) Topologies and measurements of turbulent flow in vertical slot fishways. Hydrobiologia 609: 177–188. |
| [57] | Travade F., Larinier M., Boyer-Bernard S., Dartiguelongue J. (1998) Performance of four fish pass installations recently built in France. In: Fish migration and fish bypasses (eds M. Jungwirth, S. Schmitz nd S. Weiss). Fishing News Books, Oxford, UK: Blackwell Science Ltd. Publisher. |
| [58] | Castro-Santos T., Haro A (2010), Fish guidance and passage at barriers. Fish Locomotion: An Eco-ethological Perspective, Science Publishers. |
| [59] | Bunt C. M., Katopodis C., McKinley R. S. (1999) Attraction and passage efficiency of white suckers and small mouth bass by two Denil fishways. North American Journal of Fisheries Management 19: 793–803. |
| [60] | Aarestrup K., Lucas M. C., Hansen J. A. (2003) Efficiency of a nature-like bypass channel for sea trout (Salmo trutta) ascending a small Danish stream by PIT telemetry. Ecology of Freshwater Fish 12: 160–168. |
| [61] | Calluaud D., Pineau G., Texier A., David L. (2014). Modification of vertical slot fishway flow with a supplementary cylinder. Journal of Hydraulic Research; Vol. 52 (5), pp 614-629. |
| [62] | Calluaud D., Cornu V, Baran P., David L. (2014). Relationship between fish behaviour, turbulence and unsteady flow in experimental vertical slot fishways. 10th International Symposium on Ecohydraulics, Trondheim, Norway. |
| [63] | Tarrade L., Pineau G., Calluaud D., Texier A., David L., Larinier M. (2011). Detailed experimental study of hydrodynamic turbulent flows generated in vertical slot fishways. Journal of Environmental Fluid Mechanics. Vol. 11, pp 1-21. |
| [64] | Odeh, M. (1999) Innovations in fish passage technology. American Fisheries Society, Bethesda, Maryland. |
| [65] | Castro-Santos, T., Cotel, A. and Webb, P. W. (2009) Fishway evaluations for better bioengineering: an integrative approach. In: Challenges for Diadromous Fishes in a Dynamic Global Environment. American Fisheries Society Symposium, Bethesda, MD. |
| [66] | Moser, M. L., Matter, A. L., Stuehrenberg, L. C. and Bjornn, T. C. (2002) Use of an extensive radio receiver network to document Pacific lamprey (Lampetra tridentata) entrance efficiency at fishways in the Lower Columbia River, USA. Hydrobiologia 483: 45–53. |
| [67] | Naughton, G. P., Caudill, C. C., Peery, C. A., Clabough, T. S., Jepson, M. A., Bjornn, T. C. and Stuehrenberg, L. C. (2007) Experimental evaluation of fishway modifications on the passage behaviour of adult Chinook salmon and steelhead at Lower Granite Dam, Snake River, USA. River Research and Applications 23: 99–111. |
| [68] | Ferguson, J. W., Sandford, B. P., Reagan, R. E., Gilbreath, L. G., Meyer, E. B., Ledgerwood, R. D. and Adams, N. S. (2007) Bypass system modification at Bonneville Dam on the Columbia River improved the survival of juvenile salmon. Transactions of the American Fisheries Society 136: 1487–1510. |
| [69] | Schreck, C. B., Stahl, T. P., Davis, L. E., Roby, D. D. and Clemens, B. J. (2006) Mortality estimates of juvenile spring-summer Chinook salmon in the Lower Columbia River and Estuary, 1992–1998: Evidence for delayed mortality? Transactions of the American Fisheries Society 135: 457–475. |
| [70] | 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 Research and Applications 25: 1268–1286. |
| [71] | O’Connor J. P., O’Mahony D. J. and O’Mahony J. M. (2005) Movements of Macquaria ambigua, in the Murray River, south-eastern Australia. Journal of Fish Biology 66: 392–403. |
| [72] | Haro A, Castro-Santos T, Noreika J, Odeh M. (2004) Swimming performance of upstream migrant fishes in open-channel flow: a new approach to predicting passage through velocity barriers. Canadian Journal of Fisheries and Aquatic Sciences 61: 1591–1601. |
| [73] | Booth RK, McKinley RS, Okland F, Sisak MM. (1997) In situ measurements of swimming performance of wild Atlantic salmon (Salmo salar) using radio transmitted electromyogram signals. Aquatic Living Resources 10: 213–219. |
| [74] | Linton E, Jonsson B, Noakes D. (2007) Effects of water temperature on the swimming and climbing behaviour of glass eels, Anguilla spp. Environmental Biology of Fishes 78: 189. |
| [75] | Kemp PS, Gessel MH, Williams JG. (2008) Response of downstream migrant juvenile Pacific salmonids to accelerating flow and overhead cover. Hydrobiologia 609: 205–217. |
APA Style
Prashant Mandal, Zhiying Tu, Xi Yuan, Yong Gao, Yingping Huang, et al. (2015). Importance of Design Factor in Improvement of Fishway Efficiency. American Journal of Environmental Protection, 4(6), 344-353. https://doi.org/10.11648/j.ajep.20150406.21
ACS Style
Prashant Mandal; Zhiying Tu; Xi Yuan; Yong Gao; Yingping Huang, et al. Importance of Design Factor in Improvement of Fishway Efficiency. Am. J. Environ. Prot. 2015, 4(6), 344-353. doi: 10.11648/j.ajep.20150406.21
AMA Style
Prashant Mandal, Zhiying Tu, Xi Yuan, Yong Gao, Yingping Huang, et al. Importance of Design Factor in Improvement of Fishway Efficiency. Am J Environ Prot. 2015;4(6):344-353. doi: 10.11648/j.ajep.20150406.21
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Download@article{10.11648/j.ajep.20150406.21,
author = {Prashant Mandal and Zhiying Tu and Xi Yuan and Yong Gao and Yingping Huang and Hui Peng},
title = {Importance of Design Factor in Improvement of Fishway Efficiency},
journal = {American Journal of Environmental Protection},
volume = {4},
number = {6},
pages = {344-353},
doi = {10.11648/j.ajep.20150406.21},
url = {https://doi.org/10.11648/j.ajep.20150406.21},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajep.20150406.21},
abstract = {Properly designed fishway plays an important role to mitigate the migrating problem of fish and help them meet their life cycle’s basic requirements, especially the spawning activities with enhancing the local ecosystem as well. However, the fishways are still constricted at the small section of the dam or weir giving less priority and the designs of fishways are further limited by engineering, hydraulic and economic constraints. Thus, this paper presents an overview of the fishway design history and their consequences following different available literatures till date. Furthermore this paper also suggests on considering some important parameters during design such as turbulence, roughness coefficient, minimum head difference, slope which have a key role in improving the working efficiency of fishway. In addition, this review provides following recommendations: i) Need to improve downstream design of fishway and associated experimental methodology, ii) Consideration of river temperature with dissolved oxygen and their effect on fish behavior during design work, iii) Importance of further research work on coarse species along with other economically important fish, and iv) Updating the fishway design by considering fluctuating water level condition in the river. Hence this paper can contribute in the enhancement and restoration of fisheries resources from the perspective of fish passage design problems and their solution. Furthermore it may help the new researchers and designers to upgrade the existing design concept for the better result in fishway efficiency in coming future.},
year = {2015}
}
TY - JOUR T1 - Importance of Design Factor in Improvement of Fishway Efficiency AU - Prashant Mandal AU - Zhiying Tu AU - Xi Yuan AU - Yong Gao AU - Yingping Huang AU - Hui Peng Y1 - 2015/12/25 PY - 2015 N1 - https://doi.org/10.11648/j.ajep.20150406.21 DO - 10.11648/j.ajep.20150406.21 T2 - American Journal of Environmental Protection JF - American Journal of Environmental Protection JO - American Journal of Environmental Protection SP - 344 EP - 353 PB - Science Publishing Group SN - 2328-5699 UR - https://doi.org/10.11648/j.ajep.20150406.21 AB - Properly designed fishway plays an important role to mitigate the migrating problem of fish and help them meet their life cycle’s basic requirements, especially the spawning activities with enhancing the local ecosystem as well. However, the fishways are still constricted at the small section of the dam or weir giving less priority and the designs of fishways are further limited by engineering, hydraulic and economic constraints. Thus, this paper presents an overview of the fishway design history and their consequences following different available literatures till date. Furthermore this paper also suggests on considering some important parameters during design such as turbulence, roughness coefficient, minimum head difference, slope which have a key role in improving the working efficiency of fishway. In addition, this review provides following recommendations: i) Need to improve downstream design of fishway and associated experimental methodology, ii) Consideration of river temperature with dissolved oxygen and their effect on fish behavior during design work, iii) Importance of further research work on coarse species along with other economically important fish, and iv) Updating the fishway design by considering fluctuating water level condition in the river. Hence this paper can contribute in the enhancement and restoration of fisheries resources from the perspective of fish passage design problems and their solution. Furthermore it may help the new researchers and designers to upgrade the existing design concept for the better result in fishway efficiency in coming future. VL - 4 IS - 6 ER -
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