Assessment of Groundwater Quality and its Suitability for Irrigation Purpose using Hydrogeochemical Properties

Document Type : Research Paper

Authors

1 PhD. Faculty of Natural Resources, University of Tehran, Iran

2 Associate Professor, Faculty of Natural Resources, University of Tehran, Iran

3 Professor, Faculty of Natural Resources, University of Tehran, Iran

Abstract

Groundwater resources are important sources of fresh water for the agricultural sector in Tashk-Bakhtegan and Maharloo basin in Fars province, Iran. In this study, data were collected from 420 groundwater samples to assess the sustainability of groundwater for irrigation using hydrochemical properties. The groundwater quality was evaluated using 15 hydrogeochemical indices, namely Sodium Adsorption Ratio (SAR), Magnesium Hazard (MH), Salinity Hazard (SH), Chloride (Cl-), Permeability Index (PI), Total Dissolved Solids (TDS), Potential Salinity (PS), Total Hardness (TH), Kelley’s Ratio (KR), Sodium Percentage (SP), Chloro-Alkaline Index I (CAI-I), Residual Sodium Bicarbonates (RSBC), Synthetic Harmful Coefficient (K), and Base Exchange Index (r_1), along with Meteoric Genesis Index (r_2). The results of these indices indicated that the GWQ was totally different in the north and south of the study area. It is mainly acceptable for irrigation based on SAR, MH, SH, Cl-, TDS, PS, TH, KR, SP, CAI-I, and K indices in the northern parts, while it has limitations for use in the agricultural sector in most parts of the southern areas. Based on PI and RSBC indices, GWQ is entirely acceptable for irrigation all over the basin. According to the results of r_1 and r_2 indices, GWQ belongs to Na+-HCO3- and shallow water percolating types in the northern parts, while it belongs to Na+-SO42- and deep water percolating types in the southern parts. Regarding the Land Use/ Land Cover map, agricultural lands and rangelands are mainly located in center toward north of the basin, where the GWQ is more suitable for irrigation.

Keywords

Main Subjects

References

Abbasnia, A., Yousefi, N., Mahvi, A.H., Nabizadeh, R., Radfard, M., Yousefi, M., and Alimohammadi, M. 2019. Evaluation of groundwater quality using water quality index and its suitability for assessing water for drinking and irrigation purposes: Case study of Sistan and Baluchistan province (Iran). Human and Ecological Risk Assessment. 25, 988-1005.
Abdalazem, A. H., Gamee, M.A., Hamdan, A., Awad, A.A.M. and Mohamed, A.G. 2020. Groundwater Quality Assessment for Irrigation in West Edfu Region, Aswan, Egypt. Assiut Journal of Agriculture Sciences. 51, 125-149.
Abdulhussein, F.M. 2018. Hydrochemical Assessment of Groundwater of Dibdibba Aquifer in Al-Zubair Area, Basra, South of Iraq and its Suitability for IrrigationPurposes. Iraqi Journal of Science. 59, 135-143.
Aghazadeh, N., and Mogaddam A. A. 2011. Investigation of hydrochemical characteristics of groundwater in the Harzandat aquifer, Northwest of Iran. Environment Monitoring Assessment. 176, 183-195.
Almodaresi, S. A., Mohammadrezaei, M., Dolatabadi, M., and Nateghi, M. R. 2019. Qualitative Analysis of Groundwater Quality Indicators Based on Schuler and Wilcox Diagrams: IDW and Kriging Models. Journal of Environmental Development. 4, 903-912.
Anantha, R.V., and Chandrakanta, G. 2014. Major ion chemistry, hydro-geochemical studies and mapping of variability in ground water quality of Sitanadi basin, Southern Karnataka. Octa Journal of Environmental Research. 2, 178-196.
Asadi, E., Isazadeh, M., Samadianfard, S., Ramli, M.F., Mosavi, A., Nabipour, N., Shamshirband, S., Hajnal, E., and Chau, K. W. 2020. Groundwater Quality Assessment for Sustainable Drinking and Irrigation. Sustainability. 12, 177.
Balamurugan, P., Kumar, P., and Shankar, K. 2020. Dataset on the suitability of groundwater for drinking and irrigation purposes in the Sarabanga River region, Tamil Nadu, India. Data Br. 29, 105255.
Bokhari, A.Y., and Ali Khan, M.Z. 1992. Deterministic modelling of AI-Madinah AI-Munawarah groundwater quality using lumped parameter approach. Journal of Earth Science. 5, 89-107.
Boyd, C.E. 2015. Total Hardness. In Water Quality: An Introduction, ed. C. E. Boyd, 179-187. Cham: Springer International Publishing.
Choubin, B., Khalighi Sigaroodi, S., and Malekian, A. 2016. Impacts of Large-Scale Climate Signals on Seasonal Rainfall in the Maharlu - Bakhtegan Watershed. Journal of Range and Watershed Management (Iranian Journal of Natural Resources). 69, 51-63.
Davis, S.N., and DeWiest, R.J. 1966. Hydrogeology.
Delavar, M., Morid, S., Morid, R., Farokhnia, A., Babaeian, F., Srinivasan, R., and Karimi, P. 2020. Basin-wide water accounting based on modified SWAT model and WA+ framework for better policy making. Journal of Hydrology. 124762.
Deshpande, A., and Narayanpethkar, A. 2019. Irrigation Water Quality: A Case Study of Khadki Nala basin, Mangalwedha Taluka, Solapur District, Maharashtra, India. International Journal of Engineering Research. 6, 8079-8087.
Doneen, L.D. 1962. The Influence of Crop and Soil on Percolating Water. In In Proceedings of the 1961 Biennial conference on Groundwater recharge 156–163. Berkeley, CA, USA.
Doneen, L.D. 1964. Water quality for agriculture. Department of Irrigation, University of California, Davis, 48.
Elsayed, S., Hussein, H., Moghanm, F.S., Khedher, K.M., Eid, E.M., and Gad, M. 2020. Application of Irrigation Water Quality Indices and Multivariate Statistical Techniques for Surface Water Quality Assessments in the Northern Nile Delta, Egypt. Water. 12, 3300.
Gupta, S. K., and Gupta, I. 1997. Management of saline soils and waters. Scientific Publishers.
Harrington, L., J. Harrington, Jr., and Kettle N. 2007. Groundwater depletion and agricultural land use change in the high plains: a case study from Wichita County, Kansas. Prof Geogr. 59, 221-235.
Hwang, J.Y., Park, S., Kim, H.K., Kim, M.S., Jo, H.J., Kim, J.I., Lee, G.M., Shin, I.K., and Kim, T.S. 2017. Hydrochemistry for the assessment of groundwater quality in Korea. JACEN. 6, 1.
Ibraheem, A.M., and Mazhar Nazeeb Khan, S. 2017. Suitability assessment of groundwater for irrigation purpose in Veppanthattai block, Perambalur district, Tamil Nadu. WSN. 81, 81-93.
Ibrahim, K.O., Gomo, M., and Oke, S.A. 2019. Groundwater quality assessment of shallow aquifer hand dug wells in rural localities of Ilorin northcentral Nigeria: Implications for domestic and irrigation uses. Groundw. Sustainable Development. 9, 100226.
Karakuş, C.B., and Yıldız, S. 2019. Evaluation for Irrigation Water Purposes of Groundwater Quality in the Vicinity of Sivas City Centre (Turkey) by Using Gis and an Irrigation Water Quality Index. Irrig. Drain. 69, 121-137.
Kawo, N.S., and Karuppannan, S. 2018. Groundwater quality assessment using water quality index and GIS technique in Modjo River Basin, central Ethiopia. Journal of African Earth Sciences. 147, 300-311.
Kelley, W.1963. Use of saline irrigation water. Soil Sciences. 95, 385-391.
Khosravi, R., Fallahzadeh, R.A. and Taghavi, M. 2017. Use of geographic information system and water quality index to assess groundwater quality for drinking purpose in. Desalination Water Treatment. 67, 74–83.
Khosravi, R., Zarei, M., and Bigalke, M. 2018. Characterizing Major Controls on Spatial and Seasonal Variations in Chemical Composition of Surface and Pore Brine of Maharlu Lake, Southern Iran. Aquatic Geochemistry.24, 27-54.
Li, P., He, S., Yang, N., and Xiang, G. 2018. Groundwater quality assessment for domestic and agricultural purposes in Yan’an City, northwest China: implications to sustainable groundwater quality management on the Loess Plateau. Environment Earth Sciences. 77, 775.
Li, P., Qian, H., Wu, J., Chen, J., Zhang, Y., and Zhang, H. 2014. Occurrence and hydrogeochemistry of fluoride in alluvial aquifer of Weihe River, China. Environment Earth Sciences. 71, 3133-3145.
Li, P., Wu, J., and Qian, H. 2016a. Hydrochemical appraisal of groundwater quality for drinking and irrigation purposes and the major influencing factors: a case study in and around Hua County, China. Arabian Journal of Geosciences. 9, 15.
Li, P., Zhang, Y., Yang, N., Jing, L., and Yu, P. 2016b. Major ion chemistry and quality assessment of groundwater in and around a mountainous tourist town of China. Exposure and Health. 8, 239-252.
Madhav, S., Ahamad, A., Kumar, A., Kushawaha, J., Singh, P., and Mishra, P. 2018. Geochemical assessment of groundwater quality for its suitability for drinking and irrigation purpose in rural areas of Sant Ravidas Nagar (Bhadohi), Uttar Pradesh. Geology Ecology Landscape., 2, 127-136.
Mahabadi, S.A., Bavani, A.R.M., and Bgheri, A. 2018. Improving adaptive capacity of social-ecological system of Tashk-Bakhtegan Lake basin to climate change effects–A methodology based on Post-Modern Portfolio Theory. Ecohydrol Hydrobiology. 18, 365-378.
Malki, M., Bouchaou, L., Hirich, A., Brahim, Y.A., and Choukr-Allah, R. 2017. Impact of agricultural practices on groundwater quality in intensive irrigated area of Chtouka-Massa, Morocco. Science Total Environment. 574, 760-770.
Masoudi, R., Zehtabian, G.R., Ahmadi, H., and Malekian, A. 2015. Assessment of trends in groundwater quality and quantity of Kashan plain. Desert Management. 3, 65-78.
Nagaraju, A., Kumar, K.S., and Thejaswi, A. 2014. Assessment of groundwater quality for irrigation: a case study from Bandalamottu lead mining area, Guntur District, Andhra Pradesh, South India. Applied Water Science. 4, 385-396.
Nagaraju, A., Suresh, S., Killham, K., and Hudson-Edwards, K. 2006. Hydrogeochemistry of waters of mangampeta barite mining area, Cuddapah Basin, Andhra Pradesh, India. Turkish Journal of Engineering Environment Science. 30, 203-219.
Palanisamy, A., Karunanidhi, D., Subramani, T., and Roy, P. 2020. Demarcation of groundwater quality domains using GIS for best agricultural practices in the drought-prone Shanmuganadhi River basin of South India. Environmental Sciences Pollution Research.20, 1-10.
Panaskar, D., Wagh, V., Muley, A., Mukate, S., Pawar R., and Aamalawar, M. 2016. Evaluating groundwater suitability for the domestic, irrigation, and industrial purposes in Nanded Tehsil, Maharashtra, India, using GIS and statistics. Arabian Journal of Geosci. 9, 615.
Pourghasemi, H.R., Kariminejad, N., Amiri, M., Edalat, M., Zarafshar, M., Blaschke, T., and Cerda, A. 2020. Assessing and mapping multi-hazard risk susceptibility using a machine learning technique. Scientific Report. 10, 3203.
Priyanka, M., Venkata, M., and Ratnakar, D. 2017. Groundwater Quality Appraisal and Its Hydrochemical Characterization in and around Iron Ore Mine, Chitradurga, Karnataka. Journal of Hydrology. 1, 151-161.
Rao, N.S., Rao, P.S., Reddy, G.V., Nagamani, M., Vidyasagar, G., and Satyanarayana, N. 2012. Chemical characteristics of groundwater and assessment of groundwater quality in Varaha River Basin, Visakhapatnam District, Andhra Pradesh, India. Environment Monitoring Assessment. 184, 5189-5214.
Ravikumar, P., Somashekar, R., and Angami. M. 2011. Hydrochemistry and evaluation of groundwater suitability for irrigation and drinking purposes in the Markandeya River basin, Belgaum District, Karnataka State, India. Environment Monitoring Assessment. 173, 459-487.
Sawyer, C.H.1960. Environ. Chem. Eng. JSTOR.
Seth, R., Mohan, M., Singh, P., Singh, R., Gupta, V. K., Dobhal, R., Uniyal, D. P., and Gupta, S. 2015. Assessment of seasonal variations in surface water quality of Bageshwar District, Uttarakhand, India for drinking and irrigation purposes. Proceedings of the National Academy of Sciences, India. A Physical Sciences. 85, 283-293.
Singaraja, C. 2017. Relevance of water quality index for groundwater quality evaluation: Thoothukudi District, Tamil Nadu, India. Applied Water Sciences. 7, 2157-2173.
Singh, K.R., Goswami, A.P., Kalamdhad, A.S., and Kumar, B. 2020. Development of irrigation water quality index incorporating information entropy. Environment Development Sustainable. 22, 3119-3132.
Singh, U.V., Abhishek, A., Singh, K.P., Dhakate R., and Singh N.P. 2014. Groundwater quality appraisal and its hydrochemical characterization in Ghaziabad (a region of indo-gangetic plain), Uttar Pradesh, India. Applied Water Science. 4, 145-157.
Soleimani, H., Abbasnia, A., Yousefi, M., Mohammadi, A.A., and Khorasgani, F.C. 2018a. Data on assessment of groundwater quality for drinking and irrigation in rural area Sarpol-e Zahab city, Kermanshah province, Iran. Data Br., 17, 148-156.
Soleimani, H., Nasri, O., Ojaghi, B., Pasalari, H., Hosseini, M., Hashemzadeh, B., Kavosi, A., Masoumi, S., Radfard, M., and Adibzadeh A. 2018b. Data on drinking water quality using water quality index (WQI) and assessment of groundwater quality for irrigation purposes in Qorveh & Dehgolan, Kurdistan, Iran. Data Br., 20, 375-386.
Stuyfzand, P.J. 1989. Nonpoint source of trace element in potable groundwater in Netherland. Proceedings 18th TWSA Water Workings. Testing and Research Institute, KIWA.
Subbarao, M., and Reddy, M.R.B. 2018. Groundwater Quality Assessment in Srikalahasthi Mandal, Chittoor District, Andhra Pradesh, South India. IOSR Journal of Enginering. 8, 33-42.
Subramani, T., Elango, L., and Damodarasamy, S. 2005. Groundwater quality and its suitability for drinking and agricultural use in Chithar River Basin, Tamil Nadu, India. Environment Geology. 47, 1099-1110.
Szabolcs, I. 1964. The influence of irrigation water of high sodium carbonate content on soils. Agrokémia és talajtan, 13, 237-246.
Taheri, M., Gharaie, M.H.M., Mehrzad, J., Afshari, R., and Datta, S. 2017. Hydrogeochemical and isotopic evaluation of arsenic contaminated waters in an argillic alteration zone. Journal of Exploration Geochemistry. 175, 1-10.
Tahmasebi, P., Mahmudy-Gharaie, M.H., Ghassemzadeh, F., and Karimi Karouyeh, A. 2018. Assessment of groundwater suitability for irrigation in a gold mine surrounding area, NE Iran. Environ. Earth Sciences. 77, 766.
Tarawneh, M.S.M., Janardhana, M.R., and Ahmed, M.M. 2019. Hydrochemical processes and groundwater quality assessment in North eastern region of Jordan valley, Jordan. Hydrology Research. 2, 129-145.
Tijani, M.N. 1994. Hydrogeochemical assessment of groundwater in Moro area, Kwara State, Nigeria. Economic Environment Geology. 24, 194-202.
Verma, A., Yadav, B.K., and Singh, N. 2020. Hydrochemical monitoring of groundwater quality for drinking and irrigation use in Rapti Basin. SN . Applied Sciences. 2, 1-15.
WHO, (World Health Organization). 2004. Guidelines for drinking water quality. Geneva: World Health Organization.
Wilcox, L. 1955. Classification and use of irrigation waters. US Department of Agriculture.
Wu, J., Zhang, Y., and Zhou, H. 2020. Groundwater chemistry and groundwater quality index incorporating health risk weighting in Dingbian County, Ordos basin of northwest China. Chemie der Erde. 125607.
Xu, P., Feng W., Qian, H., and Zhang, Q. 2019. Hydrogeochemical characterization and irrigation quality assessment of shallow groundwater in the central-western Guanzhong basin, China. Intenational Journal of Environment Research health. 16, 1492.
Yang, W., Zhao, Y., Wang, D., Wu, H., Lin, A., and He, L. 2020. Using Principal Components Analysis and IDW Interpolation to Determine Spatial and Temporal Changes of Surface Water Quality of Xin’anjiang River in Huangshan, China. International Journal Environment Research. 17, 2942.
Zhou, J., Wu, B., Wang, Y., and Guo, X.J. 2009. Distribution and quality assessment of medium salinity groundwater in plain areas in Tarim Basin, Xinjiang. China Rural Water Hydropower. 9, 32-36.
Zhou, Y., Li, P., Xue, L., Dong, Z., and Li, D. 2020. Solute geochemistry and groundwater quality for drinking and irrigation purposes: a case study in Xinle City, North China. Cheme der Erde, 12560.
Environmental Resources Research
Volume 10, Issue 2
July 2022
Pages 221-236

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