Geographically weighted principal component analysis for characterising the spatial heterogeneity and connectivity of soil heavy metals in Kumasi, Ghana

Eric N Aidoo,Simon K Appiah,Gaston E Awashie,Alexander Boateng,Godfred Darko

doi:10.1016/j.heliyon.2021.e08039

Eric N Aidoo, Simon K Appiah + Show 3 more

Open Access

https://doi.org/10.1016/j.heliyon.2021.e08039

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Journal: Heliyon	Publication Date: Sep 1, 2021
Citations: 23	License type: cc-by

Affiliation: Kwame Nkrumah University of Science and Technology

Abstract

The use of principal component analysis (PCA) for soil heavy metals characterization provides useful information for decision making and policies regarding the potential sources of soil contamination. However, the concentration of heavy metal pollutants is spatially heterogeneous. Accounting for such spatial heterogeneity in soil heavy metal pollutants will improve our understanding with respect to the distribution of the most influential soil heavy metal pollutants. In this study, geographically weighted principal component analysis (GWPCA) was used to describe the spatial heterogeneity and connectivity of soil heavy metals in Kumasi, Ghana. The results from the conventional PCA revealed that three principal components cumulatively accounted for 86% of the total variation in the soil heavy metals in the study area. These components were largely dominated by Fe and Zn. The results from the GWPCA showed that the soil heavy metals are spatially heterogeneous and that the use of PCA disregards this considerable variation. This spatial heterogeneity was confirmed by the spatial maps constructed from the geographically weighted correlations among the variables. After accounting for the spatial heterogeneity, the proportion of variance explained by the three geographically weighted principal components ranged between 85% and 89%. The first three identified GWPC were largely dominated by Fe, Zn and As, respectively. The location of the study area where these variables are dominated provides information for remediation.

Highlights

Assessment of soil heavy metal pollution has been given much attention for decades because of its consequences to human health and the environment (Kowalska et al 2018; Lu et al 2020; Wu et al 2020)
The characterization of heavy metal pollution in soil has increasingly become important to understand the sources of pollution and contamination
The present study explored the use of geographically weighted principal component analysis (GWPCA) as oppose to the conventional principal component analysis (PCA) to account for spatial heterogeneity and connectivity in soil heavy metals in Kumasi, Ghana

Summary

Introduction

Assessment of soil heavy metal pollution has been given much attention for decades because of its consequences to human health and the environment (Kowalska et al 2018; Lu et al 2020; Wu et al 2020). Darko et al (2017b) argued that whilst metals such as copper, zinc and chromium are essential for biological functioning in humans, other metals such as mercury, cadmium and lead have no benefit to biological systems. The sources of these metals in soils may be natural components or due to anthropogenic activities (K€ahko€nen et al 1997; Bretzel and Calderisi 2006; Darko et al 2017a; Fernandez et al 2018). Assessment of soil heavy metal pollution is of great importance for decision making and policy formulation

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Results

Conclusion