Assessment and Mapping of Water Quality of a Shallow Aquifer near an Industrial Belt using Hydro-chemical Parameters and Irrigation Water Quality Index
DOI:
https://doi.org/10.52151/jae2023601.1797Keywords:
Eloor, industrial pollution, irrigation water quality, IWQIAbstract
Irrigation water quality issues arising from salt water intrusion or industrial pollution are experienced in many parts of Kerala state. This study was undertaken at Eloor, near Cochin, which is under the threat of industrial pollution, with the twin objectives of assessing the shallow groundwater quality of an area, and to evaluate the performance of Irrigation Water Quality Index (IWQI) as compared to hydro-chemical parameters. Water samples collected from 10 open wells during three different seasons for two years were analysed, and physico-chemical characteristics of water viz., Electrical Conductivity (EC), Sodium (Na), Potassium (K), Calcium (Ca), Magnesium (Mg), Chloride (Cl), Carbonate (CO3), and Bicarbonate (HCO3) were determined. Sodium Adsorption Ratio (SAR), Kelly Index (KI), Sodium Percentage (Na%), and Residual Sodium Carbonate (RSC) were calculated. Further, the combined measure IWQI was also computed. The study revealed that groundwater in many parts of Eloor was of poor quality with serious quality concerns during pre-monsoon season, where the IWQI of less than 70 was seen in about 85% of the geographical area. There were wide differences between the water quality indications given by single hydro-chemical methods and the combined hydro-chemical method. The spatial interpolation of EC values suggested that groundwater over the entire region is suitable for irrigation, while as per SAR classifications only 10% of the study area has water unfit for irrigation. The IWQI indicated that 70% of the area has poor quality of irrigation water. The study showed that IWQI combines the inferences from all individual hydro-chemical parameters, and IWQI should preferably be used to provide better and more comprehensive assessment of the irrigation water quality and for informed decision on suitability of water for irrigation planning and management.
References
Abbasnia A; Alimohammadi M; Mahvi A H; Nabizadeh, R; Yousefi M; Mohammadi A A; Pasalari H; Mirzabeigi M. 2018. Assessment of groundwater quality and evaluation of scaling and corrosiveness potential of drinking water samples in villages of Chabahr city, Sistan and Baluchistan province in Iran. Data Brief, 16, 182-192. doi: 10.1016/j.dib.2017.11.003.
Anon. 2017. Annual Report 2016-2017. Department of Agriculture, Cooperation and Farmers Welfare, Ministry of Agriculture and Farmers Welfare, Government of India. Available: https://agricoop.nic.in/Documents/Annual_rpt_201617.pdf [Accessed on: 19 December 2022].
Anon. 2020. Economic Review 2020. State Planning Board, Government of Kerala, Thiruvananthapuram, Kerala, India. https://spb.kerala.gov.in/economic-review/ER2020/ [Accessed on: 13 March, 2023]
Ayers R S; Westcot D W. 1999. Water Quality for Agriculture. Food and Agriculture Organization of the United Nations, Rome, 29,174-179.
Batarseh M; Imreizeeq E; Tilev S; Al Alaween M; Suleiman W; Remeithi A l; Tamimi A M; Alawneh M. 2021. Assessment of groundwater quality for irrigation in the arid regions using irrigation water quality index (IWQI) and GIS-Zoning maps: Case study from Abu Dhabi Emirate, UAE, Groundw. Sustainable Dev., pp: 14. https://doi.org/10.1016/j.gsd.2021.100611
Behairy R A; Baroudy A A; Ibrahim M M. 2021. Modelling and Assessment of Irrigation Water Quality Index Using GIS in Semi-Arid Region for Sustainable Agriculture. Water Air Soil Pollut., 232(9), 352 - 370. https://doi.org/10.1007/s11270-021-05310-0
BIS. 2019. Quality of Irrigation Water—Guidelines (First Revision). Bureau of Indian Standards, Manak Bhavan, 9 Bahadur Shah Zafar Marg, New Delhi 110002, pp: 6.
Brindha K; Elango L. 2013. Environmental assessment of water quality in Nagarjuna Sagar reservoir, India. Earth Resour., 1(1), 33-36. https://doi.0.12966/er.05.05.2013
Cieszynska M; Wesolowski M; Bartoszewicz M; Michalska M; Nowacki J. 2012. Application of physicochemical data for water-quality assessment of watercourses in the Gdansk Municipality (South Baltic coast). Environ. Monit. Assess., 184, 2017-2029. doi: 10.1007/s10661-011-2096-5
Dhembare A J. 2012. Assessment of water quality indices for irrigation of Dynaneshwar Dam Water, Ahmednagar, Maharashtra, India. Arch. Appl. Sci. Res., 4(1), 348-352. http://scholarsresearchlibrary.com/archive.html
Djuma A W; Talaen M S. 2015. The analysis of chloride in Argentometry on dig well water in Kupang Regency of Kupang Tengah District Oebelo village In 2014. J. Info. Kesehatan, 13(2), 1083-1090. doi: 10.31965/infokes.v13i2.99
Fakhre A. 2014. Evaluation of hydrogeochemical parameters of groundwater for suitability of domestic and irrigational purposes: A case study from central Ganga Plain, India. Arabian J. Geosci., 7, 4121-4131. https://doi.org/10.1007/s12517-013-1055-6
Greenpeace India. 2003. Status of Human Health at the Eloor Industrial Belt, Kerala- India. Greenpeace India, assisted by the Occupational Health and Safety Centre-Mumbai, First Level Report, 4-13. Available at https://www.greenpeace.to/publications/HIL%20 report%202003.pdf.
Hardaha M K. 2014. Soil aquifer treatment of municipal sewage under layered soil columns. J. Agric. Eng., 51(2), 44-53.
Hem J D. 1985. Study and interpretation of the chemical characteristics of natural water USGS. Water Supply Pap., 2254, 117-120.
Jayasree S; James T J. 2021. An assessment of groundwater quality for drinking and irrigation use in a flood affected area: Chendamangalam, Ernakulam District, Kerala, India. IOSR J. Environ. Sci. Toxicol. Food Technol., 15(4), 40-51. doi: 10.9790/2402- 1504014051.
Jayathunga K; Diyabalanage S; Frank A H. 2020. Influences of seawater intrusion and anthropogenic activities on shallow coastal aquifers in Sri Lanka: Evidence from hydrogeochemical and stable isotope data. Environ. Sci. Pollut. Res., 27(18), 23002-230014.
Kala N; Leena C L. 2018. Paddy cultivation in Kerala: A case study in Palakkad district. Shanlax Int. J. Arts Sci. Humanit., 5(4), 405-412.
Kelley W P. 1940. Permissible composition and concentration of irrigated waters. In: Proc. ASCF, 66, 607-613.
Langhoff E; Steiness I. 1982. Potentiometric analysis for sodium and potassium in biological fluids. Clin. Chem., 28(1), 170-172.
Li P; Wu J; Qian H. 2013. Assessment of groundwater quality for irrigation purposes and identification of hydrogeochemical evolution mechanisms in Pengyang County, China. Environ. Earth Sci., 69, 2211-2215.
Meireles A; Andrade E M; Chaves L; Frischkorn H; Crisostomo L A. 2010. A new proposal of the classification of irrigation water. Rev. Cienc. Agron., 41, 349-357.
Mhaske A R; Taley S M; Shinde; Katkar R N. 2015. Spatial assessment of wastewater quality of Nag River. J. Agric. Eng., 52 (1), 31-42.
Mhaske A R. 2020. Emitters and filters performance under treated sevage water reuse with drip irrigation. J. Agric. Eng., 57(1), 63-72.
Musser A K L; Caballero M; Amaya D; Maroto P J. 1998. Evaluation of a hand-held electrical conductivity meter for detection of subclinical mastitis in cattle. Am. J. Vet. Res., 59(9), 1087-1091.
Ninal E; Benny N. 2015. Assessment of irrigation water quality in the selected areas of Ernakulam district. In: 25th Swadeshi Science Congress, Swadeshi Science Movement-Kerala, pp: 213.
Pak H Y; Chuah C J; Tan M L; Yong E L; Snyder S A. 2021. A framework for assessing the adequacy of Water Quality Index – Quantifying parameter sensitivity and uncertainties in missing values distribution. Sci. Total Environ., 751, 141982 - 141997. https://doi.org/10.1016/j.scitotenv.2020.141982
Prasanth S S V; Magesh N S; Jitheshlal K V; Chandrasekar N; Gangadhar K. 2012. Evaluation of groundwater quality and its suitability for drinking and agricultural use in the coastal stretch of Alappuzha District, Kerala, India. Appl. Water Sci., 2, 165-175. https://doi.org/10.1007/s13201-012-0042-5
Richards L A. 1954. Diagnosis and improvement of saline and alkaline soils. US Department of Agriculture Hand Book, Washington, 120 (3124), 800-822.
Saeedi M; Abessi O; Sharifi F; Meraji H. 2010. Development of groundwater quality index. Environ. Monit. Assess., 163, 327–335. http://dx.doi. org/10.1007/s10661-009-0837-5
Spandana M P; Suresh K R; Prathima B. 2013. Developing an irrigation water quality index for Vrishabavathi command area. Int. J. Eng. Res. Technol., 2, 821-830.
Sreekesh S; Sreerama Naik S R; Rani S. 2018. Effect of sea level changes on the groundwater quality along the coast of Ernakulam District, Kerala. J. Clim. Change, 4(2), 51-65. doi: 10.3233/JCC-1800013
Sutadian A D; Muttil N; Yilmaz A G; Perera B J C. 2016. Development of river water quality indices-A review. Environ. Monit. Assess., 188, 58 - 91.
Taloor A K; Pir R A; Adimalla N; Ali S; Manhas D S; Roy S; Singh A K. 2020. Spring water quality and discharge assessment in the Basantar watershed of Jammu Himalaya using geographic information system (GIS) and water quality Index (WQI). Ground Water Sustain. Dev., 10, 100364 - 100375.
Tsunogai S; Nishimura M; Nakaya S. 1968. Complexometric titration of calcium in the presence of larger amounts of magnesium. Talanta Open, 15(4), 385-390.
Umadevi A G; George M; Dharmalingam P; Abraham J P; Rajagopalan M; Balakrishnan D; Haridasan P P; Pillai M B. 2010. An investigation of the quality of undergroundwater at Eloor in Ernakulum District of Kerala, India. E-J. Chem., 7(3), 908- 914. https://doi.org/10.1155/2010/934708
Wilcox LV. 1955. Classification and Use of Irrigation Waters. US Department of Agriculture, Washington, DC, Circular No. 969, 19.
Yıldız S; Karakus C B. 2020. Estimation of irrigation water quality index with development of an optimum model: A case study. Environ. Dev. Sustain., 22, 4771-4786. https://link.springer.com/article/10.1007/ s10668-019-00405-5
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