Sedimentology
Parvaneh Faridi; Payman Rezaee; AliReza Piryaei; Mehdi Masoodi
Abstract
Halokinetic Sequences are used for analyzing and connecting endogenous and exogenous influencing factors on the sedimentary sequences around the diapir. The most important effect of the diapir movement is the creation of different sedimentary spaces in the result of uplift and subsidence. So, the Handun ...
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Halokinetic Sequences are used for analyzing and connecting endogenous and exogenous influencing factors on the sedimentary sequences around the diapir. The most important effect of the diapir movement is the creation of different sedimentary spaces in the result of uplift and subsidence. So, the Handun Salt Plug has been selected as a classic example. In the Handun salt plug outcrop Upper Cretaceous to recent sediments. The most important effect of the salt plug movement is during the Eocene of the Jahrum. The initial phase of salt extrusion was observed in the Gurpi Formation. Continuation of salt extrusion carrying on hook forms in the deep- water shale of the Pabdeh Formation in the Paleocene-middle Eocene. In the middle Eocene, when the Jahrum carbonate sedimentation exceeds the salt rise, wedges onlap the salt plug. In addition, thrusting led to the emergence of the salt tongues and forming hook in the Formation. The final phase of salt extrusion has been seen in the hooks in the siliciclastic of the Razak Formation. Finally, ongoing shortening is recorded by Guri member growth strata of the Handun salt plug. Our results provide new insights into using Halokinetic Sequences in tectono-sedimentary analysis of the Zagros diapirs.
Sedimentology
Somayeh Parham; Alireza Piryaei; Mansur Ghorbani; Seyyed Reza Moosavi Harami
Abstract
Late Cretaceous in Zagros encompasses regional tectonics and caused foreland basin to form in northeast of the Arabian Plate. Salt tectonics is also locally affected this area. One of the time periods that can better picture this tectono-sedimentary evolution is Maastrichtian. In order to investigate ...
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Late Cretaceous in Zagros encompasses regional tectonics and caused foreland basin to form in northeast of the Arabian Plate. Salt tectonics is also locally affected this area. One of the time periods that can better picture this tectono-sedimentary evolution is Maastrichtian. In order to investigate this evolution in the Maastrichtian time, a regional cross-section was made inthe Fars outcrops and wells. A sedimentological study and sequence stratigraphy have been accomplished along this transect. Maastrichtian deposits consist of the upper part of the Gurpi and the Tarbur formations in the studied transect. Based onsedimentological investigation, 14microfacies have been identified. This microfacies were deposited in 4microfacies belt including tidal flat, restricted and open lagoon, reef and open marine in a shelf carbonate platform. Based on sequence stratigraphic studies, 3 sedimentary sequences were identified in the studied interval. Correlation along the transect revealed that the Maastrichtian deposits occurred on the forebulge of Zagros foreland basin. It is also concluded that the fore-buldge shows a nearly smooth topography and thus accommodation space is homogeneous. Hence the thickness of the Maastrichtian deposits does not vary so much along this transect. Thickness anomaly in Namak-dehkuyeh occurs as a result of salt structure which decreased accommodation space.