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Long-term Consequences of Upstream Impoundment

Published online by Cambridge University Press:  24 August 2009

Geoffrey E. Petts
Geoffrey E. Petts
Affiliation:
Lecturer in Applied Geomorphology, Department of Geography, University of Technology, Loughborough, Leicestershire LE11 3TU, England, U.K.
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Extract

Since 1970 a large number of environmental problems have been identified as resulting from the long-term effects of human impacts. Consideration of human activity within the environment as three orders of impact, provides a basic framework for the appreciation and evaluation of long-term problems. Consequent upon dam construction, major changes of flood magnitude and frequency and of the quantity and calibre of sediment loads (first-order impacts), will induce the readjustment of channel morphology and ecology (second-order impacts). However, the macrophytic and macro-invertebrate population, for example, are also adjusted to channel morphology—particularly channel shape and substrate composition—so that further readjustments of the macrophyte and macro-invertebrate populations may be effected by changes of channel form (third-order impacts).

Type
Main Papers
Information
Environmental Conservation , Volume 7 , Issue 4 , Winter 1980 , pp. 325 - 332
Copyright
Copyright © Foundation for Environmental Conservation 1980

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References

REFERENCES

Beaumont, P. (1978). Man's impact on river systems: a worldwide view. Area, 10, pp. 3841.Google Scholar
Beckinsale, R. P. (1972). Clearwater erosion: its geographical and international significance. Internat. Geogr., 2, pp. 1244–6.Google Scholar
Boles, G. L. (1980). Macro-invertebrate Abundance and Diversity as Influenced by Substrate Size in the Trinity River. Department of Water Resources Report, Red Bluff, California: 9 pp.Google Scholar
Bondurant, D. C. & Livesey, R. H. (1973). Reservoir sedimentation studies. Pp. 364–7 in Man Made Lakes (Ed. Ackerman, W. C., White, G. F. & Worthington, E. B.). Amer. Geophys. Union, Washington, DC: xvi + 847 pp., illustr.Google Scholar
Buma, P. G. & Day, J. C. (1977). Channel morphology below reservoir storage projects. Environmental Conservation, 4 (4), pp. 279–84,10 figs.CrossRefGoogle Scholar
Buttling, S. & Shaw, T. L. (1973). Predicting the rate and pattern of storage loss in reservoirs. Pp. 565–80 in Proc. 11th Internat. Congr. on Large Dams, Madrid Spain. Internat. Commission on Large Dams, Paris, France: Vol. I, xxvii + 974 pp. (5 vols separately paged).Google Scholar
Clark, M. J. (1978). Geomorphology in coastal-zone management. Geography, 63, pp. 273–82.Google Scholar
Decoursey, D. G. (1975). Implications of flood-water retarding schemes. Trans. Amer. Soc. Agric. Engrs., 18, pp. 897904.CrossRefGoogle Scholar
Fraser, J. C. (1972). Regulated discharge and the stream environment. Pp. 263–86 in River Ecology and Man (Ed. Oglesby, R. T., Carlson, C. A. & McCann, J. A.). Academic Press, New York, NY: xvii + 465 pp., illustr.CrossRefGoogle Scholar
Frye, J. C. (1971). A geologist views the environment. Illinois State Geol. Surv., Environ. Geol. Notes 42, p. 9.Google Scholar
Graf, W. L. (1977). The rate law in fluvial geomorphology. Amer. Jour. Sci., 272 (2), pp. 178–91.CrossRefGoogle Scholar
Grimshaw, D. L. & Lewin, J. (1980). Reservoir effects on sediment yield. J. Hydrol., 47, pp. 163–72.Google Scholar
Hirsch, R. M. (1977). The interaction of channel size and flood discharges for basins undergoing urbanisation. Internat. Assoc. Hydrol. Sci. Pub. 123, pp. 8392.Google Scholar
Hollis, G. E. (1979). Man's Impact on the Hydrological Cycle in the United Kingdom. Geobooks, Norwich, UK: 278 pp., illustr.Google Scholar
I.C.E. (1933). Floods in Relation to Reservoir Practice. The Inst, of Civil Engrs, London, UK: 67 pp.Google Scholar
Leopold, L. B. & Maddock, T. (1953). The hydraulic geometry of stream channels and some physiographic implications. U.S. Geol. Survey Prof. Paper 252, 56 pp.Google Scholar
Leopold, L. B., Wolman, M. G. & Miller, J. P. (1964). Fluvial Processes in Geomorphology. Freeman, San Francisco, California: 522 pp., illustr.Google Scholar
Lvovitch, M. I. (1973). The global water balance. U.S. Internat. Hydrol. Decade Bull, 23, pp. 2842.Google Scholar
Minshall, G. W. & Minshall, J. N. (1977). Microdistribution of benthic invertebrates in a Rocky Mountain (U.S.A.) stream. Hydrobiologia, 55, pp. 231–49.CrossRefGoogle Scholar
Nilsson, B. (1976). The influence of Man's activities in rivers on sediment transport. Nordic Hydrol, 7, pp. 145–60.CrossRefGoogle Scholar
Petts, G. E. (1978). The Adjustment of River-channel Capacity Downstream from Reservoirs in Great Britain. University of Southampton Ph.D. thesis, Southampton, UK: v + 279 pp., illustr., mimeogr.Google Scholar
Petts, G. E. (1979). Complex response of river channel morphology subsequent to reservoir construction. Prog. in Phy. Geog., 3 (3), pp. 329–62.Google Scholar
Richards, K. S. & Wood, R. (1977). Urbanisation, water redistribution, and their effects on channel processes. Pp. 369–88 in River Channel Changes (Ed. Gregory, K. J.). Wiley, Chichester, UK: xi + 448 pp., illustr.Google Scholar
Saunders, J. W. & Smith, M. W. (1962). Physical alteration of stream habitat to improve Brook-trout production. Trans. Am. Fish Soc., 91, pp. 185–8.CrossRefGoogle Scholar
Schumm, S. A. (1977). The Fluvial System. Wiley, Chichester, UK: 338 pp., illustr.Google Scholar
Schumm, S. A. & Lichty, R. W. (1963). Channel widening and floodplain construction along the Cimarron River in S.W. Kansas. U.S. Geol. Survey Prof. Paper 352D, pp. 7188.Google Scholar
Serr, E. F. (1972). Unusual sediment problems in N. Coastal California. Chap. 17 (13 pp.) in Sedimentation (Ed. Shen, H. W.), Einstein Symposium Volume, Water Resource Pub., Fort Collins, Colorado: 27 chapters separately numbered, 5 append., illustr.Google Scholar
Vaux, W. G. (1968). Intragravel flow and interchange of water in a streambed. U.S. Fish Wildl. Serv. Fishery Bull., 66 (3), pp. 479–89.Google Scholar
Ward, J. V. & Stanford, J. A. (1979). The Ecology of Regulated Streams. Plenum Press, New York, NY: xi + 398 pp., illustr.Google Scholar
Wolman, M. G. (1967). Two problems involving river channel changes and background observations. Quantitative Geography Part II. Northwestern University Studies in Geography, 14, pp. 67107.Google Scholar
Wolman, M. G. & Miller, J. P. (1960). Magnitude and frequency of forces in geomorphic processes. Jour. Geol., 68, pp. 5474.CrossRefGoogle Scholar