Provenance and Tectonic Setting of the Metasedimentary Rocks of the Neoproterozoic Adola Belt of Southern Ethiopia

Abstract

The Metasedimentary rocks from the Adola metamorphic belt has been analysed for major, minor, and trace elements, including REEs, in order to investigate the provenance and tectonic setting of these rocks. On the basis of filed work, petrographic data and major element geochemistry the Adola sedimentary rocks are essentially greywackes with subordinate lithic arenite. Among the 27 samples analysed, only two samples are quartz arenite with SiO 2 values above 89%. CaO-Na 2O-K 2O diagrams showed that most sample cluster around the average plots of granites and granodiorites. In order to determine the tectonic setting and provenance of the rocks, the samples are plotted on various binary and ternary diagrams. The plots on Fe 2O 3T+MgO versus TiO 2, K 2O/Na 2O, Al 2O 3/SiO 2 and Al 2O 3/(CaO+Na 2O) plots show that the Adola sediments have Oceanic Island Arc(OIC), Continental Island Arc(CIA), Active Continental Margin(ACM) and Passive Margin(PM) characteristics. Most samples, however, show island arc affinity. Only two samples (the quartz arenites) fall in the Passive Margin (PM) field. The trace element characteristics of these rocks discriminate the rocks only into oceanic and continental arc fields. The relatively high abundance of the transition metals, mainly Co, Ni, Cr and the low concentration of TiO 2 correlates well with the previously determined geochemical affinity of the basic rocks of Adola suggesting the dominance of the low- Ti oceanic tholeiites and even boninites in the source region. The REE patterns show three distinct groupings; a)With strong LREE enrichment, flat HREE and with out Eu anomaly, shows similar patterns with that of the oceanic island arc rocks; b) samples with strong Light REE enrichment, flat HREE pattern and strong negative Eu anomaly showing similar patterns to the Andean type andesites, probably derived from granitic gneisses and are affiliated to Active Continental Margin settings; c) this group is represented by a single plot having an enriched LREE pattern, flat HREE pattern and strong positive Eu anomaly. It is most likely that this pattern is related to a high normative plagioclase content due to local accumulation of feldspar during sedimentation rather than representing excessive Eu content of the precursor rock. The REE pattern represented by this sample is roughly similar to that of the Devonian greywackes of Australia. In conclusion, the use of geochemical characteristics of the sediments coupled with the geological information from the area strengthens the suprasubduction zone (SSZ) ophiolitic tectonic setting interpretation suggested (Yibas 1993) for the Adola belt. The trace element plots and their absolute abundance, and the REE patterns strongly constrain the tectonic setting and the provenance of the metasediments to an arc related setting.