First evidence of sinter and travertine in Cameroon: fault reactivation and geothermal implications

The Laopanga hot spring deposits along the “Cameroon Volcanic Line” (CVL) are distinctive in being both siliceous sinter and travertine, made up of immature amorphous silica and mainly calcite, and associated with detrital deposits such as claystone, sandstone and conglomerate. Their age range from...

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Published in:Comptes rendus. Geoscience 2023-01, Vol.355 (G2), p.279-298
Main Authors: Tchouatcha, Milan Stafford, Kouske, Arnaud Patrice, Tamfuh, Primus Azinwi, Préat, Alain, Toyama, René, Feumba, Roger, Tiokeng Ngounfack, Vannelle, Madjingain, Vivant, Konglim, Yaya Berinyuy, Tchameni, Rigobert
Format: Article
Language:English
Subjects:
Calcite
Cameroon volcanic line
Central Cameroon shear zone
Chemical elements
Earth science
Europium
High temperature
Hot springs
Internal migration
Laopanga basin
Plate tectonics
Pleistocene
Plio-pleistocene to actual
Precambrian
Precambrian fault
Sandstone
Silica
Soil sciences
Travertine
Water flow
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Summary:The Laopanga hot spring deposits along the “Cameroon Volcanic Line” (CVL) are distinctive in being both siliceous sinter and travertine, made up of immature amorphous silica and mainly calcite, and associated with detrital deposits such as claystone, sandstone and conglomerate. Their age range from Plio-Pleistocene to Actual. Sr concentrations (17 to 2304 ppm) suggest an enrichment by epithermal outflows. \(\delta ^{13}\mathrm{C}\) and \({\delta }^{18}\mathrm{O}\) values, ranging respectively from 1.5‰ to 2.9‰ V-PDB and \({-}\)10.1‰ to \({-}\)6‰ V-PDB, reflect a high temperature of the parent solution (40 °C) related to an elevated geothermal gradient. The europium anomalies values (Eu/Eu*: 0.54–1.78) indicate the temperature variation of precipitated deposits related to distance of the deep hot water flow. The chemical compositions of the lithofacies show the diversity of the spring deposits related to complex phenomena of internal migration of mineralized hot water and the tectonic controls during the Precambrian fault reactivations.
ISSN:1778-7025
1631-0713
1778-7025
DOI:10.5802/crgeos.230