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Lahijani, H.A.K., Amjadi, S., Pourkerman, M., Naderi, A., Hosseindoost, M., Habibi, P. (2019) Makran continental margin sedimentation during the Late Holocene. Canadian Journal of Earth Sciences, 56 (6) 629-636 doi:10.1139/cjes-2018-0087

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Reference TypeJournal (article/letter/editorial)
TitleMakran continental margin sedimentation during the Late Holocene
JournalCanadian Journal of Earth Sciences
AuthorsLahijani, H.A.K.Author
Amjadi, S.Author
Pourkerman, M.Author
Naderi, A.Author
Hosseindoost, M.Author
Habibi, P.Author
Year2019 (June)Volume56
Issue6
PublisherCanadian Science Publishing
DOIdoi:10.1139/cjes-2018-0087Search in ResearchGate
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Mindat Ref. ID485588Long-form Identifiermindat:1:5:485588:4
GUID0
Full ReferenceLahijani, H.A.K., Amjadi, S., Pourkerman, M., Naderi, A., Hosseindoost, M., Habibi, P. (2019) Makran continental margin sedimentation during the Late Holocene. Canadian Journal of Earth Sciences, 56 (6) 629-636 doi:10.1139/cjes-2018-0087
Plain TextLahijani, H.A.K., Amjadi, S., Pourkerman, M., Naderi, A., Hosseindoost, M., Habibi, P. (2019) Makran continental margin sedimentation during the Late Holocene. Canadian Journal of Earth Sciences, 56 (6) 629-636 doi:10.1139/cjes-2018-0087
In(2019, June) Canadian Journal of Earth Sciences Vol. 56 (6) Canadian Science Publishing
Abstract/Notes Sedimentation in the Makran active margin is governed by a complex interaction of atmospheric, tectonics, and hydrodynamic setting of the northern flank of the Gulf of Oman. The mixed clastic carbonate sediments in the tectonically and hydrodynamically active environment have complicated the distribution pattern. The region is suffering from basic sedimentological data, and specifically, the sedimentation history of the Holocene deposits has been rarely studied in the Iranian coast. To deal with this deficiency, surface and core sediment samples from the Iranian continental shelf and upper slope of the Gulf of Oman have been studied using standard sedimentological techniques. The overall sediment distribution pattern demonstrates that the grain size gradually decreases from the shoreline to the deeper zones. However, some medium- to coarse-grained sand patches can be found in the deeper parts, especially in the middle part of the studied area that can be related to sediment supply of ephemeral rivers discharging into the sea in rainy seasons and (or) high-energy events (i.e., turbidites and tsunamis during the Holocene). Several horizons of the coarse-grained detrital sediments are detectable in the upper slope sediment cores. The coarse-grained materials are received from the hinterland during flash floods and could be accumulated due to mass wasting events. The elevated amount of organic materials in the upper slope indicates a deficit of dissolved oxygen that leads to preservation of organic materials in the bottom sediments.

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