Strontium isotope radiometric dating reveals the late Eocene and Oligocene successions in northern Kuwait

Strontium isotope radiometric dating reveals the late Eocene and Oligocene successions in northern Kuwait

The strata exposed at Jal Az-Zor escarpment in northern Kuwait represent one of the best outcrops in the country, extending over 60 km in length with a cliff-face of around 36 m. The age assignment of these rock units was mostly done during the 1920s to 1960s and was largely based on taxonomy groupi...

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Bibliographic Details
Published in:Arabian journal of geosciences Vol. 12; no. 9; pp. 1 - 13
Main Authors: Amer, Aimen, Al-Hajeri, Mubarak
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-05-2019
Springer Nature B.V
Subjects:
Age
Age determination
Calcite
Carbonates
Chronology
Cliffs
Composition
Dating techniques
Earth and Environmental Science
Earth science
Earth Sciences
Eocene
Exposure
Fossils
Geological time
Isotope ratios
Isotopes
Lithology
Marine molluscs
Miocene
Neogene
Oligocene
Original Paper
Outcrops
Paleogene
Pliocene
Radiometric dating
Rocks
Strata
Stratigraphy
Strontium
Strontium 87
Strontium isotopes
Taxonomy
Tectonics
Kuwait
Arabian Peninsula
Jal Az-Zor
Kuwait Group
Stratigraphic nomenclature
Lower Fars
Kuwait
Radiometric dating
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Summary:The strata exposed at Jal Az-Zor escarpment in northern Kuwait represent one of the best outcrops in the country, extending over 60 km in length with a cliff-face of around 36 m. The age assignment of these rock units was mostly done during the 1920s to 1960s and was largely based on taxonomy grouping of an oyster-rich bed present at the base of Jal Az-Zor correlated to what appeared to be a similar layer that belongs to the Lower Fars Formation in Iran. In the subsurface, the results of biostratigraphic analysis using different taxonomic groups have suggested ages that position this exposed lithological unit in the range of late Miocene to Pliocene (11.63–2.58 Ma). Due to the lack of radiometric numerical data, the strontium isotope ratio ( 87 Sr/ 86 Sr) age-dating method was applied on carefully selected surface and subsurface samples including an oyster shell, beds with abundant fossils, and calcite cemented specimens. Petrographic, XRD, and SEM-EDX analyses were utilized to determine the rock composition, assist in identifying the biomass, and carbonate content of the samples before performing age dating on selected areas of the sample. Numerical age determination based on ( 87 Sr/ 86 Sr) ratio revealed that an oyster shell taken from the cliff of Jal Az-Zor is 20.53 Ma in age (Aquitanian), the fossiliferous bed exposed at the foot of the escarpment is 24.39 Ma in age (Chattian), and the Sabriyah roadcut beds exhibit an age of 30.32 Ma (Rupelian). The subsurface extracted samples that are dominated by calcite cement uncovered an age range between 36 and 19.41 Ma (Burdigalian to Priabonian). This analysis introduces the late Eocene and Oligocene to Kuwait’s stratigraphy otherwise known to be eroded. The implications of such findings can revamp the Paleogene and Neogene tectonic evolution of Kuwait and potentially lead to the renaming of the undifferentiated Kuwait Group strata to a more representative name, such as the Kuwait Formation that combines the traditional tripartite subdivision of the group.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-019-4455-4