Morphometric Analysis of Asa and Oyun River Basins, North Central Nigeria Using Geographical Information System
American Journal of Civil Engineering
Volume 5, Issue 6, November 2017, Pages: 379-393
Received: Oct. 23, 2017;
Accepted: Nov. 8, 2017;
Published: Dec. 14, 2017
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Mudashiru Rofiat Bunmi, Department of Civil Engineering, Federal Polytechnic Offa, Offa, Nigeria
Olawuyi Maryam Yusuf, Department of Civil Engineering, Federal Polytechnic Offa, Offa, Nigeria
Amototo Ismail Oladapo, Department of Civil Engineering, Federal Polytechnic Offa, Offa, Nigeria
Oyelakin Mutiu Adekunle, Department of Civil Engineering, Federal Polytechnic Offa, Offa, Nigeria
Geographical Information System (GIS) and image processing techniques can be used for the identification of morphological features and analyzing properties of basin. The morphometric parameters of basin include the linear, aerial and relief aspects. The present study focused on the evaluation and analysis of the morphometric parameters such as Stream Order (Nu), Stream Length (Lu), Bifurcation Ratio (Rb), Drainage Density (Dd), Stream Frequency (Fs), Texture Ratio (T), Elongation Ratio (Re), Circulatory Ratio (Rc) and Form Factor (Rf) e.t.c. The study areas are Asa River Basin and Oyun River Basin. The GIS based morphometric analysis of these River Basins revealed that both the Asa River Basin and Oyun River Basins are fourth order basins which indicates their drainage pattern to be mainly dendritic type thereby showing homogeneity in texture and less of structural control. Total stream number of Asa River Basin is 54, in which 37 are first order, 12 are second order, 4 are third order and 1 is fourth order, and while the total stream number of Oyun River Basin is 56, in which 45 are first order, 7 are second order, 2 are third order and 2 are fourth order streams. The length of stream segment is maximum for first order stream and decreases as the stream order increases. The drainage density (Dd) of study area of Asa River Basin is 0.39km/km2 and Oyun River Basin is 0.36km/km2, an indication that the two River Basins are not much affected by structural disturbance. The study and result from the findings will help in determining peak runoff in the basin which helps in managing the water resources in the basins for sustainable development of the basin area.
Mudashiru Rofiat Bunmi,
Olawuyi Maryam Yusuf,
Amototo Ismail Oladapo,
Oyelakin Mutiu Adekunle,
Morphometric Analysis of Asa and Oyun River Basins, North Central Nigeria Using Geographical Information System, American Journal of Civil Engineering.
Vol. 5, No. 6,
2017, pp. 379-393.
Aditya P. Nilawar and M. L. Walker (2014), Investigation on Change Detection in Chandpur Watershed area by using RS and GIS. International Jour. of Multidisciplinary and Current Res. V. 2, 2321-3124.
Ajibade, L. T., Ifabiyi, I. P., Iroye K. A., \Ogunteru, S. (2010). Morphometric Analysis of Ogunpa and Ogbere Drainage Basins, Ibadan, Nigeria. Ethiopian Journal of Environmental Studies and Management, 3 (1), 13-19.
Al-Saud M., (2009). Morphometric Analysis of Wadi Aurnah Drainage System, Western Arabian Peninsula. The Open Hydrology Journal, 3, 1-10.
Bilewu, S. O. Bolaji Sule, Ayanniyi Ayanshola (2009), Optimum Parameter Selection for the Morphemetric Description of Watersheds: A case Study of Central Nigeria.
Chopra, R., Dhiman, R. D., Sharma, P. K. (2005), Morphometry from maps, in: Dury, G. H. (Ed), Essays in Geomorphology, American Elsevier Publ. Co., New York, Pp. 235-274.
Dutta, D., Sharma, J. R., &Adiga, S. (2002). Watershed characterization, prioritization, development planningand monitoring remote sensing approach, technical report ISRO-NNRMS-TR-103-2002 Bangalore: ISRO.
Easternbrook (2000), Surface Processes and Landforms, Macmillian Publishing Co., New York, Pp. 325.
Easthernbrook, D. J. (1993), Surface Processes and Landforms, Macmillian Publishing Co., New York, 325pp.
Eze E. B., Efiong J., (2010). Morphometric Parameters of the Calabar River Basin: Implication for Hydrologic Process. Journal of Geography and Geology, 2 (1\), 18-16.
Gregory, K. J. and Walling, D. E. (2006), Drainage Basin Form and Process. A Geomorphological Approach, Edward Arnold, London, Pp. 456.
Hari Kristina, M., Nageswara Rao K., Swarna Latha P., and Arun Kumar P. (2008). Morphometric Analysis of Gostani River Basin in Andhra Pradesh State, India using Spatial Information Technology, Department of Civil Engineering, GIT, GITAM University, Visakhapatnam - 530, p. 45.
Horton R. E. (1932) in Waikar M. L. and Aditya P. N., (2014). Morphometric Analysis of a Drainage Basin Using Geographical Information System: A Case study. International Journal of Multidisciplinary and Current Research. Pg 179-184.
Horton, R. E. (1945) in Waikar M. L. and Aditya P. N., (2014). Morphometric Analysis of a Drainage Basin Using Geographical Information System: A Case study. International Journal of Multidisciplinary and Current Research. Pg 179-184.
Horton, R. E. (2010), Drainage Basin Characteristics, Transaction. American geophysical Union, 13, Pp. 350-361.
Ifabiyi, I. P. (2004), A Reduced Rank Model of Drainage Basin Response to Runoff in Upper Kaduna Catchment of Northern Nigeria. Geostudies Forum, 2 (1), 109-117.
Jain, V. and Sinha, R. (2003) Evaluation of Geomorphic Control on Flood Hazard Through Geomorphic Instantaneous Unit Hydrograph. Current Science, 85 (11), 26-32.
Jones (2007), Global Hydrology Processes Resources and Environmental Management, Longman, Pp. 399.
Jenita Mary and Zahid Husain (2011). Morphometric Analysis of the Manas River Basin using Earth Observation Date and Geographical Information System, International Journal of Geomatics And Geosciences, Volume 2, No. 2, 647-654.
Morisahla M. E., (1999), Relation of Morphometric Properties to Runoff in the little Mill Creek, Ehin, Drainage Basin”, Tech Report 17, Columbia University, Department of Geology, New York.
Miller, V. C (1999). A Quantitative Geomorphic Study of Drainage Basin Characteristic in the Clinch, Mountain Area, Verdinia and Tennesser, Project NR 389-042. Tech. Rept. 3 Columbia University, Department of Geology, ONR, Geography Branch, New York.
Nookaratnam, K., Srivastava, Y. K., Venkateswarao, V., Amminedu, E. and Murthyk. S. R., 2005, Check dam positioning by prioritization of micro watersheds using SYI model and morphometric analysis Remote sensing and GIS perspective, journal of the Indian Society of Remote Sensing, 33 (1), pp 2528.
Okoko, E. E. and Olujinmi, J. A. B. (2003), The Role of Geomorphic Features in Urban Flooding: The case of Ala River in Akure, Nigeria, Int. Journal of Environmental Issues, 1 (1), 192-201.
P. Jayashree, B. Mahalingam, and Ramu (2013), Morphometric Analysis of Tungabhadra Drainage Basin in Karnataka using GIS, Journal of Engineering, Computers and Applied Science, Vol. 2, No. 7.
Pranjit K. S., Kalyanjit S., Prem K. and Ankita S. (2013). Geospatial study on morphometric characterization of Umtrew River basin of Meghalaya, India. International Journal of Water Resources and Environmental Engineering. Vol. 5 (8), pp. 489-498, August, 2013.
Rastogi, R. A. and Sharma, T. C. (1976) Quantitative analysis of drainage basin characteristics. Jour. Soil and water Conservation in India, v. 26 (1&4), pp. 18-25.
Reddy P. J. R., (2008). Hydrological Principles Published by University Science Press, India.
Schumm, S. A. (1956) Evolution of Drainage Systems and Slopes In Badlands At Perth Amboy, New Jersey. Bull. Geol. Soc. Amer., V. 67, Pp. 597-646.
SCS. Soil Conservation Service (1972). National Engineering Handbook, section 4, Hydrology. US Government Printing Office, Washington DC, 544.
SCS. Soil Conservation Service (2002). Design of hydrograph. US Department of Agriculture. Washington, DC 2002.
SCS. Soil Conservation Service. (1957). Use of storm and watershed characteristics in synthetic hydrograph analysis and application: V Mockus. U. S. Dept. of Agriculture, Washington, DC 1957.
Strahler, A. N. (1957) in Waikar M. L. and Aditya P. N., (2014). Morphometric Analysis of a Drainage Basin Using Geographical Information System: A Case study. International Journal of Multidisciplinary and Current Research. Pg 179-184.
Waikar M. L. and Aditya P. N., (2014). Morphometric Analysis of a Drainage Basin Using Geographical Information System: A Case study. International Journal of Multidisciplinary and Current Research. Pg 179-184.