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IV.— Biological Effects of Water Utilization by Hydro-electric Schemes in Relation to Fisheries, with Special Reference to Scotland *

Published online by Cambridge University Press:  11 June 2012

Hugh Y. Elder
Hugh Y. Elder
Affiliation:
Department of Zoology, University of Glasgow
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Synopsis

Literature is reviewed in relation to particular Scottish problems. The individuality of water bodies and methods of harnessing available power necessitates individual treatment. Some general conclusions can, however, be drawn.

The creation of impoundments and the raising of lake levels are considered in terms of the effects on agriculture, rare plant and animal species, lake plankton production, introductions and the growth of fish.

The consequences of fluctuating lake levels are reviewed with reference to the productivity of shallow water communities, bottom animals and the growth and reproduction of fish.

Pollution, changes in temperature and chemical factors, and alterations in the volume and stability of rivers are considered.

Anadromous fish conservation measures include guarantee of minimum river flow, provision of freshets, construction of fish passes, erection of smolt screens, passage of smolts through turbines, creation of artificial spawning gravels, use of hatcheries and the opening up of previously unutilized natural spawning gravels.

In general, hydro-electric schemes have a depressing effect on biological productivity. This effect may be lessened through the application of gained knowledge and experience. Fundamental research into this branch of applied ecology is needed.

Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences , Volume 69 , Issue 3-4 , 1966 , pp. 246 - 271
Copyright
Copyright © Royal Society of Edinburgh 1966

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Footnotes

*

This paper was assisted in publication by a grant from the Carnegie Trust for the Universities of Scotland.

References

References to Literature

Aass, P., 1960. “The Effects of Impoundment on Inland Fisheries”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 6976.Google Scholar
Aitken, P. L., 1956. “Hydro-electric Schemes in the North of Scotland”, Proc. Int. Conf. Prot. Nat., Edin., 1956, 6 pp.Google Scholar
Aitken, P. L., 1963. Personal communication.Google Scholar
Anan'in, B. D., 1960. “Modifications in the Flight of Birds from the Predural in Relation to the Establishment of a Water Reservoir on the Kama”, Zap. Perm. Otd. Geogr. Obshch., 1, 115127. (Paper seen only in abstract.)Google Scholar
Axelson, J., 1961. “Zooplankton and Impoundment of Two Lakes in Northern Sweden (Ranseren and Kultsjon)”, Rep. Inst. Freshw. Res. Drottning, 42, 84168.Google Scholar
Bates, D. W., and Visonhaler, R., 1957. “Use of Louvers for Guiding Fish”, Trans. Amer. Fish. Soc., 86, 3857 (1956).Google Scholar
Bates, J. M., 1962. “The Impact of Impoundment on the Mussel Fauna of Kentucky Reservoir, Tennessee River”, Amer. Midi. Nat., 68, 232236.CrossRefGoogle Scholar
Berry, J., 1955. “Hydro-electric Development and Nature Conservation in Scotland”, Proc. Roy. Phil. Soc. Glasg., 77, 2336.Google Scholar
Berry, J., 1963. Personal communication.CrossRefGoogle Scholar
Brook, A. J. and Woodward, W. B., 1956. “Some Observations on the Effects of Water Inflow and Outflow on the Plankton of Small Lakes”, J. Anim. Ecol., 25, 2235.CrossRefGoogle Scholar
Butskaya, N. A. and Neelov, A. V., 1959. “Effects of Hydro-electric Construction on the Commercial Fish Fauna of the Terek”, Rybn. Khoz., 1959, 191194. (Paper seen only in abstract.)Google Scholar
Calderwood, W. L., 1945. “Passage of Smolts through Turbines”, Saltn. Trout Mag., 115, 214221.Google Scholar
Campbell, R. N., 1957. “The Effect of Flooding on the Growth Rate of Brown Trout in Loch Tummel”, Sci. Invest. Freshwat. Fish. Scot., 14, 7 pp.Google Scholar
Campbell, R. N., 1961. “The Growth of Brown Trout in Acid and Alkaline Waters”, Salm. Trout Mag., 161, 4752.Google Scholar
Campbell, R. N., 1963 a. “Some Effects of Impoundment on the Environment and Growth of Brown Trout (Salmo trutta L.) in Loch Garry (Inverness-shire)”, Sci. Invest. Freshwat. Fish. Scot., 30, 27 pp.Google Scholar
Campbell, R. N., 1963 b. Personal communication.Google Scholar
Campbell, R. N., 1964. “The Effect of New Reservoirs on Trout”, Trout Salm., 10, 2425.Google Scholar
Clemens, W. A., 1958. “The Fraser River Salmon in Relation to Potential Power Development”. In The Investigation of Fish Power Problems. Ed. Larkin, P. A.. B.C. Univ. Symp., 3–10.Google Scholar
Cuerrier, J. P., 1954. “The History of Lake Minnewanka with Reference to the Reaction of Lake Trout to Artificial Changes in Environment”, Canad. Fish Cult., 15, 19.Google Scholar
Daget, J., 1960. “Effects du barrage de Markala sur les migrations de poissons dans le Moyen-Niger”, Proc. Int. Conf. Prot. Nat. Athens, 1959, 4, 352356.Google Scholar
Daget, J., 1961. “Report on the Kainji Project (fisheries)”, CCTA/CSA 4th Symp. Hydrobiol. and Inland Fish., Fort-Lamy, 6976.Google Scholar
Dahn, J. E. L., 1960. “Nile Perch in Lake Victoria”, Uganda Wild Life, 1, 45.Google Scholar
Deedler, C. L., 1960. “Modern Fish Passes in the Netherlands”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 316320.Google Scholar
Dill, W. A. and Kesteven, G. L., 1960. “Methods of Minimizing the Deleterious Effects of Water and Land Use Practices on Aquatic Resources”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 271307.Google Scholar
Ellis, C. H., 1956. “Tests on Hauling as a Means of Reducing Downstream Migrant Salmon Mortalities on the Columbia River”, Fish. Res. Pap. St. Wash., 1, 4648.Google Scholar
Fabricus, E., 1950. “Heterogeneous Stimulus Summation in the Release of Spawning Activities in Fish”, Rep. Inst. Freshw. Res. Drottning., 31, 1949. 5799.Google Scholar
Frost, W. E., 1956. “The Growth of Brown Trout (Salmo trutta L.) in Haweswater before and after Raising the Level of the Lake”, Salm. Trout Mag., 148, 266274.Google Scholar
Geng, H., 1925. “Die Futterwert der natürlichen Fischnahrung”, Z. Fisch., 23, 137165.Google Scholar
Graham, T. R. and Jones, J. W., 1962. “The Biology of Llyn Tegid Trout 1960”, Proc. Zool. Soc. Lond., 139, 657683.CrossRefGoogle Scholar
Greenwood, P. H., 1958. The Fishes of Uganda. 124 pp. The Uganda Society. Kampala.Google Scholar
Grimàs, U., 1961. “The bottom Fauna of Natural and Impounded Lakes in Northern Sweden (Ankarvattnet and Blåsjön)”, Rep. Inst. Freshw. Res. Drottning., 42, 183237.Google Scholar
Grimàs, U., 1962. “The Effect of Increased Water Level Fluctuation upon the Bottom Fauna in Lake Blasjön, Northern Sweden”, Rep. Inst. Freshw. Res. Drottning, 44, 1441.Google Scholar
Hamblyn, E. L., 1960. “The Nile Perch Project”, Rep. E. Afr. Freshw. Fish. Res. Org., 1960, Appendix G, 26–32.Google Scholar
Harroy, J. P., 1955. “Hydro-electricity and the Protection of Nature”. In Hydro-electricity and Nature Protection. 1955, 4147. I.U.P.N. Caracas.Google Scholar
Hasler, A. D., 1954. “Odour Perception and Orientation in FishesJ. Fish. Res. Bd. Can., 11, 107129.CrossRefGoogle Scholar
Hayes, F. R., 1953. “Artificial Freshets and other Factors Controlling the Ascent and Population of Atlantic Salmon in the La Have River, Nova Scotia”, Bull. Fish. Res. Bd. Can., 99, 47 pp.Google Scholar
Hickling, C. F., 1962. Fish Culture. 295 pp. Faber and Faber, London.Google Scholar
Hourston, W. R., Clay, C. H., Edgeworth, L., Larkin, P. A., Vernon, E. H., and McMynn, R. G., 1955. “Planning Anadromous Fish Protection for Proposed Dams”, Trans. 20th N. Amer. Wildl. Conf., 440–454.Google Scholar
Hourston, W. R., Clay, C. H., Edgeworth, L., Larkin, P. A., Vernon, E. H., and McMynn, R. G. and MacKinnon, D., 1957. “Use of an Artificial Spawning Channel by Salmon”, Trans. Amer. Fish. Soc, 86 (1956), 220230.CrossRefGoogle Scholar
Hynes, H. B. N., 1960. The Biology of Polluted Waters. 202 pp. Liverpool Univ. Press.Google Scholar
Hynes, H. B. N., 1961. “The Effect of Water Level Fluctuations on Littoral Fauna”, Verh. Int. Ver. Limnol., 14, 652656.Google Scholar
Jones, J. W., 1959. The Salmon. 192 pp. Collins, London.Google Scholar
Kipper, Z M., 1958. “Use of Navigation Locks at Hydro-electric Stations for the Passage of Fish from Downstream into the Reservoir”. In Proc. All-Union Conf, on Biol. Bases of Fish Farm Use of Reservoirs, 239–243. Akad. Nauk SSSR. Moscow. (Paper seen only in abstract.)Google Scholar
Kumsare, A., 1961. “Phytoplankton Biomass in a Regulated Drainage Sector of the Duagava River”. In The Primary Production of Seas and Inland Waters. 122126. Minsk. (Paper seen only in abstract.)Google Scholar
Kuznetsova, I. I., 1962. “An Experiment in Raising Fish Production of Bodies of Water by Controlling their Water Regime and the Reproduction Periods of the Fish”. In Problems of Ecology, 5, 112. Moscow. (Paper seen only in abstract.)Google Scholar
Larkin, P. A., 1960. “The Effects of Various Conservational Measures or Works on the Aquatic Environment and on the Stocks of that Environment”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 4452.Google Scholar
Lawrie, T., 1956. “Highland Water Power—The Development of the North of Scotland Hydro-electric Board”, Proc. Instn. Elect. Engrs., 103, 212228.Google Scholar
Lethlean, N. G., 1953. “An Investigation into the Design and Performance of Electric Fish Screens and an Electric Fish Counter”, Trans. Roy. Soc. Edin., 62, 479526.CrossRefGoogle Scholar
Lindroth, A., 1960. “Anadromous Fish Conservation in a Swedish Salmon River”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 308315.Google Scholar
McGrath, C. J., 1960. “Dams as Barriers or Deterrents to the Migration of Fish”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 8192.Google Scholar
McMynn, R. G., and Larkin, P. A., 1953. “The Effects on Fisheries of Present and Future Water Utilization in the Campbell River Drainage Area”, B.C. Game Comm. Mgmt., Publ., 2, 161.Google Scholar
Maar, A., 1960. “Dams and Drowned Out Stream Fisheries in Southern Rhodesia”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 139151.Google Scholar
Meehean, O. L., 1960. “Multiple Purpose Planning for Aquatic Resources”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 5360.Google Scholar
Menzies, W. J. M., 1931. The Salmon, Its Life Story. Blackwood, London.Google Scholar
Miller, R. B., and Paetz, M. J., 1959. “The Effect of Power Irrigation and Stock Water Developments on the Fisheries of the South Saskatchewan River”, Canad. Fish Cult., 25, 114.Google Scholar
Mills, D H., 1964. “The Ecology and Young Stages of the Atlantic Salmon in the River Bran, Ross-shire”, Set. Invest. Freshwat. Fish. Scot., 32, 58 pp.Google Scholar
Moffett, J. W., 1949. “The First Four Years of King Salmon Maintenance below Shasta Dam, Sacramento River, California”, Calif. Fish Game, 35, 77102.Google Scholar
Mordukhai-Boltovskoe, F. D., 1961. “The Process of Formation of the Bottom Fauna in the Gor'kovskii and Kuibyshev Reservoirs”, Trudy Inst. Biol. Vodokhranilishch Akad. Nauk SSSR., 4 (7), 49177. (Paper seen only in abstract.)Google Scholar
Müller, K., 1962. “Limnologisch-Fischereibiologische Untersuchungen in regulierten Gewässern Schwedisch-Lapplands”, Oikos, 13, 125154.CrossRefGoogle Scholar
Munro, W. R., 1963. “Movements of Fish in the Tummel System”, Rep. Fish. Scot., 1962, 109110.Google Scholar
Munro, W. R., and Campbell, R. N., 1962. “Passage of Smolts through Turbines”, Rep. Fish. Scot., 1961, 103.Google Scholar
Munro, W. R., 1963. “Passage of Smolts through Turbines”, Rep. Fish. Scot., 1962, 110–111.Google Scholar
Murphy, A. M., and Dooge, J. C. I., 1951. “Hydraulic Fish Lift at Leixlip”, Trans. Instn. Civ. Engrs. Ire., 1951, 61.Google Scholar
Neave, F., 1958. “Stream Ecology and Production of Anadromous Fish.” In The Investigation of Fish Power Problems. Ed. Larkin, P. A.. B.C. Univ. Sytnp., 43–48.Google Scholar
Nilsson, N. A., 1955. “Studies on the Feeding Habits of Trout and Char in North Swedish Lakes”, Rep. Inst. Freshw. Res. Drottning., 1954, 163–225.Google Scholar
Nilsson, N. A., 1961. “The Effect of Water Level Fluctuations on the Feeding Habits of Trout and Char in Lakes Blasjön and Jormsjön, North Sweden”, Rep. Inst. Freshw. Res. Drottning., 42, 238261.Google Scholar
Nisbet, M., 1961. “Un exemple de pollution de rivière par vindange d'une retenue hydroélectrique”, Verh. Int. Ver. Limnol., 14, 678680.Google Scholar
Northcote, T. G., and Larkin, P. A., 1956. “Indices of Productivity in British Columbia Lakes”, J. Fish. Res. Bd. Can., 13, 515540.CrossRefGoogle Scholar
Nursall, J. R., 1952. “The Early Development of a Bottom Fauna in a New Power Reservoir in the Rocky Mountains of Alberta”, Canad. J. Zool., 30, 387409.CrossRefGoogle Scholar
Pavlova, M. V., 1959. “The Food and Food Interrelations of Fish in the Katta-Kurganskoe Reservoir, and their Utilization of the Food Supply”. Izvest. Akad. Nauk Kirgiz SSR. (Biol.), 1, 137145. (Paper seen only in abstract.)Google Scholar
Pyefinch, K. A., 1963. “Salmon and Freshwater Fisheries Research”, Rep, Fish. Scot., 1962, 104–117.Google Scholar
Quennerstedt, N., 1958. “Effect of Water Level Fluctuation on Lake Vegetation”, Verh. Int. Ver. limnol., 13, 901906.Google Scholar
Rawson, D. S., 1939. “Some Physical and Chemical Factors in the Metabolism of Lakes.” In Problems of Lake Biology. Ed. Moulton, F. R.. Publ. Amer. Ass. Advanc. Sci., 10, 9–26.Google Scholar
Rawson, D. S., 1958. “Indices to Lake Productivity and their Significance in Predicting Conditions in Reservoirs and Lakes with Disturbed Water Levels.” In The Investigation of Fish Power Problems. Ed. Larkin, P. A.. B.C. Univ. Symp., 2742.Google Scholar
Royal, L. A., and Cooper, A. C., 1960. “Dams as Barriers or Deterrents to the Migration of Fish”, Proc. Int. Conf. Prot. Nat. Athens, 1959, 4, 93100.Google Scholar
Runnström, S., 1951. “The Population of Char, Salmo alpinus Linne, in a Regulated Lake”, Rep. Inst. Freshw. Res. Drottning., 32, 6678.Google Scholar
Runnström, S., 1952. “The Population of Trout, Salmo trutta Linne, in a Regulated Lake”, Rep. Inst. Freshw. Res. Drottning., 33, 179198.Google Scholar
Runnström, S., 1960. “Hydro-electric Power Stations and Fishing”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 6168.Google Scholar
Sal'Nikov, N. E., 1959. “Distribution of Clupeonella delicatula delicatula in the Kakhov Reservoir”, Nauchno-Tekh. Byull. Gos. Nauchn-Izsled. Inst. Ozernogo Rechn Rybn. Khoz., 9, 810. (Paper seen only in abstract.)Google Scholar
Scruggs, G. D., 1960. “Status of Freshwater Mussel Stocks in the Tennessee River”, U.S. Fish Wildl. Serv. Spec. Set. Rep. Fish., 370, 141.Google Scholar
Slack, H. D., 1957. “Studies on Loch Lomond, I”, Glasg. Univ. Publ., 133 pp.Google Scholar
Smith, A. W., 1955. “Hydro-electric Power and Renewable Resource Conservation.” In Hydro-electricity and Nature Protection. 1955, 159168. I.U.P.N., Caracas.Google Scholar
Sømme, S., 1960. “The Effects of Impoundment on Salmon and Sea Trout Rivers”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 7780.Google Scholar
Steyermark, J. A., 1955. “Scientific Evidence Reveals Destructive Effects of Dams.” In Hydro-electricity and Nature Protection. 1955, 179185. I.U.P.N., Caracas.Google Scholar
Stuart, T. A., 1953 a. “Water Currents through Permeable Gravels and their Significance to Spawning Salmonids, etc.”, Nature, Lond., 172, 407408.CrossRefGoogle Scholar
Stuart, T. A., 1953 b. “Spawning Migration, Reproduction and Young Stages of Loch Trout”, Sci. Invest. Freshwat. Fish. Scot., 5, 39 pp.Google Scholar
Stuart, T. A., 1957. “The Migrations and Homing Behaviour of Brown Trout (Salmo trutta L.)”, Sci. Invest. Freshwat. Fish. Scot., 18, 27 pp.Google Scholar
Stuart, T. A., 1960. “The Influence of Drainage Works, Levees, Dykes, Dredging, etc., on the Aquatic Environment and Stocks”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 337345.Google Scholar
Stuart, T. A., 1962. “The Leaping Behaviour of Salmon and Trout at Falls and Obstructions”, Sci. Invest. Freshwat. Scot., 28, 46 pp.Google Scholar
Stube, M., 1958. “The Fauna of a Regulated Lake”, Rep. Inst. Freshw. Res. Drottning., 39, 162224.Google Scholar
Trautman, M. B., 1960. “Diversions, Canals and Conduits—their Role in Introducing Aquatic Organisms into Drainage Basins where they did not formerly Reside”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 175184.Google Scholar
Van Someren, V. D., 1960. “Fishery Problems Created by Water Utilization Projects in Scotland and East Africa”, Proc. Int. Conf. Prot. Nat., Athens, 1959. 4, 323336.Google Scholar
Van Someren, V. D., 1962. “The Migration of Fish in a Small Kenya River”, Rev. Zool. Bot. Afr., 66, 375393.Google Scholar
Van Someren, V. D., 1963. “Freshwater Fishery Research in East Africa”, Sci. Progr., 51, 111.Google Scholar
Vernon, E. H., 1958. “Power Development on Lakes in British Columbia.” In The Investigation of Fish Power Problems. Ed. Larkin, P. A.. B.C. Univ. Symp., 11–14.Google Scholar
Vladimirov, V. I., 1962. “Reproduction of the Vimba (V. v. caratina Pallas) in the Dnieper after Construction of the Kakhov Hydro-electric Station”, Vop. Ikthiol., 2, 116126. (Paper seen only in abstract.)Google Scholar
Wales, J. R., 1960. “The Effects of Water Diversions on Fish”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 158163Google Scholar
Wiebe, A. H., 1960. “The Effects of Impoundment on the Biota of the Tennessee River System”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 101117.Google Scholar
Wood, R. and Pfitzer, D. W., 1960. “Some Effects of Water Level Fluctuations on the Fisheries of Large Impoundments”, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 118138.Google Scholar
Worthington, E. B., 1960. In Summary of Discussions, Proc. Int. Conf. Prot. Nat., Athens, 1959, 4, 41.Google Scholar
Worthington, S., and , E. B., 1933. Inland Waters of Africa. 259 pp. Mac-Millan, London.Google Scholar
Wright, R. H., 1964. The Science of Smell. 164 pp. George Allen and Unwin, London.Google Scholar