Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman

Razan Y. Al Naabi; Mohamed A.K. El-Ghali; Mohamed S.H. Moustafa; John Smweing

doi:10.1007/978-3-031-48758-3_10

Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman

Razan Y. Al Naabi^*, Mohamed A.K. El-Ghali, Mohamed S.H. Moustafa, John Smweing

^*Corresponding author for this work

Earth Science

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

The Cryogenian Snowball Earth episode is represented in Oman by the Fiq Formation of the Abu Mahara Group. Although the Fiq Formation is an important hydrocarbon target in Oman, its spatial and temporal depositional facies distribution is still poorly understood. This study aims to build on previous outcrop studies and develop a depositional model based on detailed sedimentological logging of the well-exposed Fiq Formation in the Jabal Akhdar area of northern Oman. This study has revealed that the Fiq Formation is of glaciomarine (i.e., proximal and distal) and proglacial facies. Proximal glaciomarine facies consist of discontinuous, thin, clast-rich diamictite intervals. The clast-rich nature suggests rainout diamictites formed by the continuous source of debris below an ice sheet, extending some distance from the grounded ice margin. Distal glaciomarine facies make up most of the logged section and consist of thick massive mud-prone, clast-poor dilute diamictite intervals. They are of rainout ice-rafted based diamictites, sourced by iceberg-based debris flows, and deposited towards the distal area of the basin, distant from an active ice margin. Local glacier features (i.e., ice-rafted granitic dropstones) display clear evidence of active glaciation during the deposition of the Fiq Formation. The proglacial, gravity flow elements comprise gravity flow facies consisting of massive, locally graded sandstones with rippled tops, displaying pulse-like features, representing bottom-current-based turbidites, sourced from meltwater bottom-currents from sub-glacial tunnel-mouth outlets, and deposited on unstable slope setting. Proglacial, gravity flow facies are also represented by parallel and thinly laminated siltstones and deformed mudstones, massive pebbly sandstones and clast-supported conglomerates with moderate to well-sorted texture, and rippled fine-grained sandstones and siltstones. Altogether this suggests suspension fallout from turbid plumes, intensively reworked debris and dilute current-based ripples formed in a deep water setting. Thick intervals of structureless sandstone represent lithofacies deposited in a braided fluvial environment. The Fiq Formation represents cycles of sea-level rise and fall events formed during local and multiple glaciation and deglaciation events. The outcome of this study may serve as a reference to test Fiq’s potential development as a play and to define its regional variation in further studies.

Original language	English
Title of host publication	Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics, and Petroleum Geology - Proceedings of the 2nd MedGU, 2022 Volume 2
Editors	Attila Çiner, Stefano Naitza, Ahmed E. Radwan, Zakaria Hamimi, Federico Lucci, Jasper Knight, Ciro Cucciniello, Santanu Banerjee, Hasnaa Chennaoui, Domenico M. Doronzo, Carla Candeias, Jesús Rodrigo-Comino, Roohollah Kalatehjari, Afroz Ahmad Shah, Matteo Gentilucci, Dionysia Panagoulia, Helder I. Chaminé, Maurizio Barbieri, Zeynal Abiddin Ergüler
Publisher	Springer Nature
Pages	43-46
Number of pages	4
ISBN (Print)	9783031487576
DOIs	https://doi.org/10.1007/978-3-031-48758-3_10
Publication status	Published - Jan 1 2024
Event	2nd International conference on Mediterranean Geosciences Union, MedGU 2022 - Marrakech, Morocco Duration: Nov 27 2022 → Nov 30 2022

Publication series

Name	Advances in Science, Technology and Innovation

Conference

Conference	2nd International conference on Mediterranean Geosciences Union, MedGU 2022
Country/Territory	Morocco
City	Marrakech
Period	11/27/22 → 11/30/22

Keywords

Abu Mahara Group
Cryogenian
Diamictite
Fiq Formation
Glaciomarine
Huqf Supergroup
Jabal Akhdar area
Neoproterozoic
Oman
Snowball Earth
Wadi Hajir

ASJC Scopus subject areas

Architecture
Environmental Chemistry
Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-3-031-48758-3_10

Cite this

Al Naabi, R. Y., El-Ghali, M. A. K., Moustafa, M. S. H., & Smweing, J. (2024). Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman. In A. Çiner, S. Naitza, A. E. Radwan, Z. Hamimi, F. Lucci, J. Knight, C. Cucciniello, S. Banerjee, H. Chennaoui, D. M. Doronzo, C. Candeias, J. Rodrigo-Comino, R. Kalatehjari, A. A. Shah, M. Gentilucci, D. Panagoulia, H. I. Chaminé, M. Barbieri, & Z. A. Ergüler (Eds.), Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics, and Petroleum Geology - Proceedings of the 2nd MedGU, 2022 Volume 2 (pp. 43-46). (Advances in Science, Technology and Innovation). Springer Nature. https://doi.org/10.1007/978-3-031-48758-3_10

Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman. / Al Naabi, Razan Y.; El-Ghali, Mohamed A.K.; Moustafa, Mohamed S.H. et al.
Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics, and Petroleum Geology - Proceedings of the 2nd MedGU, 2022 Volume 2. ed. / Attila Çiner; Stefano Naitza; Ahmed E. Radwan; Zakaria Hamimi; Federico Lucci; Jasper Knight; Ciro Cucciniello; Santanu Banerjee; Hasnaa Chennaoui; Domenico M. Doronzo; Carla Candeias; Jesús Rodrigo-Comino; Roohollah Kalatehjari; Afroz Ahmad Shah; Matteo Gentilucci; Dionysia Panagoulia; Helder I. Chaminé; Maurizio Barbieri; Zeynal Abiddin Ergüler. Springer Nature, 2024. p. 43-46 (Advances in Science, Technology and Innovation).

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Al Naabi, RY, El-Ghali, MAK , Moustafa, MSH & Smweing, J 2024, Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman. in A Çiner, S Naitza, AE Radwan, Z Hamimi, F Lucci, J Knight, C Cucciniello, S Banerjee, H Chennaoui, DM Doronzo, C Candeias, J Rodrigo-Comino, R Kalatehjari, AA Shah, M Gentilucci, D Panagoulia, HI Chaminé, M Barbieri & ZA Ergüler (eds), Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics, and Petroleum Geology - Proceedings of the 2nd MedGU, 2022 Volume 2. Advances in Science, Technology and Innovation, Springer Nature, pp. 43-46, 2nd International conference on Mediterranean Geosciences Union, MedGU 2022, Marrakech, Morocco, 11/27/22. https://doi.org/10.1007/978-3-031-48758-3_10

Al Naabi RY, El-Ghali MAK , Moustafa MSH, Smweing J. Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman. In Çiner A, Naitza S, Radwan AE, Hamimi Z, Lucci F, Knight J, Cucciniello C, Banerjee S, Chennaoui H, Doronzo DM, Candeias C, Rodrigo-Comino J, Kalatehjari R, Shah AA, Gentilucci M, Panagoulia D, Chaminé HI, Barbieri M, Ergüler ZA, editors, Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics, and Petroleum Geology - Proceedings of the 2nd MedGU, 2022 Volume 2. Springer Nature. 2024. p. 43-46. (Advances in Science, Technology and Innovation). doi: 10.1007/978-3-031-48758-3_10

Al Naabi, Razan Y. ; El-Ghali, Mohamed A.K. ; Moustafa, Mohamed S.H. et al. / Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System : An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman. Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics, and Petroleum Geology - Proceedings of the 2nd MedGU, 2022 Volume 2. editor / Attila Çiner ; Stefano Naitza ; Ahmed E. Radwan ; Zakaria Hamimi ; Federico Lucci ; Jasper Knight ; Ciro Cucciniello ; Santanu Banerjee ; Hasnaa Chennaoui ; Domenico M. Doronzo ; Carla Candeias ; Jesús Rodrigo-Comino ; Roohollah Kalatehjari ; Afroz Ahmad Shah ; Matteo Gentilucci ; Dionysia Panagoulia ; Helder I. Chaminé ; Maurizio Barbieri ; Zeynal Abiddin Ergüler. Springer Nature, 2024. pp. 43-46 (Advances in Science, Technology and Innovation).

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abstract = "The Cryogenian Snowball Earth episode is represented in Oman by the Fiq Formation of the Abu Mahara Group. Although the Fiq Formation is an important hydrocarbon target in Oman, its spatial and temporal depositional facies distribution is still poorly understood. This study aims to build on previous outcrop studies and develop a depositional model based on detailed sedimentological logging of the well-exposed Fiq Formation in the Jabal Akhdar area of northern Oman. This study has revealed that the Fiq Formation is of glaciomarine (i.e., proximal and distal) and proglacial facies. Proximal glaciomarine facies consist of discontinuous, thin, clast-rich diamictite intervals. The clast-rich nature suggests rainout diamictites formed by the continuous source of debris below an ice sheet, extending some distance from the grounded ice margin. Distal glaciomarine facies make up most of the logged section and consist of thick massive mud-prone, clast-poor dilute diamictite intervals. They are of rainout ice-rafted based diamictites, sourced by iceberg-based debris flows, and deposited towards the distal area of the basin, distant from an active ice margin. Local glacier features (i.e., ice-rafted granitic dropstones) display clear evidence of active glaciation during the deposition of the Fiq Formation. The proglacial, gravity flow elements comprise gravity flow facies consisting of massive, locally graded sandstones with rippled tops, displaying pulse-like features, representing bottom-current-based turbidites, sourced from meltwater bottom-currents from sub-glacial tunnel-mouth outlets, and deposited on unstable slope setting. Proglacial, gravity flow facies are also represented by parallel and thinly laminated siltstones and deformed mudstones, massive pebbly sandstones and clast-supported conglomerates with moderate to well-sorted texture, and rippled fine-grained sandstones and siltstones. Altogether this suggests suspension fallout from turbid plumes, intensively reworked debris and dilute current-based ripples formed in a deep water setting. Thick intervals of structureless sandstone represent lithofacies deposited in a braided fluvial environment. The Fiq Formation represents cycles of sea-level rise and fall events formed during local and multiple glaciation and deglaciation events. The outcome of this study may serve as a reference to test Fiq{\textquoteright}s potential development as a play and to define its regional variation in further studies.",

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N2 - The Cryogenian Snowball Earth episode is represented in Oman by the Fiq Formation of the Abu Mahara Group. Although the Fiq Formation is an important hydrocarbon target in Oman, its spatial and temporal depositional facies distribution is still poorly understood. This study aims to build on previous outcrop studies and develop a depositional model based on detailed sedimentological logging of the well-exposed Fiq Formation in the Jabal Akhdar area of northern Oman. This study has revealed that the Fiq Formation is of glaciomarine (i.e., proximal and distal) and proglacial facies. Proximal glaciomarine facies consist of discontinuous, thin, clast-rich diamictite intervals. The clast-rich nature suggests rainout diamictites formed by the continuous source of debris below an ice sheet, extending some distance from the grounded ice margin. Distal glaciomarine facies make up most of the logged section and consist of thick massive mud-prone, clast-poor dilute diamictite intervals. They are of rainout ice-rafted based diamictites, sourced by iceberg-based debris flows, and deposited towards the distal area of the basin, distant from an active ice margin. Local glacier features (i.e., ice-rafted granitic dropstones) display clear evidence of active glaciation during the deposition of the Fiq Formation. The proglacial, gravity flow elements comprise gravity flow facies consisting of massive, locally graded sandstones with rippled tops, displaying pulse-like features, representing bottom-current-based turbidites, sourced from meltwater bottom-currents from sub-glacial tunnel-mouth outlets, and deposited on unstable slope setting. Proglacial, gravity flow facies are also represented by parallel and thinly laminated siltstones and deformed mudstones, massive pebbly sandstones and clast-supported conglomerates with moderate to well-sorted texture, and rippled fine-grained sandstones and siltstones. Altogether this suggests suspension fallout from turbid plumes, intensively reworked debris and dilute current-based ripples formed in a deep water setting. Thick intervals of structureless sandstone represent lithofacies deposited in a braided fluvial environment. The Fiq Formation represents cycles of sea-level rise and fall events formed during local and multiple glaciation and deglaciation events. The outcome of this study may serve as a reference to test Fiq’s potential development as a play and to define its regional variation in further studies.

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Depositional Facies and Sea-Level Variation of the Cryogenian Glacial System: An Example from the Outcropping Fiq Formation, Abu Mahara Group, Jabal Akhdar Area, Northern Oman

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