Analysis of normal fault populations in the Kumano forearc basin, Nankai Trough, Japan: 2. Principal axes of stress and strain from inversion of fault orientations

Sacks, A.; Saffer, D. M.; Fisher, Donald M.

doi:10.1002/ggge.20118

Cited by 28 publications

(62 citation statements)

References 41 publications

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“…These previous analyses suggested a stress state that lies in the normal faulting regime within the Kumano basin and transitions to a strike-slip or reverse faulting regime in the accretionary prism. This interpretation is broadly consistent with observations of normal faults in the Kumano basin (Sacks et al 2013) and with major thrust splay faults within the prism (Moore et al 2009). However, the LOTs show that at least to ~2000 mbsf, S hmin is the least principal stress (i.e., S hmin is less than S v ), limiting stresses to a normal or strike-slip regime in this depth range both at Site C0002 (Strasser et al 2014;Tobin et al 2015) and at Site C0009 located ~20-km landward (Ito et al 2013;Saffer et al 2013).…”

Section: Resultssupporting

confidence: 89%

“…We find that S Hmax ranges from 11.9 to 22.2 MPa at 900 mbsf to Our results suggest that the in situ stress state lies in a normal to strike-slip faulting regime. This is consistent with a range of independent observations, including widespread recent normal faulting in Kumano basin (e.g., Sacks et al 2013), and in situ wireline hydraulic fracturing measurements conducted while drilling ~20-km landward . Our results also indicate that empirically derived relations commonly used to estimate rock strength from P-wave velocity for shale may slightly overestimate UCS in mudstone and could lead to overestimates of far-field stresses determined from breakout widths.…”

Section: Discussionsupporting

confidence: 90%

“…In both cases, the leak-off pressures are less than the total vertical stress (S v ), indicating that S hmin is the minimum principal stress. This indicates that the stress state lies in either a normal or strike-slip faulting regime throughout the section, which is broadly consistent with observations of abundant normal faults in the Kumano basin in seismic reflection data (e.g., Sacks et al 2013) and with previous estimates of stress magnitudes from wellbore breakouts (Chang et al 2010). In the underlying accretionary prism, seismic data document thrust splay faults that were active until ~0.4 Ma, but these thrust faults do not disrupt younger sediments (Boston et al 2016).…”

Section: Geologic Setting and Backgroundsupporting

confidence: 88%

“…4a) and the range of S hmin we consider (±2 MPa from LOT gradients). In total, the available observations suggest that if thrust faults in the wedge are active, then the stress regime must transition to one of thrusting (S hmin > S v ) at depths >2000 mbsf or must evolve in time to drive thrust faulting later in the seismic cycle (e.g., Wang and Hu 2006;Sacks et al 2013;Hardebeck 2012;Lin et al 2013;Huffman and Saffer 2016).…”

Section: Resultsmentioning

confidence: 99%

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In situ stress magnitude and rock strength in the Nankai accretionary complex: a novel approach using paired constraints from downhole data in two wells

2016

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We present a method to simultaneously constrain both far-field horizontal stress magnitudes (S hmin and S Hmax ) and in situ rock unconfined compressive strength (UCS), using geophysical logging data from two boreholes located 70 m apart that access the uppermost accretionary prism of the Nankai subduction zone . The boreholes sample the same sediments and are affected by the same tectonic stress field, but were drilled with different annular pressures, thus providing a unique opportunity to refine estimates of both in situ stress magnitudes and rock strength. We develop a forward model to predict the angular width of compressional wellbore failures (borehole breakouts), and identify combinations of S Hmax and UCS that best match breakout widths observed in resistivity images from the two boreholes. The method requires knowledge of S hmin , which is defined by leak-off tests conducted during drilling. Our results define a normal to strike-slip stress regime from 900 to 1386 m below seafloor, consistent with observations from seismic and core data. Our analysis also suggests that in situ values of UCS are generally slightly lower that commonly assumed on the basis of published empirical relations between UCS and P-wave velocity.

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Section: Resultssupporting

confidence: 89%

Section: Discussionsupporting

confidence: 90%

Section: Geologic Setting and Backgroundsupporting

confidence: 88%

Section: Resultsmentioning

confidence: 99%

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In situ stress magnitude and rock strength in the Nankai accretionary complex: a novel approach using paired constraints from downhole data in two wells

2016

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“…2,3 and 4a). These regional studies were followed by more detailed core-based analyses and geophysical studies, including interpretation of high-resolution seismic reflection data and S-wave splitting that provided a three-dimensional understanding of the stress field and the evolution of stresses through time Tsuji et al, 2011a;Lewis et al, 2013;Moore et al, 2013;Sacks et al, 2013;Conin et al, 2014). Taken together, these results show that at all sites except C0004 and C0010, the maximum principal stress  is vertical at shallow levels and that the orientation of the intermediate principal stress  changes from trench perpendicular at C0006 and C0001 to trench parallel at C0002.…”

Section: Accepted M Manuscriptmentioning

confidence: 99%

Distribution of stress state in the Nankai subduction zone, southwest Japan and a comparison with Japan Trench

et al. 2016

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Abstract:To better understand the distribution of three dimensional stress states in the Nankai subduction zone, southwest Japan, we review various stress-related investigations carried out in the first and second stage expeditions of the Nankai Trough Seismogenic Zone Experiment (NanTroSEIZE) by the Integrated Ocean Drilling Program (IODP) and compile the stress data. Overall, the maximum principal stress 1 in the shallower levels (<~1km) is vertical from near the center of forearc basin to near the trench and; the maximum horizontal stress SHmax (interpreted to be the intermediate principal stress 2) is generally parallel to the plate convergence vector. The exception to this generalization occurs along the shelf edge of the Nankai margin where SHmax is along strike rather than parallel to the plate convergence vector. Reorientation of the principal stresses at deeper levels (e.g., >~1km below seafloor or in underlying accretionary prism) with 1 becoming horizontal is also suggested at all deeper drilling sites. We also make a comparison of the stress state in the hanging wall of the frontal plate-interface between Site C0006 in the Nankai and Site C0019 in the Japan Trench subduction zone drilled after the 2011 Mw9.0 Tohoku-Oki earthquake. In the Japan Trench, the A C C E P T E D M A N U S C R I P T ACCEPTED MANUSCRIPT3 comparison between stress state before and after the 2011 mega-earthquake shows that the stress changed from compression before the earthquake to extension after the earthquake. As a result of the comparison between the Nankai Trough and Japan Trench, a similar current stress state with trench parallel extension was recognized at both C0006 and C0019 sites. Hypothetically, this may indicate that in Nankai Trough it is still in an early stage of the interseismic cycle of a great earthquake which occurs on the décollement and propagates to the toe (around site C0006).

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Early sedimentation and deformation in the Kumano forearc basin linked with Nankai accretionary prism evolution, southwest Japan

Ramirez

Gulick

Hayman

2015

Geochem Geophys Geosyst

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Early forearc basin sedimentation and subsidence appear to be linked with convergent margin evolution, yet they do not follow predictable spatiotemporal patterns. In the Kumano basin of southwest Japan, 3-D seismic mapping of major unconformities, combined with biostratigraphic age constraints from two Integrated Ocean Drilling Program (IODP) drill sites illustrates the development of several tectonostratigraphic packages during early evolution and initial creation of accommodation space in the forearc basin. Between 3.8 Ma and 2.06 Ma, a series of slope basins developed between thrust-anticlines oriented along a plate convergence-perpendicular axis. A thin and sheet-like interval, likely slope-cover, unconformably overlies the slope basin sediments. Deposition of this interval at IODP Site C0009 lasted from 2.06 Ma until between 1.24 Ma and 1.34 Ma and was partly coeval with the early upper Kumano basin sedimentary packages. Landward, postdating the slope-cover sediments, a third sedimentary package was deposited before 0.9 Ma. This section correlates with an interval rich in terrigenous material (e.g., woody debris), indicating a possible distinct source or sediment routing system. Our work supports the idea that early forearc basin sediments may be deposited in an actively deforming outer wedge environment and that the outer-to-inner wedge transition of the lower forearc basin is likely a multistage process. The unsteady spatiotemporal nature of inner-outer wedge coupling may lead to erratic stratigraphic patterns, such as have been observed in forearc basins worldwide.

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Analysis of normal fault populations in the Kumano forearc basin, Nankai Trough, Japan: 2. Principal axes of stress and strain from inversion of fault orientations

Cited by 28 publications

References 41 publications

In situ stress magnitude and rock strength in the Nankai accretionary complex: a novel approach using paired constraints from downhole data in two wells

In situ stress magnitude and rock strength in the Nankai accretionary complex: a novel approach using paired constraints from downhole data in two wells

Distribution of stress state in the Nankai subduction zone, southwest Japan and a comparison with Japan Trench

Early sedimentation and deformation in the Kumano forearc basin linked with Nankai accretionary prism evolution, southwest Japan

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