Your search keyword '"TSIKOS, H."' showing total 4 results

1. Carbon isotope stratigraphy of Precambrian iron formations and possible significance for the early biological pump.

Author

Tsikos, H., Siahi, M., Rafuza, S., Mhlanga, X.R., Oonk, P.B.H., Papadopoulos, V., Boyce, A.J., Mason, P.R.D., Harris, C., Gröcke, D.R., and Lyons, T.W.

Abstract

[Display omitted] • Carbon isotope profiles across an Iron Formation sequence show strong inter-site similarities. • Carbon isotope values are independent of carbonate modal abundance or iron content. • Abiotic, low-δ13C carbonate formation in the ambient water column is favoured. The origin of Precambrian iron-formations (IF) remains contentious, particularly with respect to the mineralogy of primary precipitates and the exact processes and conditions leading to their formation. Despite the uncertainties, prevailing hypotheses range from biological precipitation of ferrihydrite to abiotic water-column formation of greenalite. By contrast, iron carbonate minerals (siderite, ankerite) in IF have traditionally been attributed to diagenetic origins based on textural and isotopic relationships. Recent studies on IF from the Neoarchaean-Paleoproterozoic Transvaal Supergroup of South Africa have revealed evidence for apparently primary, low-δ13C, Fe/Mn-bearing Mg calcite as precursor to iron carbonate formation and as a potentially underestimated pathway of isotopically light carbon burial during IF deposition. Here, we present whole-rock δ13C data and carbonate-specific geochemical analyses for samples from five drill cores that capture the entire stratigraphic extent of the Kuruman and Griquatown IF of the Transvaal Supergroup. Our results demonstrate remarkable consistency in stratigraphic profiles among the locations for the trends and magnitudes of bulk δ13C values that are independent of paragenetic association, modal mineralogy, and chemical composition of the bulk carbonate fraction of each sample. We interpret these records as resulting from water-column abiotic carbonate formation that was accompanied by kinetic isotopic effects associated with fluctuating conditions (pH, alkalinity) controlling carbonate supersaturation in ambient seawater. Although our interpretation provides strong support for abiotic, anoxic models for IF genesis prior to the Great Oxidation Event (GOE), it does not entirely preclude additional biological mechanisms of primary ferric oxyhydroxide formation and its possible role in an early biological pump. [ABSTRACT FROM AUTHOR]

Published

2022

2. New insights into mineralogy and geochemistry of allanite-bearing Mediterranean coastal sands from Northern Greece.

Author

Tzifas, I.T., Papadopoulos, A., Misaelides, P., Godelitsas, A., Göttlicher, J., Tsikos, H., Gamaletsos, P.N., Luvizotto, G., Karydas, A.G., Petrelli, M., Noli, F., Kantarelou, V., Kontofakas, A., and Hatzidimitriou, A.

Subjects

GEOCHEMISTRY, SAND, METAL tailings, MINERALOGY, TITANIUM, UNIT cell, OXIDATION states

Abstract

Allanite-bearing black coastal sands of Kavala (N. Greece) were studied using a combination of single-crystal XRD, EMPA, μ-XRF, bulk ICP-MS, LA-ICP-MS, μ-XANES and γ-ray spectrometry. The sands are rich in REE (ΣREE + Y: 4010 to 10,810 mg/kg), Th (236–1205 mg/kg) and other critical metals such as Nb, Ta and Co. The main REE- and Th-hosts are allanite and titanite. The allanite unit cell parameters were calculated whereas its formula was found to be (REE 0.470 Ca 1.499 Th 0.031) (Ti 0.031 Fe+3 1.089 Al 1.880) (Si 2.906 Al 0.094 O 12) (OH). The μ-XANES spectra showed that LREE are present in trivalent oxidation state. Analyses of the non-magnetic sand fractions showed higher LREE (12,470 mg/kg) due to accumulation of allanite. The materials showed elevated radioactivity ranging from 885 ± 13 to 3467 ± 20 Bq/kg. The obtained results provide new insights on the provenance of the sands, the abundance of REE, Th, and other immobile elements, and offer new clues for potential exploration and exploitation. [ABSTRACT FROM AUTHOR]

Published

2019

3. Regional isotopic fingerprinting of hydrothermal barite mineralisation and its possible association to epigenetic Fe and Mn ore formation in the Paleoproterozoic Transvaal Supergroup of South Africa

Author

Papadopoulos, V., Tsikos, H., Boyce, A., and Mark, D.

Published

2019

4. Regional isotopic fingerprinting of hydrothermal barite mineralisation and its possible association to epigenetic Fe and Mn ore formation in the Paleoproterozoic Transvaal Supergroup of South Africa

Author

Papadopoulos, V., Tsikos, H., Boyce, A., and Mark, D.

Published

2019