Rapid late Pleistocene/Holocene uplift and coastal evolution of the southern Arabian (Persian) Gulf

Warren W. Wood; Richard M. Bailey; Brian A. Hampton; Thomas F. Kraemer; Zhong Lu; David W. Clark; Rhodri H.R. James; Khalid Al Ramadan

doi:10.1016/j.yqres.2011.10.008

Rapid late Pleistocene/Holocene uplift and coastal evolution of the southern Arabian (Persian) Gulf

Warren W. Wood^*, Richard M. Bailey, Brian A. Hampton, Thomas F. Kraemer, Zhong Lu, David W. Clark, Rhodri H.R. James, Khalid Al Ramadan

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

The coastline along the southern Arabian Gulf between Al Jubail, Kingdom of Saudi Arabia, and Dubai, UAE, appears to have risen at least 125. m in the last 18,000. years. Dating and topographic surveying of paleo-dunes (43-53. ka), paleo-marine terraces (17-30. ka), and paleo-marine shorelines (3.3-5.5. ka) document a rapid, > 1 mm/a subsidence, followed by a 6 mm/a uplift that is decreasing with time. The mechanism causing this movement remains elusive but may be related to the translation of the coastal area through the backbasin to forebulge hinge line movement of the Arabian plate or, alternatively, by movement of the underlying Infracambrian-age Hormuz salt in response to sea-level changes associated with continental glaciation. Independent of the mechanism, rapid and episodic uplift may impact the design of engineering projects such as nuclear power plants, airports, and artificial islands as well as the interpretation of sedimentation and archeology of the area.

Original language	English
Pages (from-to)	215-220
Number of pages	6
Journal	Quaternary Research
Volume	77
Issue number	2
DOIs	https://doi.org/10.1016/j.yqres.2011.10.008
State	Published - Mar 2012

Keywords

Arabian Gulf, Persian Gulf, UAE
Landscape evolution
Saudi Arabia
Tectonics, salt tectonics

ASJC Scopus subject areas

Arts and Humanities (miscellaneous)
Earth-Surface Processes
General Earth and Planetary Sciences

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title = "Rapid late Pleistocene/Holocene uplift and coastal evolution of the southern Arabian (Persian) Gulf",

abstract = "The coastline along the southern Arabian Gulf between Al Jubail, Kingdom of Saudi Arabia, and Dubai, UAE, appears to have risen at least 125. m in the last 18,000. years. Dating and topographic surveying of paleo-dunes (43-53. ka), paleo-marine terraces (17-30. ka), and paleo-marine shorelines (3.3-5.5. ka) document a rapid, > 1 mm/a subsidence, followed by a 6 mm/a uplift that is decreasing with time. The mechanism causing this movement remains elusive but may be related to the translation of the coastal area through the backbasin to forebulge hinge line movement of the Arabian plate or, alternatively, by movement of the underlying Infracambrian-age Hormuz salt in response to sea-level changes associated with continental glaciation. Independent of the mechanism, rapid and episodic uplift may impact the design of engineering projects such as nuclear power plants, airports, and artificial islands as well as the interpretation of sedimentation and archeology of the area.",

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author = "Wood, {Warren W.} and Bailey, {Richard M.} and Hampton, {Brian A.} and Kraemer, {Thomas F.} and Zhong Lu and Clark, {David W.} and James, {Rhodri H.R.} and {Al Ramadan}, Khalid",

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AU - Bailey, Richard M.

AU - Hampton, Brian A.

AU - Kraemer, Thomas F.

AU - Lu, Zhong

AU - Clark, David W.

AU - James, Rhodri H.R.

AU - Al Ramadan, Khalid

PY - 2012/3

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N2 - The coastline along the southern Arabian Gulf between Al Jubail, Kingdom of Saudi Arabia, and Dubai, UAE, appears to have risen at least 125. m in the last 18,000. years. Dating and topographic surveying of paleo-dunes (43-53. ka), paleo-marine terraces (17-30. ka), and paleo-marine shorelines (3.3-5.5. ka) document a rapid, > 1 mm/a subsidence, followed by a 6 mm/a uplift that is decreasing with time. The mechanism causing this movement remains elusive but may be related to the translation of the coastal area through the backbasin to forebulge hinge line movement of the Arabian plate or, alternatively, by movement of the underlying Infracambrian-age Hormuz salt in response to sea-level changes associated with continental glaciation. Independent of the mechanism, rapid and episodic uplift may impact the design of engineering projects such as nuclear power plants, airports, and artificial islands as well as the interpretation of sedimentation and archeology of the area.

AB - The coastline along the southern Arabian Gulf between Al Jubail, Kingdom of Saudi Arabia, and Dubai, UAE, appears to have risen at least 125. m in the last 18,000. years. Dating and topographic surveying of paleo-dunes (43-53. ka), paleo-marine terraces (17-30. ka), and paleo-marine shorelines (3.3-5.5. ka) document a rapid, > 1 mm/a subsidence, followed by a 6 mm/a uplift that is decreasing with time. The mechanism causing this movement remains elusive but may be related to the translation of the coastal area through the backbasin to forebulge hinge line movement of the Arabian plate or, alternatively, by movement of the underlying Infracambrian-age Hormuz salt in response to sea-level changes associated with continental glaciation. Independent of the mechanism, rapid and episodic uplift may impact the design of engineering projects such as nuclear power plants, airports, and artificial islands as well as the interpretation of sedimentation and archeology of the area.

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Rapid late Pleistocene/Holocene uplift and coastal evolution of the southern Arabian (Persian) Gulf

Abstract

Keywords

ASJC Scopus subject areas

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