Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water

Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water

Inadequate data and spatial dependence in the observations during geochemical studies are among the disturbing conditions when estimating environmental factors contributing to the local variability in the pollutants of interest. Usually, spatial dependence occurs due to the researcher's imperfection on the natural scale of occurrence which affects the sampling strategy. As a consequence, observations on the study variable are significantly correlated in space. In this study, the machine learning approach was developed and used to study the environmental factors controlling the local variability in fluoride concentrations in drinking water sources of northern Tanzania within the East African Rift Valley. The approach constituted the use of geographical information systems (GIS) technology, exploratory spatial data analysis (ESDA) methods, and spatial regression modeling at a local level. The environmental variables used to study the local variation in fluoride concentration include topography, tectonic processes, water exchanges between hydrogeological layers during lateral movement, mineralization processes (EC), and water pH. The study was based on 20 local spatial regimes determined using GIS based on water sources density in the four hydrogeological environments. Specifically, the non-parametric (one-way Kruskal-Wallis sum ranks test and Multiple Comparisons Dunn Test), spatial statistics (Global Moran's I statistic), ordinary least squares (OLS) regression, and spatial lag models were used to quantify the effects of topography, tectonic processes, water exchange between hydrogeological environments and water physiochemical parameters (pH and EC) on the spatial variability of fluoride concentrations in drinking water sources at a local scale. In order of significance, the local spatial variation in fluoride concentration is influenced by the EC, topography, tectonic processes, pH, and water exchange between hydrogeological layers during water movement. The results presented in this paper are crucial for safe water access planning in naturally contaminated aquifer systems.

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Main Authors: Ijumulana, Julian, Ligate, Fanuel, Bhattacharya, Prosun, Ahmad, Arslan, Zhang, Chaosheng, Tomasek, Ines, Irunde, Regina, Kimambo, Vivian, Mohamed, Rajabu Hamisi, Mtalo, Felix
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Fluoride contamination, Groundwater systems, Northern Tanzania, Safe drinking water, Spatial modeling,
Online Access:https://research.wur.nl/en/publications/spatial-modeling-of-the-occurrences-of-geogenic-fluoride-in-groun
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spelling dig-wur-nl-wurpubs-6320672025-01-02 Ijumulana, Julian Ligate, Fanuel Bhattacharya, Prosun Ahmad, Arslan Zhang, Chaosheng Tomasek, Ines Irunde, Regina Kimambo, Vivian Mohamed, Rajabu Hamisi Mtalo, Felix Article/Letter to editor Groundwater for Sustainable Development 26 (2024) ISSN: 2352-801X Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water 2024 Inadequate data and spatial dependence in the observations during geochemical studies are among the disturbing conditions when estimating environmental factors contributing to the local variability in the pollutants of interest. Usually, spatial dependence occurs due to the researcher's imperfection on the natural scale of occurrence which affects the sampling strategy. As a consequence, observations on the study variable are significantly correlated in space. In this study, the machine learning approach was developed and used to study the environmental factors controlling the local variability in fluoride concentrations in drinking water sources of northern Tanzania within the East African Rift Valley. The approach constituted the use of geographical information systems (GIS) technology, exploratory spatial data analysis (ESDA) methods, and spatial regression modeling at a local level. The environmental variables used to study the local variation in fluoride concentration include topography, tectonic processes, water exchanges between hydrogeological layers during lateral movement, mineralization processes (EC), and water pH. The study was based on 20 local spatial regimes determined using GIS based on water sources density in the four hydrogeological environments. Specifically, the non-parametric (one-way Kruskal-Wallis sum ranks test and Multiple Comparisons Dunn Test), spatial statistics (Global Moran's I statistic), ordinary least squares (OLS) regression, and spatial lag models were used to quantify the effects of topography, tectonic processes, water exchange between hydrogeological environments and water physiochemical parameters (pH and EC) on the spatial variability of fluoride concentrations in drinking water sources at a local scale. In order of significance, the local spatial variation in fluoride concentration is influenced by the EC, topography, tectonic processes, pH, and water exchange between hydrogeological layers during water movement. The results presented in this paper are crucial for safe water access planning in naturally contaminated aquifer systems. en application/pdf https://research.wur.nl/en/publications/spatial-modeling-of-the-occurrences-of-geogenic-fluoride-in-groun 10.1016/j.gsd.2024.101250 https://edepot.wur.nl/662557 Fluoride contamination Groundwater systems Northern Tanzania Safe drinking water Spatial modeling Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Fluoride contamination
Groundwater systems
Northern Tanzania
Safe drinking water
Spatial modeling
Fluoride contamination
Groundwater systems
Northern Tanzania
Safe drinking water
Spatial modeling
spellingShingle Fluoride contamination
Groundwater systems
Northern Tanzania
Safe drinking water
Spatial modeling
Fluoride contamination
Groundwater systems
Northern Tanzania
Safe drinking water
Spatial modeling
Ijumulana, Julian
Ligate, Fanuel
Bhattacharya, Prosun
Ahmad, Arslan
Zhang, Chaosheng
Tomasek, Ines
Irunde, Regina
Kimambo, Vivian
Mohamed, Rajabu Hamisi
Mtalo, Felix
Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water
description Inadequate data and spatial dependence in the observations during geochemical studies are among the disturbing conditions when estimating environmental factors contributing to the local variability in the pollutants of interest. Usually, spatial dependence occurs due to the researcher's imperfection on the natural scale of occurrence which affects the sampling strategy. As a consequence, observations on the study variable are significantly correlated in space. In this study, the machine learning approach was developed and used to study the environmental factors controlling the local variability in fluoride concentrations in drinking water sources of northern Tanzania within the East African Rift Valley. The approach constituted the use of geographical information systems (GIS) technology, exploratory spatial data analysis (ESDA) methods, and spatial regression modeling at a local level. The environmental variables used to study the local variation in fluoride concentration include topography, tectonic processes, water exchanges between hydrogeological layers during lateral movement, mineralization processes (EC), and water pH. The study was based on 20 local spatial regimes determined using GIS based on water sources density in the four hydrogeological environments. Specifically, the non-parametric (one-way Kruskal-Wallis sum ranks test and Multiple Comparisons Dunn Test), spatial statistics (Global Moran's I statistic), ordinary least squares (OLS) regression, and spatial lag models were used to quantify the effects of topography, tectonic processes, water exchange between hydrogeological environments and water physiochemical parameters (pH and EC) on the spatial variability of fluoride concentrations in drinking water sources at a local scale. In order of significance, the local spatial variation in fluoride concentration is influenced by the EC, topography, tectonic processes, pH, and water exchange between hydrogeological layers during water movement. The results presented in this paper are crucial for safe water access planning in naturally contaminated aquifer systems.
format Article/Letter to editor
topic_facet Fluoride contamination
Groundwater systems
Northern Tanzania
Safe drinking water
Spatial modeling
author Ijumulana, Julian
Ligate, Fanuel
Bhattacharya, Prosun
Ahmad, Arslan
Zhang, Chaosheng
Tomasek, Ines
Irunde, Regina
Kimambo, Vivian
Mohamed, Rajabu Hamisi
Mtalo, Felix
author_facet Ijumulana, Julian
Ligate, Fanuel
Bhattacharya, Prosun
Ahmad, Arslan
Zhang, Chaosheng
Tomasek, Ines
Irunde, Regina
Kimambo, Vivian
Mohamed, Rajabu Hamisi
Mtalo, Felix
author_sort Ijumulana, Julian
title Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water
title_short Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water
title_full Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water
title_fullStr Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water
title_full_unstemmed Spatial modeling of the occurrences of geogenic fluoride in groundwater systems in Tanzania : Implications for the provision of safe drinking water
title_sort spatial modeling of the occurrences of geogenic fluoride in groundwater systems in tanzania : implications for the provision of safe drinking water
url https://research.wur.nl/en/publications/spatial-modeling-of-the-occurrences-of-geogenic-fluoride-in-groun
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