Assessment of Irrigation Water Quality and Suitability for Irrigation in the Fincha’a Valley Sugar Estate, Nile Basin of Western Ethiopia

Authors

  • Getahun Kitila Wollega University
  • Heluf Gebrekidan Haramaya University
  • Tena Alamrew Haramaya University

Keywords:

Water quality, Irrigation, Fincha’a Sugar Estate, Electrical conductivity, Residual sodium carbonate

Abstract

A number of factors like geology, soil, effluents, sewage disposal and other environmental conditions in which the water stays or moves and interacts are among the factors that affect the quality of irrigation water. This study was conducted to determine the quality and suitability of different water sources for irrigation purpose in Fincha’a Valley Sugar Estate (FVSE), within the Nile Basin of Western Ethiopia. A total of 80 water samples were collected from different sources viz., reservoir, rivers, diversion weir, canals, pump stations, drains, and groundwater of the study area. Physico-chemical properties including electrical conductivity (EC), hydrogen ion concentration (pH), total dissolved solids (TDS), major cations (Ca, Mg, K, Na) and anions (HCO3 and Cl) were analyzed in the laboratory and sodium adsorption ratio (SAR), residual sodium carbonate (RSC) and permeability Index (PI) were calculated from the major cations and anions studied for the criteria of irrigation water quality and suitability for irrigation. The study revealed that the values of EC, pH and TDS, and the amount of Cl-, HCO3, Na+, K+ , Ca2+ and Mg2+ varied from 100 to 730 μS cm-1, 6.6 to 7.3, 64 to 467.20 mg l-1,and 2.8 to 6.8, 2.04 to 5.6,3.8 to 7.8, 0.05 to 0.26, 8.4 to 19.9, 1.4 to 3.7 mmol l-1 and SAR, RSC, the PI values varied from 0.4 to 3. 9, -13 to -6.4 and 26.34 to 49. 9 %, respectively. The cationic and anionic constituents and SAR values of the samples increased from the upstream to the downstream. This is clear indication of the impacts of agricultural activities of the upstream and long-term irrigation in the downstream on the quality and suitability of water for irrigation purpose. If this trend continues, the gate for secondary salinization becomes significant. This necessitates the undertaking of certain management measures in the area for sustainability and productivity of the irrigation system in the FVSE.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Author Biographies

Getahun Kitila, Wollega University

College of Natural and Computational Sciences, Wollega University, Post Box No: 395, Nekemte, Ethiopia

Heluf Gebrekidan, Haramaya University

School of Natural Resource and Environmental Sciences, Haramaya University, Post Box No: 138,

Dire Dawa, Ethiopia

Tena Alamrew, Haramaya University

School of Natural Resource and Environmental Sciences, Haramaya University, Post Box No: 138,

Dire Dawa, Ethiopia

References

Ademe, A. (2001). Summary of Metrological Data (1979 - 2000), Fincha’a Research Station, Agriculture, Ethiopia. Pp 272.

Ahearn, D.S., Sheibley, R.S., Dahlgren, R.A., Anderson, M., Johnson, J., Tate, K.W. (2005). Land use and land cover influence on water quality in thelast free-flowing river draining the western Sierra Nevada, California. Journal of Hydrology 313: 234-247.

Ahmed, A. (2007). GIS and remote sensing integrated environmental impact assessment of irrigationproject in Fincha’a Valley area, Ethiopia. Catchment and Lake Research.

Alfred, K., Godfred, O., Elikem, K. (2011). Assessment of Surface Water Quality: The Perspective of the Weija Dam in Ghana. International Journal of Chemistry 3: 32-39.

AOAC (1990). Official Methods of Analysis of the Association Analytical chemists. 15th ed. Virginia, USA.

APHA (American Public Health Association), (1998). Standard Methods for the Examination of Water and Waste Water’.17th ed. Washington, D.C. 200005. pp. 1-30 to 40-175.

Appelo, C.A.J. and Postma. D. (2005). Geochemistry of ground water and pollution, 2nd ed. Balkema publishers, Leiden, pp: 7-20.

Asante, K., Quarcoopome, T. and Amevenku, F. (2005). Water Quality of the Weija Reservoir after 28 years of Impoundment. West African Journal of Applied Ecology 13:171-180.

Awulachew, S. B., Aster, Y.D., Makonnen, L., Willibald, L., Mekonnen A. and Tena, A. (2007). Water Resources and Irrigation Development in Ethiopia. Colombo, Sri Lanka: International Water Management Institute. Pp78.

Ayers, R.S. and Westcot, D.W. (1985). Water Quality for Agriculture, Irrigation and Drainage Paper 29, rev. 1, FAO, United Nations, Rome.

Bayissa Chala. (2007). Assessment of Malaria as a Public Health Problem in Fincha’a Sugar Factory based on Clinical Records and Parasitological Surveys. MSc Thesis. Addis Ababa University, Ethiopia.

Bezuayehu, T. (2006). Environmental impact of a Hydropower Dam in Fincha’aWatershed, Ethiopia: Land Use Changes, Erosion Problems, and Soil and Water Conservation Adoption. Sustainable Sloping Lands and Watershed Management Conference. Wageningen University, Wageningen, The Netherlands.

Causapé, J., Quílez, D. and Aragües, R. (2004). Assessment of irrigation and environmental quality at the hydrological basin level irrigation quality. Agricultural Water Management 70: 195-209.

Chopra, S.L. and Kanwar, J.S. (1980). Analytical Agricultural Chemistry’, Kalyan Publishers, New Delhi. pp. 168-307.

Dhirendra, M., Alok, K. and Namita, A. (2009). Assessment of the irrigation water quality of river ganga in Haridwar district. Rasāyan Journal of Chemistry 2(2): 285-292.

FAO. (1989). Water quality for agriculture. FAO, Rome, pp.

Fu, B.J., Zhao, W.W., Chen, L.D., Liu, Z.F., Lu, Y.H. (2005).

Eco-hydrological effects of landscape pattern change.

Landscape and Ecological Engineering 1: 25-32.

Fulazzaky, M.A. (2010). Water quality evaluation system to assess the status and the suitability of the Citarum river water to different uses. Environmental Monitoring and Assessment 168: 669-684.

Getahun, K., Heluf, G., Tena, A., Megersa, O., Hans, H. (2013). Land use changes induced by irrigation development in the Fincha'a sugar estate, Blue nile basin, Ethiopia. Journal of Biodiversity and Environmental Sciences 3(11): 31-47.

Getahun, K., Heluf, G., Tena, A., Geremew, L. (2013). Identification of groundwater level by using geoelectrical resistivity method at Fincha’a Sugar Estate, Blue Nile Basin, Western Ethiopia. Science Technology and Arts Research Journal 2(3): 114-125.

Greenberg, A.E., Clesceri, L.S. and Eaton, A.D. (1992). Standard Methods for the Examination of Water and Waste water (18thEd.). American public Health Association, American Water Works Association, Water Pollution Control Federation, Washington DC.

Heluf, G. (1985). Investigation on Salt Affected Soils and Irrigation Water Quality in Melka Sedi-Amibara Plain, Rift Valley Zone of Ethiopia, MSc Thesis, School of Graduate Studies, Addis Ababa University. Ethiopia. Pp 131.

Islam, M.R., Jahiruddin, M. and Islam, S. (2004). Assessment of Arsenic in the water-soil-plant systems in Gangetic Floodplains of Bangladesh’. Asian Journal of Plant Science 3(4): 489-493.

Islam, M. S. and Shamsad, S.Z.K.M. (2009). Assessment of Irrigation Water Quality of Bogra District in Bangladesh. Bangladesh Journal of Agricultural Research 34(4): 597- 608.

Latha, M.R., Indirani, R. Sheeba, S. and Francis, H.J. (2002).Groundwater quality of Coimbatore district, Tamil Nadu. Journal of Ecobiology 14(3): 217-221.

Lee, S.W., Hwang, S.J., Lee, S.B., Hwang, H.S., Sung, HC. (2009). Landscape ecological approach to the relationships of land use patterns in watersheds towater quality characteristics. Landscape and Urban Planning 92: 80-89.

Mahmud, R., Inoue, N. and Sen, R. (2007). Assessment of Irrigation Water Quality by Using Principal Component Analysis in an Arsenic Affected Area of Bangladesh. Journal of Soil of the Nature 1(2): 08-17.

Masoudi,M.,Patwardhan, A Mand Gore, S D.(2006). A new m ethodology for producing of risk maps of soil salinity, case study: Payab Basin, Iran. Journal of Applied Sciences and Environmental Management 10(3): 913.

Matthess, G. (1982). The Properties of Groundwater. John Willey and Sons, New York. Pp.406.

Megersa, O., Willibald, L. and Josef, F. (2009). Effect of Lake Basaka expansion on the sustainability of Metahara SE in the Awash River basin, Ethiopia. Water, sanitation and hygiene: sustainable development and multi sectoral approaches. 34th WEDC International Conference, Addis Ababa, Ethiopia.

Mekuria, T. (2003). Small scale irrigation for food security in sub-Saharan Africa. Report and recommendations of a CTA study visit Ethiopia, 20-29 January 2003, CTA Working Document Number 8031.The ACP-EU Technical Centre for Agricultural and Rural Cooperation (CTA), The Netherlands.

Mohan, I. and Kumar, A. (2009). Assessment of the Irrigation Water quality of River Water in Haridwar District. Chemistry Department, Chinmaya College of Sciences, Haridwar, Utarakhand, India.

Nata, T., Asmelash, B. and Bheemalingeswara, K. (2008). Initiatives, Opportunities and Challenges in Shallow Groundwater Utilization: a Case Study from Debrekidane Watershed, Hawzien Woreda, Tigray Region, Northern Ethiopia. Agricultural Engineering International: the CIGRE Journal. X: 22.

Ndegwa, G. M and Kiiru, I. (2003). Investigations on soil and water quality as affected by irrigation in turkana district, Kenya. Journal of Agriculture, Science and Technology 12 (1): 11-31.

Quddus, K.G. and Zaman, M.W. (1996). Irrigation water quality in some selected villages of Meherpur in Bangladesh Journal of Agricultural Sciences 23(1): 51-57.

Rachmad, F. and Nobukazu, N. (2013). Assessment of the relationship between land use land cover and water quality status of the tropical watershed: a case of Batang Merao Watershed, Indonesia. Journal of Biodiversity and Environmental Sciences 3(11): 21-30.

Ragab, A.M. (2004). Influence of irrigation with saline drainage waters on some soil physico-chemical properties of the northern west area of Nile delta. Fayom Journal of Agricultural Research and Development 18(1): 133-142.

Ragab, A.A., Hellal, M. and Abd El-Hady, M.(2008). Water Salinity Impacts on Some Soil Properties and Nutrients Uptake by Wheat Plants in Sandy and Calcareous Soil. Australian Journal of Basic and Applied Sciences 2(2): 225-233.

Raju, N.J. (2006). Hydrogeo chemical parameters for assessment of groundwater quality in the upper

Gunjanaeru River basin, Cuddapah District, Andhra Pradesh, India. Environmental Geology 52(6): 1067-1074.

Rao, N.S. and Devadas, D.J. (2005). Quality criteria for ground water use for development on an area. Journal of Applied Geochemistry 7(9): 145-160.

Rezwanul, M., Naoto, I. And Ranjit, S. (2007). Assessment of Irrigation Water Quality by Using Principal Component Analysis in Arsenic Affected Area of Bangladesh. Journal of Soil and Nature 1(2): 08-17.

Richards, L.A. (1954).Diagnosis and improvement of saline and alkali soils. Agricultural Handbook. USDA. No. 60, p. 147.

RTI (Royal Tropical Institute), (1991). Analytical Methods of the Laboratory for Soil, Plant and Water Analysis. Part I: Methods for Soil Analysis. Amsterdam, the Netherlands.

Sadashivaiah, C., Ramakrishnaiah, C.R. and Ranganna, G. (2008). Hydro chemical analysis and evaluation of groundwater quality in Tumkur Taluk, Karnataka State, India. International Journal of Environmental Research and Public Health 5(3): 158-164.

Sen, R., Rahman, M.M. and Zaaman M.W. (2000). Ground water and surface water quality for irrigation in some selected sites of Tongi in Gazipur district; Bangladesh Journal of Agricultural Research 25(40): 593-601.

Shamsad, S.Z.K.M. and M. S. Islam. (2005). Hydrochemical behavior of the water resource of Sathkhira Sadar of southwestern Bangladesh and its impact on environment. Bangladesh Journals of Water Resource Research 20: 43-52.

Singh, A.K., Mondal, G.C., Suresh Kumar, T.B., Singh, B.K. Tewary, A. (2008). Major ion chemistry, weathering processes and water quality assessment in upper catchment of Damodar River basin, India. Environmental Geology 54: 745-758.

Sukhdev, K. (2012). Assessment of Surface Water Quality for Drinking and Irrigation Purposes: A Case Study of Ghaggar River System Surface Waters. Bulletin of Environment, Pharmacology and Life Sciences 1(2):1-6.

Tena, A. (2002). Spatial and Temporal Variability of Awash River Water Salinity and the Contribution of Irrigation Water Management in the Development of Soil Salinization Problem in the Awash Valley of Ethiopia, PhD. Thesis, Institute of Hydraulics and Rural Water Management, Department of Water, Atmosphere and Environment, University of Natural Resources Applied Life Sciences, BOKU Vienna.

UNESCO/WHO/UNEP. (1996). Water quality Assessment a Guide to Use of Biota, Sediments, and water in Environmental monitoring (2nd Ed.)

Vishwanath, G. and Murthy, K.S. (2005). Environmental quality status of Amanikere Tank, Tumkur, Karnataka. Indian Mineralogist 1: 85-88.

Worku, B. (1995). Agro ecological Conditions and Back Ground Information on Fincha’a SugarFactory, Fincha’a research station, Ethiopia. MSc Thesis. Alemaya University, Ethiopia.

Xia, L.L., Liu, R.Z, Zao, Y.W. (2012). Correlation analysis of landscape pattern and water quality in Baiyangdian watershed. Procedia Environmental Sciences 13: 2188–2196.

Downloads

Published

28.03.2014

How to Cite

Kitila, G., Gebrekidan, H., & Alamrew, T. (2014). Assessment of Irrigation Water Quality and Suitability for Irrigation in the Fincha’a Valley Sugar Estate, Nile Basin of Western Ethiopia. Journal of Science, Technology and Arts Research, 3(1), 64–73. Retrieved from https://journals.wgu.edu.et/index.php/star/article/view/472

Issue

Section

Original Research

Categories

Plaudit