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Information Journal Paper

Title

Evaluation of Geophysical methods for identifying hidden Quaternary faults in alluvial sediments (case study: Chitgar Park)

Pages

  163-183

Abstract

 In this research, Geophysical methods Ground Penetration Radar (GPR) and Geoelectric have been used to detect hidden Quaternary faults in alluvial sediments located southwest of Chitgar Forest Park (District 22 of Tehran). The study of profiles (GPR) identified areas such as fault. The results obtained from two Geoelectric profiles indicate that there are two zones with low electrical resistance and high electrical resistance. Reduce the electrical resistance in the sediments of the area can be related to factors such as the existence of non-weathered rocks, the air inside the sediments, fine-grained sediments and being a forest of the study area, due to irrigation of trees and rainwater penetration underground. High Electrical resistivity indicates crushing of rocks by fault activity, coarse-grained and dry sediment. The results of the methods used in this research indicates that there is a Fault zone with an approximate length of 140 m. Considering the structural trends of most of the faults identified, it is very likely that the faults will continue along the upper part of the Chitgar Park. Due to the seismic potential and vulnerability of residential structures, especially in the north and northwest of the study area, the results of this research are important. Its use is recommended for analyzing tectonic hazards and improving the quality of thematic maps. Introduction: In spite of intense erosion, extensive vegetation, human activities and presence of higher thickness of sediments which make it difficult to access Quaternary earthquakes documentation, over the past two million years, we have been witnessed tectonic movements and the vast majority of changes in Landforms which most of them are important in Seismological engineering. There are large and small faults in the mega-city of Tehran, which mainly have sheared off and moved the Tertiary-Quaternary sedimentary sequences. One of the main faults in Tehran is "North Tehran fault", which is the most dangerous and most controversial seismic fault with East to West direction. This fault located in the north of Tehran between the mountains and the piedmont of Central Alborz. The study area is located in 22nd District of Tehran Municipality (in the southwestern of Chitgar Forest Park) with UTM coordinate (Easting: 517658. 75/ Northing: 3955301. 99). This area is located in the B-series alluvial sediments of Tehran plain. Geologically, it includes unconsolidated sediments such as boulder, cobble, gravel and sand which were deposited and transported from the southern slopes of the Alborz Mountains. Based on of Tehran geological map (1. 100. 000), the geologic units Qt2 (Low level piedment fan and valley terrace deposits) and Qplc (Fluvial conglomerate, Piedmont conglomerate and sandstone) are recognized. In addition, part of the sediments recognized, layers of old soil and pseudo-Laterite are seen. These layers indicate climate changes and the effect of warmer weather. Due to the factors such as being covered some of the faults with Quaternary alluvial Sediments, Extensive urban development of the city of Tehran (especially 22nd district) and outcrop of subsidiary faults in alluvial Sediments of Azadshahr fault (most important factor), Geophysical methods usage such as GPR (Ground Penetrating Radar) and Electrical resistivity are considered. Method and Material: In this research, the GPR data was acquired by the MALA RTA-50 (Rough Terrain Antenna) System with an antenna of 50 MHz. The maximum penetration of RTA-50 is about 30 meters. The profile is adjusted with the time record system. Two geoelectric profiles were taken along the trench. For processing GPR data and geoelectric profiles from Reflex W and RES2DINV software were used. Discussion: According to the GPR profile, faults, fractures and displacement of the layers were identified. Generally, a Fault zone is observed a distance of 110 to 380 meters. Pole-Dipole array method was used to investigate the geoElectrical resistivity of the studied area. The Data acquisition includes two 160 meters profiles with a distance of 60 meters from each other. The results obtained from two Geoelectric profiles indicate that there are two zones with low electrical resistance (28-38 ohms) and high electrical resistance (137-233 ohms) in the first profile (At a distance of 75-85 meters) and low resistance (15. 2-23. 6 ohms) and high resistance (208-328 ohms) in the second profile (At a distance of 80-90 meters) they exist. Reduce the electrical resistance in the sediments of the area can be related to factors such as the existence of non-weathered rocks, the air inside the sediments, fine-grained sediments and being a forest of the study area, due to irrigation of trees and rainwater penetration underground. High Electrical resistivity indicates crushing of rocks by fault activity, coarse-grained and dry sediment. Conclusion: The results of the methods used in this research indicates that there is a Fault zone with an approximate length of 140 m. Also, the data processed for GPR profile indicative the effects of the faults and changes in the stratification of layers at distance mentioned and proves the results of the Electrical resistivity method. Changes and function of active faults but hidden in the study area can be closely related to the location of this area adjacent to the main North Tehran fault and the effects of this great fault. Considering the structural trends of most of the faults identified, it is very likely that the faults will continue along the upper part of the Chitgar Park. Due to the seismic potential and vulnerability of residential structures, especially in the north and northwest of the study area, the results of this research are important. Its use is recommended for analyzing tectonic hazards and improving the quality of thematic maps.

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    APA: Copy

    Aliyannezhadi, Abbas, MEHRNIA, SEYED REZA, KIMIAGAR, SALIMEH, RAHIMI, HABIB, & Sadr Mohammadi, Nasrin. (2019). Evaluation of Geophysical methods for identifying hidden Quaternary faults in alluvial sediments (case study: Chitgar Park). QUATERNARY JOURNAL OF IRAN, 5(2 ), 163-183. SID. https://sid.ir/paper/378630/en

    Vancouver: Copy

    Aliyannezhadi Abbas, MEHRNIA SEYED REZA, KIMIAGAR SALIMEH, RAHIMI HABIB, Sadr Mohammadi Nasrin. Evaluation of Geophysical methods for identifying hidden Quaternary faults in alluvial sediments (case study: Chitgar Park). QUATERNARY JOURNAL OF IRAN[Internet]. 2019;5(2 ):163-183. Available from: https://sid.ir/paper/378630/en

    IEEE: Copy

    Abbas Aliyannezhadi, SEYED REZA MEHRNIA, SALIMEH KIMIAGAR, HABIB RAHIMI, and Nasrin Sadr Mohammadi, “Evaluation of Geophysical methods for identifying hidden Quaternary faults in alluvial sediments (case study: Chitgar Park),” QUATERNARY JOURNAL OF IRAN, vol. 5, no. 2 , pp. 163–183, 2019, [Online]. Available: https://sid.ir/paper/378630/en

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