Modelling of Surface Water Quality and Spatial Mapping in Mahanadi Basin, Odisha

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Authors

  • Research Scholar, Department of Civil Engineering, C.V. Raman Global University (C.G.U), Bhubaneswar, Odisha - 752054, India ,IN

DOI:

https://doi.org/10.18311/jmmf/2023/35432

Keywords:

Effluents, Factor Scores, HCA, Mahanadi River, Multivariate, PCA, PCM

Abstract

This study aimed at evaluating the surface water quality within the urban reach of Mahanadi River basin in Odisha. For this study, yearly water quality data were acquired from the State Pollution Control Board between low flow (between June and August) and high flow (between November and January) periods as part of a 5-year (2016–2021) monitoring programme (measuring 11 variables at 21 primary sites), to conduct an integrative investigation into the hydrogeochemical mechanisms that affect the water quality for drinking. Different methods like Multivariate Statistical Techniques (MST) such Pearson Correlation Matrix (PCM), Hierarchical Cluster Analysis (HCA), and Principal Component Analysis/Factor Analysis (PCA/FA) were applied. However, the relationship between the various factors revealed that anthropogenic activities and physicochemical parameters directly affect the fundamental ionic component of the water samples. Furthermore, with the help of plots, HCA was carried out and divided the 21 sampling sites into three major groups to verify the factor analysis results. Additionally, factor analysis has been conducted and four factors were extracted. Hence, the four components accounts for 87.17% and 67.22% of the total variance of the data composition for both seasons i.e., LFP and HFP, explaining the causes of water quality degradation. The four factors account for ‘salinity’, ‘hardness’, ‘domestic sewage’ and industrial effluents properties and were named accordingly. These factors revealed about point-based contamination, such as wastewater from commercial and residential sources, non-point sources, including such farm crops, and natural phenomena, such as inundation, rock, and soil disintegration. Further, this ongoing investigation also sheds light on core procedures, municipal regulations, and continual pollution monitoring to reduce the amount of pollution entering the river from both diffuse and point sources.

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Published

2023-11-02

How to Cite

Das, A. (2023). Modelling of Surface Water Quality and Spatial Mapping in Mahanadi Basin, Odisha. Journal of Mines, Metals and Fuels, 71(9), 1155–1173. https://doi.org/10.18311/jmmf/2023/35432

 

References

Das A. Multivariate statistical approach for the assessment of water quality of Mahanadi basin, Odisha.

Materials Today: Proceedings. 2022 Jan 1; 65:A1-1.

Egbueri JC. Prediction modeling of potentially toxic elements’ hydrogeopollution using an integrated Q-mode HCs and ANNs machine learning approach in SE Nigeria. Environmental Science and Pollution Research. 2021 Aug; 28(30):40938-56.

Han Y, Lam JC, Li VO, Guo P, Zhang Q, Wang A, Crowcroft J, Wang S, Fu J, Gilani Z, Downey J. The effects of outdoor air pollution concentrations and lockdowns on Covid-19 infections in Wuhan and other provincial capitals in China.

Das A. Assessment of potability of surface water and its health implication in Mahanadi Basin, Odisha. Materials Today: Proceedings. 2023 May 26.

Karuppannan S, Panneerselvam B, Haji M, Murugesan B, Shube H, Serre Kawo N. Evaluation of groundwater quality and its suitability for drinking and cultivation practices in and around around the deltaic regions of South India using DWQI, IWQI, and GIS. In: Climate Change Impact on Groundwater Resources: Human Health Risk Assessment in Arid and Semi-arid Regions 2022 Aug 25 (pp. 181-200). Cham: Springer International Publishing.

Jehan S, Ullah I, Khan S, Muhammad S, Khattak SA, Khan T. Evaluation of the Swat River, Northern Pakistan, water quality using multivariate statistical techniques and water quality index (WQI) model. Environmental Science and Pollution Research. 2020 Nov; 27:38545-58.

Obeidat M, Awawdeh M. Assessment of groundwater quality in the area surrounding Al-Zaatari Camp, Jordan, using cluster analysis and water quality index (WQI). Jordan Journal of Earth & Environmental Sciences. 2021 Sep 1;12(3).

Omar PJ, Gaur S, Dwivedi SB, Dikshit PK. Development and application of the integrated GIS-MODFLOW model. Fate and transport of subsurface pollutants. 2021:305-14.

Ravi R, Aravindan S, Shankar K, Balamurugan P. Suitability of groundwater quality for irrigation in and around the main Gadilam river basin on the east coast of southern India. Archives of Agriculture and Environmental Science. 2020 Dec 25; 5(4):554-62.

Serele C, Pérez-Hoyos A, Kayitakire F. Mapping of groundwater potential zones in the drought-prone areas of south Madagascar using geospatial techniques. Geoscience Frontiers. 2020 Jul 1; 11(4):1403-13.

Das A. Water Criteria Evaluation for Drinking Purposes in Mahanadi River Basin, Odisha. InInternational Conference on Trends and Recent Advances in Civil Engineering 2022 Aug 20 (pp. 237-260). Singapore: Springer Nature Singapore.

Das A, Goya A, Soni A. Use of water quality indices and its evaluation to verify the impact of Mahanadi River basin, Odisha. In: AIP Conference Proceedings 2023 Jul 27 (Vol. 2721, No. 1). AIP Publishing.

Eatson DL, Clesceri S, Rice EW, Greenberg AE. Standard methods for the examination of water and wastewater. 21st edn edn. USA: Centennial Edition. 2005:4-138.

Chen X, Lu J, Zhu J, Liu C. Characteristics of denitrifying bacteria in different habitats of the Yongding River wetland, China. Journal of Environmental Management. 2020 Dec 1; 275:111273.

Shekar PR, Mathew A. Evaluation of morphometric and hypsometric analysis of the Bagh River basin using remote sensing and geographic information system techniques. Energy Nexus. 2022 Sep 1; 7:100104.

Singh KR, Goswami AP, Kalamdhad AS, Kumar B. Development of irrigation water quality index incorporating information entropy. Environment, Development and Sustainability. 2020 Apr; 22:3119-32.

Thacker H, Shah Y, Borah AJ, Jadeja Y, Thakkar M, Bhimani S, Chauhan G. Assessment of groundwater potential zones across Katrol hill fault, Kachchh, Western India: A remote sensing and GIS approach. Open Journal of Geology. 2022 Feb 18; 12(2):111-35.

Das A, Goyal A, Soni A. Deciphering surface water quality for irrigation and domestic purposes: A case study in Baitarani Basin, Odisha. In: AIP Conference Proceedings 2023 Jul 27 (Vol. 2721, No. 1). AIP Publishing.

Ustaoğlu F, Islam MS. Potential toxic elements in sediment of some rivers at Giresun, Northeast Turkey: A preliminary assessment for ecotoxicological status and health risk. Ecological indicators. 2020 Jun 1; 113:106237.

Xiao J, Wang L, Deng L, Jin Z. Characteristics, sources, water quality and health risk assessment of trace elements in river water and well water in the Chinese Loess Plateau. Science of the Total Environment. 2019 Feb 10; 650:2004-12.

Wang Z, Wang Y, Chen L, Yan C, Yan Y, Chi Q. Assessment of metal contamination in coastal sediments of the Maluan Bay (China) using geochemical indices and multivariate statistical approaches. Marine Pollution Bulletin. 2015 Oct 15; 99(1-2):43-53.