Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
This paper attempts to explain the channel processes and dynamics of two river systems running through a rapidly urbanizing humid tropical deltaic environment with visible threats from industrialization and pollution. Hydraulic processes and parameters were compared with established power function relations for hydraulic geometry and it was discovered that the fundamental relations between channel-geometry dimensions, velocity, and flow can be expressed for the catchments. Ten gauging stations in each catchment were studied and results showed that the studied catchments adjust their geometry to changing discharges. High values of coefficients of determination among variables indicated that much of the downstream variation in channel width to depth ratio can be accounted for by changes in discharge. Also in this study the width/depth ratio (F) was found to be related to the percentage of silt + clay (M) in channel perimeter and that downstream hydraulic-geometry relations are in general agreement with previously published hydraulic and channel adjustment data.
Czasopismo
Rocznik
Tom
Strony
3--13
Opis fizyczny
Bibliogr. 42 poz., rys., tab.
Twórcy
autor
- Department of Geography and Environmental Management, Niger Delta University, Nigeria
autor
- Department of Geography and Environmental Management, University of Port Harcourt, Nigeria
Bibliografia
- Alexander J.S., Zelt R.B., Schaepe N.J., 2009. Geomorphic Segmentation, Hydraulic Geometry, and Hydraulic Microhabitats of the Niobrara River, Nebraska – Methods and Initial Results. US Geological Survey 1–1–2009.
- Anderson H.W., 1972. Major Floods, Poor Land use /delay return of Sedimentation to Normal Rates. United State Department of Agriculture Research Note PSW – 268.
- ASTM International – Standards Worldwide. 2006. Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates: C–136–06. ASTM, PA. USA.
- Azeez L.O., 1971. Review of the Stratigraphy, Sedimentation and Structure of the Niger Delta. In: C.A.Kogbe (ed.), Geology of Nigeria. Elizabethan. Lagos: 259–272.
- Bawa N., Jyani V., Tyagi P., Jain V., Shekhar S., 2012. Morphological Variability in the Yamuna River System and Role of Stream Power Distribution Pattern. IGCP Annual Meeting and Conference on Tropical Rivers: Hydro-Physical Processes, Impacts, Hazards and Management. IGCP 582: IIT Kanpur.
- Cryer R., Trudgill S.T., 1981 Solutes. In: A.S.Goudie (ed.), Geomorphological Techniques. George Allen and Unwin, London: 181–195.
- Douglas I., 1968. Erosion in the Sungei Gombak Catchment, Selangor. Malaysia Journal of Tropical Geography 26: 1–16.
- Dudley R.W., 2004. Hydraulic-Geometry Relations for Rivers in Coastal and Central Maine. USGS Scientific Investigations Report 2004–5042) U.S. Geological Survey, Augusta, Maine.
- Dury G.H., 1963. Rivers in Geographical Teaching Processes. Geography 6(3): 48–55.
- Emmett W.W., 1975. The channels and waters of the Upper Salmon River area, Idaho: U.S. Geological Survey Professional Paper 870-A.
- Ezekiel E.N, Hart A.I., Abowei J.F.N., 2011. The Physical and Chemical Condition of Sombreiro River, Niger Delta, Nigeria. Research Journal of Environmental and Earth Sciences 3(4): 327–340.
- Faniran A., 1986. African Landforms: An introduction to Geomorphology. Heinemann Books Ltd. Ibadan.
- Folk R.L., Ward W.C., 1957. Brazos River Bar: a Study in the Significance of Grain Size Parameters. Journal of Sedimentary Petrology 27: 3–26.
- Golitzen K.G. (ed.), 2005. The Niger River Basin: A Vision for Sustainable Management. Directions in Development 34518. The World Bank, Washington DC.
- Goudie A.S., 1981. Geomorphological Techniques. George Allen and Unwin.
- Gregory K.J., Wailing D.E., 1973. Drainage Basin form and Process: a Geomorphological Approach. Arnold, London.
- Jeje L.K., Nabegu A., 1982. Sediment Yield in Response to Rainstorms and Land use in Small Drainage Basins in Ife Area of Southwestern Nigeria. Nigerian Geographical Journal 25(1 and 2): 87–103.
- Jorgensen D.G., 2003.The Missouri River below Gavins Point- the Least Terns, Piping Plovers, Sandbars, and the Natural Hydrograph.The Missouri River Technical Committee of the Siouxland Chamber of Commerce.
- King C.A.M., 1966. Techniques in Geomorphology. Arnold, London.
- Lam K.C., 1978. Soil Erosion, Suspended Sediment and Solute Production in Three Hong Kong Catchments. Journal of Tropical Geography, Geography 47: 51–62.
- Langbein W.B., 1962. The concept of entropy in Landscape Evolution. U.S. Geological Survey Professional Paper. 500-A.
- Leopold L.B., Maddock T., Jr., 1953. The hydraulic geometry of stream channels and some physiographic implications: U.S. Geological Survey Professional Paper 252, 57 p.
- Leopold L.B., Wolman, M.G., Miller J.P., 1964. Fluvial Processes in. Geomorphology. W.H. Freeman and Company, New York.
- Leys K 1997. Rivers and their catchments: channel form and processes. Information and Advsiory Note Number 79, March 1997. Scottish Natural Heritage. Online: www.snh.org.uk/publications/on-line/advisorynotes/79/79.html.
- Mackey P., Barlow P.M., Ries K.G., III. 1998. Relations between discharge and wetted perimeter and other hydraulic-geometry characteristics at selected streamflow-gaging stations in Massachusetts: U.S. Geological Survey Water-Resources Investigations Report 98–4094.
- Martinez F.B, Mijares M.B.B, Galera I.C., 2011. Assessment of the Water Quality of Mamba River of Mts. Palaypalay/Mataas na Gulod, Southern Luzon, Philippines 2011 International Conference on Chemistry and Chemical Process IPCBEE 10.
- Morisawa M.E., 1968. Streams: their Dynamics and Morphology McGraw-Hill, New York.
- Morisawa M. E. 1976. Geomorphology Laboratory Manual. John Wiley, New York.
- NEDECO [Netherlands Engineering Consultants], 1961. River Studies: The Waters of the Niger Delta. The Hague.
- O’Connora J.E, Myrtle A.J., Haluska T.L., 2003. Flood plain and channel dynamics of the Quinault and Queets Rivers, Washington, USA. Geomorphology 51: 31–59.
- Ofomata G.E.K., 1974. Trends in Geomorphology and their Relevance to School Geography. Bulletin, Ghana Geographical Association 16: 16–26.
- Park C.C., 1977. World-wide variations in hydraulic geometry exponents of stream channels – an analysis and some observations: Journal of Hydrology 33: 133–146.
- Parker G., Wilcock P.R., Paola C., Dietrich W.E., Pitlick J., 2007. Physical basis for quasi-universal relations describing bankfull hydraulic geometry of single-thread gravel bed rivers. Journal of Geophysical Research 112: 21 p.
- Parker G., 1979. Hydraulic geometry of active gravel rivers. Journal of the Hydraulics Division 109(1): 185–1201.
- Ritter D.F., 1986. Process geomorphology. W.C.Brown Publishers.
- Rosgen D.L., 1994. A classification of natural rivers. Catena 22: 169–199.
- Short K.C., Stauble A.J., 1967. Outline of the Geology of the Niger Delta. American Association of Petroleum Geologists, Bulletin 51: 761–779.
- Simon A., Castro J., 2003. Measurement and analysis of alluvial channel form. In: G.E.Kondolf, H.Piegay (eds), Tools in fluvial geomorphology. John Wiley and Sons, Chichester: 291–322.
- Tandon S.K., 2012. Living with 'disturbed' large river systems: Securing river futures with River Science. IGCP Annual Meeting and Conference on Tropical Rivers: Hydro-Physical Processes, Impacts, Hazards and Management. IGCP 582: IIT Kanpur.
- Thornes J.B., 1979. Fluvial Processes. In: C.Embleton, Thornes J. (eds), Process in Geomorphology, Arnold, London.
- Williams G.P., 1978, Hydraulic-geometry of river cross sections – Theory of minimum variance. U.S. Geological Survey Professional Paper 1029, 47 p.
- Wolman M.G., 1955. The Natural Channel of Brandywine Creek Pennsylvania. U.S. Geological Survey Professional Paper 271.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-81c0f91e-abb5-46c2-8056-f727aa89fe24