Evaluation of water quality is important for the management of water resources. The current study is focused on the interpretation of the water quality monitoring data of the Tigris River in Iraq by the application of the principal component analysis (PCA), cluster analysis (CA), and water quality index (WQI). Twelve water quality parameters were taken from 14 stations along the river Ca2+, Mg2+, Na+, K+, Cl?,
,
,
, TH, TDS, BOD5, and EC to apply the PCA and CA. The results show that the mean of all the parameters was under the standards except Ca2+, EC, Mg2+, TH, and
. The amount of EC is the critical factor that affects the river water quality. The PCA obtained one principal component responsible for 97% of the variation caused by different pollution sources. The CA divided the river into three regions of sampling stations with similar water quality, the best in the north, and the worst in the far south. In this paper, the computer-automated tool (IraqWQI) was presented and evaluated, which has been developed by authors to classify and measure the quality of Iraqi surface water. The proposed index is of hundred degrees and includes six variables for drinking water quality Cl?, TH, TDS, COD, DO, and total coliform (TC) according to the Iraqi specifications. The result of the IraqWQI application showed a decrease in the water quality of the river and its suitability for drinking in the south of the country. The best value of the index was (81.48, Good) in Fishkhabour during winter, and the worst value was (46.23, Bad) in Qurnah during summer. The result of this study proved the success and importance of using statistical techniques
References
[1]
Kumar, B., Singh, U.K. and Ojha, S.N. (2018) Evaluation of Geochemical Data of Yamuna River Using WQI and Multivariate Statistical Analyses: A Case Study. International Journal of River Basin Management, 17, 143-155. https://doi.org/10.1080/15715124.2018.1437743
[2]
Ewaid1, S.H. and Abed, S.A. (2017) Water Quality Assessment of Al-Gharraf River, South of Iraq Using Multivariate Statistical Techniques. Journal of Al-Nahrain University-Science, 20, 114-122. https://doi.org/10.22401/juns.20.2.16
[3]
Varol, M., Gökot, B., Bekleyen, A. and Şen, B. (2011) Water Quality Assessment and Apportionment of Pollution Sources of Tigris River (Turkey) Using Multivariate Statistical Techniques—A Case Study. River Research and Applications, 28, 1428-1438. https://doi.org/10.1002/rra.1533
[4]
Rabee, A.M., Abdul-Kareem, B.M. and Al-Dhamin, A.S. (2011) Seasonal Variations of Some Ecological Parameters in Tigris River Water at Baghdad Region, Iraq. Journal of Water Resource and Protection, 3, 262-267. https://doi.org/10.4236/jwarp.2011.34033
[5]
Ling, T., Soo, C., Liew, J., Nyanti, L., Sim, S. and Grinang, J. (2017) Application of Multivariate Statistical Analysis in Evaluation of Surface River Water Quality of a Tropical River. Journal of Chemistry, 2017, Article 5737452. https://doi.org/10.1155/2017/5737452
[6]
Wong, Y.J., Shimizu, Y., He, K. and Nik Sulaiman, N.M. (2020) Comparison among Different ASEAN Water Quality Indices for the Assessment of the Spatial Variation of Surface Water Quality in the Selangor River Basin, Malaysia. Environmental Monitoring and Assessment, 192, Article No. 644. https://doi.org/10.1007/s10661-020-08543-4
[7]
Ahmad, W. (2018) Water Quality Assessment and Apportionment of Northern Pakistan Using Multivariate Statistical Techniques—A Case Study. International Journal of Hydrology, 2, 1-7. https://doi.org/10.15406/ijh.2018.02.00040
[8]
Patil, V.B.B., Pinto, S.M., Govindaraju, T., Hebbalu, V.S., Bhat, V. and Kannanur, L.N. (2020) Multivariate Statistics and Water Quality Index (WQI) Approach for Geochemical Assessment of Groundwater Quality—A Case Study of Kanavi Halla Sub-Basin, Belagavi, India. Environmental Geochemistry and Health, 42, Article No. 2667-2684. https://doi.org/10.1007/s10653-019-00500-6
[9]
Herojeet, R., Rishi, M.S., Lata, R. and Dolma, K. (2017) Quality Characterization and Pollution Source Identification of Surface Water Using Multivariate Statistical Techniques, Nalagarh Valley, Himachal Pradesh, India. Applied Water Science, 7, 2137-2156. https://doi.org/10.1007/s13201-017-0600-y
[10]
Abbasi, T. and Abbasi, S.A. (2012) Water Quality Indices. Elsevier.
[11]
Chabuk, A., Al-Madhlom, Q., Al-Maliki, A., Al-Ansari, N., Hussain, H.M. and Laue, J. (2020) Water Quality Assessment along Tigris River (Iraq) Using Water Quality Index (WQI) and GIS Software. Arabian Journal of Geosciences, 13, Article No. 654. https://doi.org/10.1007/s12517-020-05575-5
[12]
Flaieh, H.M., Abdul-Ahad, M.Y. and Mohammed-Ridha, M.J. (2014) Assessing Tigris River Water Quality in Baghdad City Using Water Quality Index and Multivariate Statistical Analysis. International Journal of Engineering Sciences & Research Technology, 3, 687-699.
[13]
Kamil, W.S. (2009) Construct a Program for Irrigation and Drinking Water Suitability of Tigris and Euphrates Rivers, Master’s Dissertation, Baghdad University.
[14]
Alobaidy, A.H.M.J., Maulood, B.K. and Kadhem, A.J. (2010) Evaluating Raw and Treated Water Quality of Tigris River within Baghdad by Index Analysis. Journal of Water Resource and Protection, 2, 629-635. https://doi.org/10.4236/jwarp.2010.27072
[15]
Sulaymon, A.H., Ali, A.M. and Al-Naseri, S.K. (2009) Natural Organic Matter Removal from Tigris River Water in Baghdad, Iraq. Desalination, 245, 155-168. https://doi.org/10.1016/j.desal.2008.06.017
[16]
Al-Ansari, N., Ali, A.A. and Knutsson, S. (2014) Present Conditions and Future Challenges of Water Resources Problems in Iraq. Journal of Water Resource and Protection, 6, 1066-1098. https://doi.org/10.4236/jwarp.2014.612102
[17]
Al-Obaidy, A.H.M., Al-Janabi, Z.Z. and Shakir, E. (2015) Assessment of Water Quality of the Tigris River within Baghdad City. Mesopotamia Environmental Journal, 1, 90-98.
[18]
Abdulwahab, S. and Rabee, A.M. (2015) Ecological Factors Affecting the Distribution of the Zooplankton Community in the Tigris River at Baghdad Region, Iraq. Egyptian Journal of Aquatic Research, 41, 187-196. https://doi.org/10.1016/j.ejar.2015.03.003
[19]
Omar, K.A. (2017) Prediction of Dissolved Oxygen in Tigris River by Water Temperature and Biological Oxygen Demand Using Artificial Neural Networks (Anns). The Journal of Duhok University, 20, 691-700. https://doi.org/10.26682/sjuod.2017.20.1.60
[20]
Ewaid, S., Abed, S., Al-Ansari, N. and Salih, R. (2020) Development and Evaluation of a Water Quality Index for the Iraqi Rivers. Hydrology, 7, Article 67. https://doi.org/10.3390/hydrology7030067
[21]
Ewaid, S.H., Abed, S.A. and Kadhum, S.A. (2018) Predicting the Tigris River Water Quality within Baghdad, Iraq by Using Water Quality Index and Regression Analysis. Environmental Technology & Innovation, 11, 390-398. https://doi.org/10.1016/j.eti.2018.06.013
[22]
COQS (2009) Iraqi Standard of Drinking Water No. 417. Second Modification, Central Organization for Quality Control and Standardization, Council of Ministers, Baghdad.
[23]
Cotruvo, J.A. (2017) 2017 WHO Guidelines for Drinking Water Quality: First Addendum to the Fourth Edition. Journal AWWA, 109, 44-51. https://doi.org/10.5942/jawwa.2017.109.0087
[24]
Sissakian, V.K., Jab’bar, M.F.A., Al-Ansari, N. and Knutsson, S. (2014) Meandering of Tributaries of the Tigris River Due to Mass Movements within Iraq. Engineering, 6, 712-730. https://doi.org/10.4236/eng.2014.611070
[25]
Saleh, D.K. (2010) Stream Gage Descriptions and Streamflow Statistics for Sites in the Tigris River and Euphrates River Basins, Iraq (Vol. 540). US Department of the Interior, US Geological Survey, Reston. https://doi.org/10.3133/ds540
[26]
Al-Ansari, N.A. (2013) Management of Water Resources in Iraq: Perspectives and Prognoses. Engineering, 5, 667-684. https://doi.org/10.4236/eng.2013.58080
[27]
Ewaid, S., Abed, S. and Al-Ansari, N. (2019) Water Footprint of Wheat in Iraq. Water, 11, Article 535. https://doi.org/10.3390/w11030535
[28]
Muratoglu, A. (2019) Water Footprint Assessment within a Catchment: A Case Study for Upper Tigris River Basin. Ecological Indicators, 106, Article 105467. https://doi.org/10.1016/j.ecolind.2019.105467
[29]
Ewaid, S.H., Abed, S.A. and Al-Ansari, N. (2019) Crop Water Requirements and Irrigation Schedules for Some Major Crops in Southern Iraq. Water, 11, Article 756. https://doi.org/10.3390/w11040756
[30]
Ewaid, S.H. (2018) Irrigation Water Quality of Al-Gharraf Canal, South of Iraq. Journal of Physics: Conference Series, 1003, Article 012006. https://doi.org/10.1088/1742-6596/1003/1/012006
[31]
Ewaid, S.H., Abed, S.A. and Al-Ansari, N. (2020) Assessment of Main Cereal Crop Trade Impacts on Water and Land Security in Iraq. Agronomy, 10, Article 98. https://doi.org/10.3390/agronomy10010098
[32]
Rice, A., Baird, E.W. and Eaton, R.B. (2017) APHA 2017 Standard Methods for Examination of Water and Wastewater. American Public Health Association, Washington DC.
[33]
National Center of Water Resources Management (NCWRM) (2017) Water Quality Study of Main Rivers in Iraq, Ministry of Water Resources, Iraq, Annual Internal Report. National Oceanic and Atmospheric Administration.
[34]
Cronk, B.C. (2017) How to Use SPSS®: A Step-by-Step Guide to Analysis and Interpretation. Routledge. https://doi.org/10.4324/9781315142999
[35]
Allen, P., Bennett, K. and Heritage, B. (2018) SPSS Statistics: A Practical Guide with Student Resource Access 12 Months. Cengage Australia.
[36]
Bouguerne, A., Boudoukha, A., Benkhaled, A. and Mebarkia, A.H. (2017) Assessment of Surface Water Quality of Ain Zada Dam (Algeria) Using Multivariate Statistical Techniques. International Journal of River Basin Management, 15, 133-143. https://doi.org/10.1080/15715124.2016.1215325
[37]
Field, A. (2013) Discovering Statistics Using IBM SPSS Statistics. SAGE Publications Ltd.
[38]
Huang, F., Wang, X., Lou, L., Zhou, Z. and Wu, J. (2010) Spatial Variation and Source Apportionment of Water Pollution in Qiantang River (China) Using Statistical Techniques. Water Research, 44, 1562-1572. https://doi.org/10.1016/j.watres.2009.11.003
[39]
Ali Abed, S., Hussein Ewaid, S. and Al-Ansari, N. (2019) Evaluation of Water Quality in the Tigris River within Baghdad, Iraq Using Multivariate Statistical Techniques. Journal of Physics: Conference Series, 1294, Article 072025. https://doi.org/10.1088/1742-6596/1294/7/072025
[40]
Zhao, J., Fu, G., Lei, K. and Li, Y. (2011) Multivariate Analysis of Surface Water Quality in the Three Gorges Area of China and Implications for Water Management. Journal of Environmental Sciences, 23, 1460-1471. https://doi.org/10.1016/s1001-0742(10)60599-2
[41]
Khaledian, Y., Ebrahimi, S., Natesan, U., Nejad, B.B. and Zeraatpisheh, M. (2018) Assessment of Water Quality Using Multivariate Statistical Analysis in the Gharaso River, Northern Iran. In: Sarma, A., Singh, V., Bhattacharjya, R. and Kartha, S., Eds., Urban Ecology, Water Quality and Climate Change, Springer, 227-253. https://doi.org/10.1007/978-3-319-74494-0_18
[42]
Zheng, L., Yu, H. and Wang, Q. (2015) Assessment of Temporal and Spatial Variations in Surface Water Quality Using Multivariate Statistical Techniques: A Case Study of Nenjiang River Basin, China. Journal of Central South University, 22, 3770-3780. https://doi.org/10.1007/s11771-015-2921-z
[43]
Bhardwaj, V., Singh, D.S. and Singh, A.K. (2010) Water Quality of the Chhoti Gandak River Using Principal Component Analysis, Ganga Plain, India. Journal of Earth System Science, 119, 117-127. https://doi.org/10.1007/s12040-010-0007-8
[44]
Al-Sharqi, J. (2020) Personal Connection with the Chief Engineer Mrs. Jullanar Al-Sharqi the Director of Laboratories in Baghdad Water Authority.
[45]
Barakat, A., El Baghdadi, M., Rais, J., Aghezzaf, B. and Slassi, M. (2016) Assessment of Spatial and Seasonal Water Quality Variation of Oum Er Rbia River (Morocco) Using Multivariate Statistical Techniques. International Soil and Water Conservation Research, 4, 284-292. https://doi.org/10.1016/j.iswcr.2016.11.002
[46]
Lee, A.H. and Nikraz, H. (2015) BOD: COD Ratio as an Indicator of River Pollution. International Proceedings of Chemical, Biological, and Environmental Engineering, 88, 89-94.
[47]
Lee, J., Lee, S., Yu, S. and Rhew, D. (2016) Relationships between Water Quality Parameters in Rivers and Lakes: BOD5, COD, NBOPs, and TOC. Environmental Monitoring and Assessment, 188, Article No. 252. https://doi.org/10.1007/s10661-016-5251-1
[48]
Rahi, K.A. and Halihan, T. (2018) Salinity Evolution of the Tigris River. Regional Environmental Change, 18, 2117-2127. https://doi.org/10.1007/s10113-018-1344-4
[49]
Al-Shujairi, S., Sulaiman, S. and Najemalden, M. (2015) Variations of Major Ionic Composition and Salinity of Tigris River within Iraq. Sulaimani Journal for Engineering Sciences, 2, 64-73. https://doi.org/10.17656/sjes.10025
[50]
Amtair Rahi, K. (2018) Salinity Management in the Shatt Al-Arab River. International Journal of Engineering & Technology, 7, 128-133. https://doi.org/10.14419/ijet.v7i4.20.25913
[51]
Shihab, A.S. and Al-Rawi, S.M. (2005) Application of Factor Analysis as a Tool for Water Quality Management of Tigris River within Mosul City. Rafidain Journal of Science, 16, 56-64. https://doi.org/10.33899/rjs.2005.41398
[52]
Abbas, J. (2013) Assessment of Water Quality in Tigris River-Iraq by Using GIS Mapping. Natural Resources, 4, 441-448. https://doi.org/10.4236/nr.2013.46054
[53]
Al-Ansari, N., Adamo, N., Sissakian, V.K., Knutsson, S. and Laue, J. (2018) Water Resources of the Tigris River Catchment. Journal of Earth Sciences and Geotechnical Engineering, 8, 21-42.
