2883 Ma commencement of BIF deposition at the northern edge of Congo craton, southern Cameroon: New zircon SHRIMP data constraint from metavolcanics

Chombong, N. N.; Suh, Cheo Emmanuel

doi:10.18814/epiiugs/2013/v36i1/007

Cited by 43 publications

(22 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The Ntem Complex is part of the Congo craton and represents the oldest lithologic group in Cameroon. This complex hosts several iron deposits at various stages of resource definition and development (see [23][24][25]39] and www.sundanceresources.com.au, www.afferro-mining.com).…”

Section: Geological Reviewmentioning

confidence: 99%

“…In this paper we characterize metasediments associated with BIF in the Ntem complex and date detrital zircons from them in order to unravel their provenance and the palaeodepositional environment. The mineralogy, age and the structural setting of the BIF have been reported [23][24][25]39].…”

Section: Geological Reviewmentioning

confidence: 99%

“…Major and trace elements compositions of the samples were obtained by ICP-OES and ICP-MS at a commercial laboratory (Acme Analytical Laboratories Ltd., Vancouver, Canada) and the details are provided in [39].…”

Section: Samples Description Preparation and Analytical Proceduresmentioning

confidence: 99%

“…Analyses of the zircon grains were also done at the RSES and the procedure is recorded in [39]]. The data were processed using the SQUID I Excel Macro of [43,44] and the decay constants of [45] were employed.…”

Section: Samples Description Preparation and Analytical Proceduresmentioning

confidence: 99%

See 3 more Smart Citations

New detrital zircon U-Pb ages from BIF-related metasediments in the Ntem Complex (Congo craton) of southern Cameroon, West Africa

Chombong¹,

Suh²,

Ilouga³

2013

View full text Add to dashboard Cite

Banded Iron Formations (BIFs) were formed by contemporaneous events of active sediments supply and the venting of a hydrothermal fluid source at the Mid-Ocean-Ridge. BIFs within the Ntem Complex at the northern edge of the Congo Craton are intercalated with metasandstones and siltstones. SHRIMP U-Pb analysis on detrital zircons obtained from these metasediments gave variable ages from over 3000 Ma to 1000 Ma with the maximum age of deposition clustered around 1200 Ma and the peak of deposition at 1800 Ma. This age range suggested that the sub-basin was opened sometime in the Archean and remained active up till the Neoproterozoic. Zircons with Archean ages have a provenance linked to the charnockitic suite and the high-K granites within the Ntem Complex. The Paleoproterozoic ages are attributed to clastic inputs from the neigbouring Nyong Series west of the Ntem Complex. Also the peak of deposition in the Proterozoic could probably be explained by the globally recognized intense crust-forming processes in the Early Proterozoic time. The provenance of the younger Neoproterozoic ages is tied to various lithologies within the northern mobile belts of the Adamawa-Yade massifs and correlates with Neoproterozoic sedimentation ages in the Yaoundé, Lom and Poli series. The Neoproterozoic ages obtained are comparable to those obtained from metasediments of the Amazonian Craton and provide evidence of Pre-Gondwana assemblage of the Congo and the S?o Francisco Cratons.

show abstract

Section: Geological Reviewmentioning

confidence: 99%

Section: Geological Reviewmentioning

confidence: 99%

Section: Samples Description Preparation and Analytical Proceduresmentioning

confidence: 99%

Section: Samples Description Preparation and Analytical Proceduresmentioning

confidence: 99%

See 2 more Smart Citations

New detrital zircon U-Pb ages from BIF-related metasediments in the Ntem Complex (Congo craton) of southern Cameroon, West Africa

Chombong¹,

Suh²,

Ilouga³

2013

View full text Add to dashboard Cite

show abstract

“…Camiron Ltd., Caminex Ltd., Camina Ltd., Aucam Ltd., G‐stones Resources Ltd.; Divine Mining Ltd., and Geocam Mining Ltd.) have carried out field surveys and preliminary geochemical tests. The exploration results have revealed that the high magnetic anomalies are related to magnetite‐rich BIFs, such as in the Mbalam (Suh et al, ; Chombong & Suh, ), Nkout (Suh et al, ) and Bikoula (Teutsong et al, ) areas. Moreover, new iron‐rich bodies, namely, Elom (Ganno et al, ), Grand Zambi (Ganno et al, ), and Kouambo (Ganno et al, ), have been discovered in the Ntem Complex.…”

Section: Introductionmentioning

confidence: 99%

Geochemical Constraints on the Origin of Banded Iron Formation‐Hosted Iron Ore from the Archaean Ntem Complex (Congo Craton) in the Meyomessi Area, Southern Cameroon

et al. 2018

View full text Add to dashboard Cite

Banded iron formations (BIFs) are the most significant source of iron in the world. In this study, we report petrographic and geochemical data of the BIF from the Meyomessi area in the Ntem Complex, southern Cameroon, and discuss their genesis and the iron enrichment process. Field investigations and petrography have revealed that the studied BIF samples are hard; compact; weakly weathered; and composed of magnetite, subordinate quartz, and geothite. The geochemical composition of the whole rock reveals that iron and silica represent more than 98 wt% of the average composition, whereas Al2O3, TiO2, and high‐field strength elements (HFSE) contents are very low, similar to detritus‐free marine chemical precipitates. The total iron (TFe) contents range from 48.71 to 65.32 wt % (average of 53.29 wt %) and, together with the low concentrations of deleterious elements (0.19 wt % P on average), are consistent with medium‐grade iron ores by global standards. This interpretation is confirmed by the SiO2/Fe2O3total versus (MgO + CaO + MnO)/Fe2O3total discrimination plot in which most of the Meyomessi BIF samples fall in the field of medium‐grade siliceous ore. Only one sample (MGT94) plots in the high‐grade magnetite–geothite ore domain. The high Fe/Ti (376.36), Fe/Al (99.90), and Si/Al (29.26) ratios of the sample are consistent with significant hydrothermal components. The rare earth elements (REE) contents of the studied BIF samples are very low (∑REE: 0.81–1.47 ppm), and the Post‐Archaean Australian Shale (PAAS)‐normalized patterns display weak positive Eu anomalies (Eu/Eu*: 1.15–1.33), suggesting a syngenetic low‐temperature hydrothermal solutions, similar to other BIF worldwide. However, the Meyomessi BIFs show high Fe contents when compared to the other BIFs. This indicates an epigenetic mineralization process affected the Meyomessi BIF. From the above results and based on the field and analytical data, we propose that the genetic model of iron ores at the Meyomessi area involves two stages of the enrichment process, hypogene enrichment of BIF protore by metamorphic and magmatic fluids followed by supergene alteration as indicated by the presence of goethite in the rocks.

show abstract

Petrology, geochemistry, and zircon U–Pb‐Lu–Hf isotopes of granitoids from the Ivindo Basement Complex of the Souanké Area, Republic of Congo: Insights into the evolution of Archean continental crust

et al. 2021

View full text Add to dashboard Cite

The Ivindo Basement Complex (IBC) comprises the largest exposure of Meso‐ to Neoarchean rocks in the northwestern segment of the Congo Craton in the Republic of Congo. The age and petrogenetic setting of the IBC are not clear due to a lack of detailed studies. In the Souanké area, which is on the northeastern margin of the IBC, the most exposed rocks are charnockites, tonalite/granodiorite, and trondhjemite. Based on geology, geochemistry, and zircon U–Pb‐Lu–Hf isotopes, this paper constrains the petrogenesis and tectonic significance of these granitoids for the evolution of the IBC. Poor‐quality zircons did not allow for age determination and Lu–Hf isotopic characteristics for the charnockite. However, zircon U–Pb dating of the tonalite/granodiorite and trondhjemite yielded the weighted mean 207Pb/206Pb ages of 2,895 ± 9.4 Ma and 2,889 ± 9.2 to 2,897 ± 5.0 Ma, respectively. Zircon Hf isotopic (εHf[t]) values of +1.22 to +4.55 and Th/La >0.12 for the tonalite/granodiorite and trondhjemite indicate that these rocks were derived from partial melting of an older mafic reservoir (TDM2 ages range from 3,028 to 3,230 Ma), possibly triggered by mantle upwelling or plume activity. All the studied IBC granitoids are peraluminous, calcic‐alkalic, relatively sodium‐rich (Na2O/K2O > 1), and contain low Ni, Cr, and Yb contents, with strongly fractionated rare‐earth element (REE) patterns. On standard‐normalization diagrams, the IBC rocks exhibited similar distribution patterns in the trace element geochemistry as average Archean TTGs, except for high U, Nb, and Ta concentrations in the IBC trondhjemite. These high values may indicate amphibole dehydration melting (which sequesters Ta and Nb) at low‐pressure conditions at the source for the trondhjemite generation, while the other IBC rocks experienced high‐pressure melting. The 2,900–2,800 Ma tectono‐thermal event registered in the IBC from our study was also previously documented for the Ntem Complex TTGs of Cameroon (northwestern equivalent of the IBC) and elsewhere in other cratons such as in the Bação Complex (São Francisco Craton) of Brazil and, therefore, represents an important period for the Archean crustal evolution in geologic history.

show abstract

2883 Ma commencement of BIF deposition at the northern edge of Congo craton, southern Cameroon: New zircon SHRIMP data constraint from metavolcanics

Cited by 43 publications

References 34 publications

New detrital zircon U-Pb ages from BIF-related metasediments in the Ntem Complex (Congo craton) of southern Cameroon, West Africa

New detrital zircon U-Pb ages from BIF-related metasediments in the Ntem Complex (Congo craton) of southern Cameroon, West Africa

Geochemical Constraints on the Origin of Banded Iron Formation‐Hosted Iron Ore from the Archaean Ntem Complex (Congo Craton) in the Meyomessi Area, Southern Cameroon

Petrology, geochemistry, and zircon U–Pb‐Lu–Hf isotopes of granitoids from the Ivindo Basement Complex of the Souanké Area, Republic of Congo: Insights into the evolution of Archean continental crust

Contact Info

Product

Resources

About