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Imaging Normal Faults in Alluvial fans using Geophysical Techniques: Field Example from the Coast of Aqaba, Saudi Arabia Sherif M. Hanafy 28 October 2014
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Motivation Can we locate and characterize faults in alluvial sediments? We used seismic traveltime tomography and 2D resistivity imaging to locate the fault
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Study Area Red Sea Gulf of Aqaba
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Study Area Fault raptured at the 1995 earthquake Seismic/resistivity profile
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Data Acquisition Seismic Data – One profile – 120 shot gather, 120 receiver/shot gather – 2.5 m shot/receiver interval – 297.5 m profile length – 15-20 stacks/shot location – Source is a 200 lb weight drop Resistivity – 64 Nodes – 5 m node interval – 315 m profile length – Wenner-Schlumberger configuration
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Data Acquisition Fault rupture due to 1995 earthquake. Photo taken on Nov. 2013 Another location of the fault rapture due to 1995 earthquake. Photo taken on Nov. 2013
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Data Acquisition A photo shows the seismic and resistivity acquisition Seismic profile Resistivity profile Source: 200 lb weight drop
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Seismic Data Common Shot Gather # 1 0.0 0.3 Time (s) 0.0297 Offset (m) First arrival traveltimes
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Traveltime Picks 1 120 Source No. 1 120 Receiver No. Raw Picking 1 120 Source No. 1 120 Receiver No. After Reciprocity Time (ms) 0 210
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RMS Error 0.04 0.0 RMS error (ms) 0.0 40 Itr. No.
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Seismic Tomogram First arrival traveltime picks are inverted to get the traveltime tomogram The 1995 fault Colluvial Wedge Unidentified Anomaly A possible fault A possible Colluvial Wedge
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Resistivity The Res2DInv software is used to invert the resistivity data 0 45 Z (m) 0315 X (m) Resistivity (Ohm.m) 1 500
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Seismic - Resistivity The 1995 fault Colluvial Wedge Unidentified Anomaly A possible fault A possible Colluvial Wedge 0 45 Z (m) 0315 X (m) Resistivity (Ohm.m) 1 500
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Conclusions Seismic and resistivity methods can be used to locate hidden faults in the subsurface. One example is collected at the Gulf of Aqaba coast. Results show the location of fault due to the 1995 earthquake. Possible local anomalies are shown on the traveltime tomogram and the 2D resistivity image. Further study is required to explain the nature of these local anomalies
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Outline Motivation: Faults in alluvial sediments Study Area: Gulf of Aqaba Data Acquisition: Seismic and resistivity Seismic Result: Traveltime tomography Resistivity Result: 2D imaging Conclusions Future Work
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Seismic reflection processing to generate the zero-stacked section. Use the traveltime tomogram to migrate the data Common Shot Gather # 1 0.0 0.3 Time (s) 0.0297 Offset (m)
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Acknowledgements I would like to thank The CSIM sponsors for their support The the students of the “Geophysical Field Methods” class for their help in data collection Thank You
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