Abstract
This study focuses on determining the orientation and constraining the magnitude of present-day stresses in the Dezful Embayment in Iran’s Zagros Fold and Thrust Belt. Two datasets are used: the first includes petrophysical data from 25 wells (3 to 4 km deep), and the second contains 108 earthquake focal mechanisms, mostly occurring in blind active basement faults (5 to 20 km deep). Formal stress inversion analysis of the focal mechanisms demonstrates that there is currently a compressional stress state (Aφ=2.0–2.2) in the basement. The seismologically determined SHmax direction is 37° ± 10°, nearly perpendicular to the strike of most faults in the region. However, borehole geomechanics analysis using rock strength and drilling evidence leads to the counterintuitive result that the shallow state of stress is a normal/strike-slip regime. These results are consistent with the low seismicity level in the sedimentary cover in the Dezful Embayment, and may be evidence of stress decoupling due to the existence of salt layers. The stress state situation in the field was used to identify the optimally oriented fault planes and the fault friction coefficient. This finding also aligns with the prediction Coulomb faulting theory in that the N-S strike-slip basement Kazerun Fault System has an unfavorable orientation for slip in a reverse fault regime with an average SW-NE SHmax orientation. These results are useful for determining the origin of seismic activity in the basin and better assessing fault-associated seismic hazards in the area.
Highlights
The Zagros fold-and-thrust belt (ZFTB), southwest Iran, is one of the most seismically active areas in the world [1,2], with more than 5000 earthquakes of Mw ≥ 3 recorded between 1 January 2010 and 1 January 2020 (Iranian Seismological Centre catalog)
In the Dezful Embayment area, most seismicity occurs around the Balarud Fault (BL), Kazerun Fault (KZ) System, and the Mountain Front Fault (MFF), and is restricted to depths below 5 km and to the area with a surface elevation of fewer than 1500 m above sea level (Figure 1)
The state of stress and the style of faulting for the Dezful Embayment in the ZFTB was investigated using data from boreholes drilled for hydrocarbon resources development and from earthquake focal mechanism records
Summary
The Zagros fold-and-thrust belt (ZFTB), southwest Iran, is one of the most seismically active areas in the world [1,2], with more than 5000 earthquakes of Mw ≥ 3 recorded between 1 January 2010 and 1 January 2020 (Iranian Seismological Centre catalog). Understanding the state of stress in the area is important to seismology research [4,5] and to reservoir geomechanics studies at various scales [6]. Knowing the state of stress in the Dezful Embayment helps us understand crustal-scale seismicity pattern issues (10 km) arising from oil and gas extraction [7], the reservoir scale issues (1 km) of induced seismicity [8], and borehole scale engineering issues (10 m) related to casing shear and borehole stability [9]. The major oil and gas fields of the Dezful Embayment region are located at low elevation; combining both earthquake datasets and borehole well logs leads to better coverage of the various scales
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