Susceptibility Prediction of Groundwater Hardness Using Ensemble Machine Learning Models

Amirhosein Mosavi; Farzaneh Sajedi Hosseini; Bahram Choubin; Mahsa Abdolshahnejad; Hamidreza Gharechaee; Ahmadreza Lahijanzadeh; Adrienn A. Dineva

doi:10.3390/w12102770

Water (Oct 2020)

Susceptibility Prediction of Groundwater Hardness Using Ensemble Machine Learning Models

Amirhosein Mosavi,
Farzaneh Sajedi Hosseini,
Bahram Choubin,
Mahsa Abdolshahnejad,
Hamidreza Gharechaee,
Ahmadreza Lahijanzadeh,
Adrienn A. Dineva

Affiliations

Amirhosein Mosavi: Environmental Quality, Atmospheric Science and Climate Change Research Group, Ton Duc Thang University, Ho Chi Minh City, Vietnam
Farzaneh Sajedi Hosseini: Reclamation of Arid and Mountainous Regions Department, Faculty of Natural Resources, University of Tehran, Karaj 31585-77871, Iran
Bahram Choubin: Soil Conservation and Watershed Management Research Department, West Azarbaijan Agricultural and Natural Resources Research and Education Center, AREEO, Urmia 57169-63963, Iran
Mahsa Abdolshahnejad: Reclamation of Arid and Mountainous Regions Department, Faculty of Natural Resources, University of Tehran, Karaj 31585-77871, Iran
Hamidreza Gharechaee: Reclamation of Arid and Mountainous Regions Department, Faculty of Natural Resources, University of Tehran, Karaj 31585-77871, Iran
Ahmadreza Lahijanzadeh: Deputy for Marine Environment and Wetlands, Iran Department of Environment, Tehran 73831-4155, Iran
Adrienn A. Dineva: Institute of Research and Development, Duy Tan University, Da Nang 550000, Vietnam

DOI: https://doi.org/10.3390/w12102770
Journal volume & issue: Vol. 12, no. 10
p. 2770

Abstract

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Groundwater resources, unlike surface water, are more vulnerable to disturbances and contaminations, as they take a very long time and significant cost to recover. So, predictive modeling and prevention strategies can empower policymakers for efficient groundwater governance through informed decisions and recommendations. Due to the importance of groundwater quality modeling, the hardness susceptibility mapping using machine learning (ML) models has not been explored. For the first time, the current research aimed to predict groundwater hardness susceptibility using the ML models. The performance of two ensemble models of boosted regression trees (BRT) and random forest (RF) is investigated through the arrangement of a comparative study with multivariate discriminant analysis (MDA). According to the hardness values in 135 groundwater quality monitoring wells, the hard and soft water are determined; then, 11 predictor variables including distance from the sea (DFS), land use, elevation, distance from the river (DFR), depth to groundwater (DTGW), pH, precipitation (PCP), evaporation (E), groundwater level (GWL), curvature, and lithology are used for predicting the groundwater hardness susceptibility map. Results indicated that the variables of DFR, DTGW, elevation, and DFS had a higher contribution to the modeling process. So, the high harness areas are mostly related to low elevations, low DTGW, and proximity to river and sea, which facilitate the percolation conditions for minerals containing calcium or magnesium into groundwater.

Published in Water

ISSN: 2073-4441 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Hydraulic engineering; Technology: Environmental technology. Sanitary engineering: Water supply for domestic and industrial purposes
Website: http://www.mdpi.com/journal/water/

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