Petrology and geochemistry of TTG and K-rich Paleoproterozoic Birimian granitoids of the West African Craton (Ghana): Petrogenesis and tectonic implications
Date
2019-10-14
Journal Title
Journal ISSN
Volume Title
Publisher
Precambrian Research
Abstract
We conducted petrologic, geochemical and isotopic studies on Paleoproterozoic Birimian granitoids that intrude
the Bole-Nangodi Belt in northern Ghana, in southeastern West African Craton (WAC), to constrain the geodynamic
evolution of the Birimian Supergroup. The rocks are potassic (K)-rich granitoids (KRGs), tonalities,
trondhjemites, granodiorites (TTGs), pegmatite and aplite. The K2O contents of the KRGs are up to 5 wt%, with
generally high concentrations of Rb, Ba, Sr, Cr and Ni. They are highly fractionated calc-alkaline I-type granitoids,
enriched in LILE and LREE relative to HREE and HFSE. Chondrite-normalized REE diagrams indicate
fractionated LREE (average LaN/SmN=5.05) and HREE (GdN/YbN=4.56) patterns, with slight negative Eu
anomalies (average Eu/Eu*=0.75). This may indicate an evolved magma source with varying degrees of
plagioclase fractionation. The KRGs share similar geochemical characteristics with the TTGs into which they
intrude. Both rock types are characterized by Ba and Th enrichment and depletion in Nb‐Ta, Zr‐Hf, and Ti, which
are typical characteristics of subduction-related magmas. The pegmatite-aplite association is slightly geochemically
different and may have formed at a time later than the KRGs. The ԐNd(2.1 Ga) values range
from+0.90 to+1.24 and −0.86 to+1.37 respectively for the TTGs and KRGs, with TDM1 ages of
2.34–2.38 Ga and 2.36–2.53 Ga and TDM2 ages of 2.21–2.24 Ga and 2.22–2.39 Ga respectively. These indicate
their juvenile character, possibly a depleted mantle source with minor contributions from a pre-Birimian (or
Archean?) crustal material in their source material(s). The TTGs and KRGs are volcanic arc granites (VAG) and
syn-collisional (Syn-COLG) granites, with formation temperatures and pressures of ~640–750 °C and ~2–6 kbar
respectively. Based on the high temperatures, I-type signature, calc-alkaline nature and other geochemical
characteristics, we infer that the TTGs, KRGs and pegmatite-aplite association developed under high oxygen
fugacity conditions in an orogenic tectonic setting related to subduction. Thus, our geochemical and isotopic
results are consistent with an island arc tectonic setting arising from subduction–accretion processes, which are
typical for the Paleoproterozoic terranes of the WAC. These processes may have contributed to the amalgamation
of the Columbia (Nuna) supercontinent during the Paleoproterozoic (2.1–1.8 Ga) orogeny.
Description
Research Article
Keywords
Paleoproterozoic, Birimian, TTGs, K-rich granitoids, West African Craton, Bole-Nangodi Belt