Journal of Geography & Natural Disasters
Open Access
ISSN: 2167-0587
+44-20-4587-4809
ISSN: 2167-0587
+44-20-4587-4809
Ukaegbu, V. U.
The petrogenesis and geotectonic setting of enderbite-charnockite association in Obudu Plateau were determined using petrology and geochemistry. Field relations show that the rocks are structurally-controlled in a regional N-S to NE-SW trend of the host gneiss-schist complex. The main mineral phases are quartz, feldspars and pyroxene, while the subordinate minerals include hornblende, biotite and magnetite. Field relations, modal mineral distribution and chemical characteristics show the association classifying into charnockites and enderbites, which originated from two different phases of fractional crystallization of dry lower crust, subsequently contaminated by wet partial melt of the upper crust during crustal collision processes. This is supported by the depletion in many large ion lithophile elements (LILE). However, similar REE patterns showing wider range of REE fractionation, more pronounced negative Eu anomaly, higher contents of LREE and lower contents in HREE in the charnockites than the enderbites indicate two different phases of fractionation from the same source under similar conditions. Field relations indicated by xenoliths in the charnockitic rocks, admixture of the association with granites and decreasing CaO, TiO2, P2O5, Sr with increasing SiO2 contents, plot of the rocks within i-type igneous field and chemical similarities of the association with igneous charnockites elsewhere support that the charnockites and enderbites of Obudu Plateau are of igneous origin. Discrimination diagrams and other geochemical characteristics show that the charnockites are syn-collisional while the enderbites are late-orogenic to post collision uplift granitoids, emplaced at the convergent plate boundary between the West African and Congo-Gabon cratons during the Pan African orogeny.
Published Date: 2020-09-12; Received Date: 2020-08-31