Assessment of Pollution and Identification of Sources of heavy Metals, and Radionuclides Contamination in Sand along the Southern part of the Cameroonian coast (South-West, Africa)

Details

Serval ID
serval:BIB_77B04454A2F7
Type
Article: article from journal or magazin.
Collection
Publications
Title
Assessment of Pollution and Identification of Sources of heavy Metals, and Radionuclides Contamination in Sand along the Southern part of the Cameroonian coast (South-West, Africa)
Journal
Earth and Planetary Science
Author(s)
Ekoa Bessa Armel Zacharie
ISSN
2810-9732
Publication state
Published
Issued date
09/05/2022
Peer-reviewed
Oui
Language
english
Abstract
<jats:p>Sandy sediments collected along the southern part of the Cameroonian coast have been analyzed geochemically by ICP MS methods to investigate the distribution characteristics, contamination levels and related ecological risks. In these sediments, the concentration (mg/kg) of selected elements are in order Fe &gt; Mn &gt; Cr &gt; V &gt; Th &gt; Ni &gt; U &gt; Co. Indices of pollution such as index of geoaccumulation, where values of all elements in the sediments were &lt; 0, except Th in the sediments station of Yoyo II, and Cr in sediment of all stations were Igeo &gt; 0. Contamination factor shows that the station of Yoyo II has values of CF &lt; 1, such as Fe, V, Ni and Co. while Uranium, Th and Mn values vary from 1 to 3 and 3 to 6, and for Cr values of CF &gt; 6. However, Kribi and Campo stations show that all the elements have values of CF &lt; 1, except Cr which has values of CF &gt; 6. The degree of contamination values ranges between (9.48 – 37.13) for the station of Yoyo II, (8.84 – 17.62) for Kribi station, and (6.52 – 13.56) for Campo station. The pollution loading index values at all sampling stations are lower than 1. The potential ecological risk (Er and RI), indicates that this coastal area is a low risk region. Pearson correlation, cluster analysis and principal component analysis supported that heavy metals (Fe, Mn, Cr, V, Ni and Co) have common human influences while radionuclides (Th and U) have a natural source. The presence of human activities such as domestic waste, intensive farming and the processing of industrial products could be potential sources of anthropogenic environmental pollution, thereby threatening the environmental concerns of the entire study area.</jats:p>
Create date
25/11/2022 15:44
Last modification date
18/07/2023 16:31
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