Active crustal shortening in NE Syria revealed by deformed terraces of the River Euphrates

Romieh, Mohammad Abou; Westaway, Rob; Daoud, Mohamad; Radwan, Yousef; Yassminh, Rayan; Khalil, Ahlam; Al-Ashkar, Abeer; Loughlin, S. C.; Arrell, Katherine; Bridgland, David R.

doi:10.1111/j.1365-3121.2009.00896.x

Cited by 26 publications

(13 citation statements)

References 28 publications

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“…This reversal in the sense of vertical crustal motion is widely recognised in fluvial sequences in the Arabian Platform (e.g. Demir et al, 2007bDemir et al, , 2008Abou Romieh et al, 2009;Bridgland et al, 2012-this issue); its cause is not established, although Westaway (2012-this issue) suggests a possible physical mechanism. Like for the Işık gravel, given the component of localised subsidence in synclinal areas such as Karababa Bridge, the thickness of aggradation will exceed the contemporaneous regional subsidence.…”

Section: Resolution Of Regional Uplift and Localised Crustal Deformationmentioning

confidence: 94%

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Late Cenozoic regional uplift and localised crustal deformation within the northern Arabian Platform in southeast Turkey: Investigation of the Euphrates terrace staircase using multidisciplinary techniques

et al. 2012

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Section: Resolution Of Regional Uplift and Localised Crustal Deformationmentioning

confidence: 94%

“…Reilinger et al, 2006) and too little information exists from the instrumental or historical seismicity. However, in NE Syria, Abou Romieh et al (2009) have documented active faulting affecting Euphrates terraces. Given that the Bozova Fault crosses the Euphrates valley within the present study region (Fig.…”

Section: Introductionmentioning

confidence: 97%

Late Cenozoic regional uplift and localised crustal deformation within the northern Arabian Platform in southeast Turkey: Investigation of the Euphrates terrace staircase using multidisciplinary techniques

et al. 2012

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“…Angled arrows correspond to the starts of phases of LCFF identified in uplift modelling by Demir et al (2007). Note that the Euphrates terrace deposits in this part of Syria are affected by active faulting as well as regional uplift (Litak et al, 1997;Abou Romieh et al, 2009); the precise height of any particular terrace thus varies with downstream location (see Abou Romieh et al, 2009, for long-profile projections of the terraces). Nonetheless, this composite transverse profile summarises the nature of this fluvial archive in a manner suitable to highlight the issues raised in the present study.…”

Section: Localities Showing Alternations In Sense Of Vertical Crustalmentioning

confidence: 98%

A numerical modelling technique that can account for alternations of uplift and subsidence revealed by Late Cenozoic fluvial sequences

Westaway

2012

Geomorphology

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“…Recent interpretations of the regional kinematics (e.g. Westaway, 2004b;Gomez et al, 2006;Seyrek et al, 2008;Abou Romieh et al, 2009) require a component of crustal shortening in the crustal blocks alongside the active left-lateral faults forming the northern DSFZ. It is thus probable that any dip-slip fault in the Antakya area, away from the main left-lateral faulting, would be a reverse fault (cf.…”

Section: The Lower Orontes Downstream Of Antakyamentioning

confidence: 99%

The River Orontes in Syria and Turkey: Downstream variation of fluvial archives in different crustal blocks

Bridgland

Westaway

Romieh³

et al. 2012

Geomorphology

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The geomorphology and Quaternary history of the River Orontes in western Syria and south-central Turkey have been studied using a combination of methods: field survey, differential GPS, satellite imagery, analysis of sediments to determine provenance, flow direction and fluvial environment, incorporation of evidence from fossils for both palaeoenvironments and biostratigraphy, uranium-series dating of calcrete cement, reconciliation of Palaeolithic archaeological contents, and uplift modelling based on terrace height distribution. The results underline the contrasting nature of different reaches of the Orontes, in part reflecting different crustal blocks, with different histories of landscape evolution. Upstream from Homs the Orontes has a system of calcreted terraces that form a staircase extending to~200 m above the river. New U-series dating provides an age constraint within the lower part of the sequence that suggests underestimation of terrace ages in previous reviews. This upper valley is separated from another terraced reach, in the Middle Orontes, by a gorge cut through the Late Miocene-Early Pliocene Homs Basalt. The Middle Orontes terraces have long been recognized as a source of mammalian fossils and Palaeolithic artefacts, particularly from Latamneh, near the downstream end of the reach. This terraced section of the valley ends at a fault scarp, marking the edge of the subsiding Ghab Basin (a segment of the Dead Sea Fault Zone), which has been filled to a depth of 1 km by dominantly lacustrine sediments of Pliocene-Quaternary age. Review of the fauna from Latamneh suggests that its age is 1.2-0.9 Ma, significantly older than previously supposed, and commensurate with less uplift in this reach than both the Upper and Lower Orontes. Two localities near the downstream end of the Ghab have provided molluscan and ostracod assemblages that record somewhat saline environments, perhaps caused by desiccation within the former lacustrine basin, although they include fluvial elements. The Ghab is separated from another subsiding and formerly lacustrine depocentre, the Amik Basin of Hatay Province, Turkey, by a second gorge, implicit of uplift, this time cut through Palaeogene limestone. The NE-SW oriented lowermost reach of the Orontes is again terraced, with a third and most dramatic gorge through the northern edge of the Ziyaret Dağı mountains, which are known to have experienced rapid uplift, probably again enhanced by movement on an active fault. Indeed, a conclusion of the research, in which these various reaches are compared, is that the crust in the Hatay region is significantly more dynamic than that further upstream, where uplift has been less rapid and less continuous.

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Active crustal shortening in NE Syria revealed by deformed terraces of the River Euphrates

Cited by 26 publications

References 28 publications

Late Cenozoic regional uplift and localised crustal deformation within the northern Arabian Platform in southeast Turkey: Investigation of the Euphrates terrace staircase using multidisciplinary techniques

Late Cenozoic regional uplift and localised crustal deformation within the northern Arabian Platform in southeast Turkey: Investigation of the Euphrates terrace staircase using multidisciplinary techniques

A numerical modelling technique that can account for alternations of uplift and subsidence revealed by Late Cenozoic fluvial sequences

The River Orontes in Syria and Turkey: Downstream variation of fluvial archives in different crustal blocks

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