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01.11.2014 | Original Article

Assessment of shallow groundwater in Lake Nyos catchment (Cameroon, Central-Africa): implications for hydrogeochemical controls and uses

verfasst von: Brice T. Kamtchueng, Wilson Y. Fantong, Akira Ueda, Edwige R. Tiodjio, Katsuro Anazawa, Mengnjo J. Wirmvem, Joseph O. Mvondo, Luc S. Nkamdjou, Minoru Kusakabe, Takeshi Ohba, Gregory Tanyileke, Joseph V. Hell

Erschienen in: Environmental Earth Sciences | Ausgabe 9/2014

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Abstract

In 1986, carbon dioxide gas exploded from Lake Nyos and killed about 1,800 people. After that disaster, various administrative and research activities have been conducted to mitigate subsequent disasters. However, none of those endeavors have characterized the groundwater chemistry to identify hydrogeochemical processes that control the water chemistry, and the quality of the water for domestic and agricultural uses that support the lives of un-official resettlers around Lake Nyos. Conventional hydrochemical techniques coupled with statistical and graphical analysis were therefore employed to establish the baseline hydrochemical conditions, assess processes controlling solutes distribution in shallow groundwater in the Lake Nyos catchment and explore its usability. Groundwater samples were analyzed for their physical and chemical properties. The wide ranges of electrical conductivity and total dissolved solid values reveal the heterogeneous distribution of groundwater within the watershed. The relative abundance of major dissolved species was Ca > Mg > Na > K for cations and HCO₃ >>> Cl > SO₄ > NO₃ for anions. Piper diagram classified almost all water samples into mixed CaMg–HCO₃ water type. Major ion geochemistry reveals that, in addition to silicates weathering (water–rock interaction), ion exchange processes regulate the groundwater chemistry. Principal component analysis supports the occurrence of water rock interaction. Hierarchical cluster analysis showed that the chemistry of groundwater in the study area is controlled by three main factors, and suggests no hydraulic connectivity between deep lake water and groundwater in the catchment. The quality assessment of the groundwater showed that groundwater parameters are within the acceptable limit of the World Health Organization and Nigeria guidelines for drinking and domestic uses, and water found to be good for irrigation.

Vorheriger Artikel Effect of injected CO2 on geochemical alteration of the Altmark gas reservoir in Germany

Nächster Artikel Asbestos fibre identification vs. evaluation of asbestos hazard in ophiolitic rock mélanges, a case study from the Ligurian Alps (Italy)

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Titel: Assessment of shallow groundwater in Lake Nyos catchment (Cameroon, Central-Africa): implications for hydrogeochemical controls and uses
verfasst von: Brice T. Kamtchueng
Wilson Y. Fantong
Akira Ueda
Edwige R. Tiodjio
Katsuro Anazawa
Mengnjo J. Wirmvem
Joseph O. Mvondo
Luc S. Nkamdjou
Minoru Kusakabe
Takeshi Ohba
Gregory Tanyileke
Joseph V. Hell
Publikationsdatum: 01.11.2014
Verlag: Springer Berlin Heidelberg
Erschienen in: Environmental Earth Sciences / Ausgabe 9/2014
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-014-3278-6

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