Present‐day principal horizontal stress orientations in the Kumano forearc basin of the southwest Japan subduction zone determined from IODP NanTroSEIZE drilling Site C0009

Lin, Weiren; Doan, Mai‐Linh; Moore, J. Casey; McNeill, Lisa C.; Byrne, T. B.; Ito, Takatoshi; Saffer, D. M.; Conin, Marianne; Kinoshita, Masataka; Yukitoshi, Sanada; Moe, Kyaw Thu; Araki, Eiichiro; Tobin, H. J.; Boutt, D. F.; Kano, Yasuyuki; Hayman, Nicholas W.; Flemings, Peter B.; Huftile, Gary J.; Cukur, Deniz; Buret, Christophe; Schleicher, Anja M.; Efimenko, Natalia; Kawabata, Kuniyo; Buchs, David M.; Jiang, Shijun; Kameo, Koji; Horiguchi, Kei; Wiersberg, Thomas; Kopf, Achim J; Kitada, Kazuya; Eguchi, N.; Toczko, S.; Takahashi, Kyoma; Kido, Yukari

doi:10.1029/2010gl043158

Cited by 82 publications

(120 citation statements)

References 18 publications

(20 reference statements)

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“…Wireline log Formation MicroImager (FMI) resistivity images and caliper data were used to identify the orientation of borehole enlargement, indicating the minimum horizontal stress orientation ("borehole breakouts"). These results allowed the in situ stress orientation to be determined (Lin et al, 2010), complementing measurements of in situ stress magnitude from other tools (see below) and in situ stress measurements at other sites across the margin (McNeill et al, 2004;Ienaga et al, 2006;Byrne et al, 2009). Minimum horizontal stress consistently trends NE-SW downhole (~700-1600 mbsf); therefore, the maximum horizontal stress trends NW-SE (Fig.…”

Section: Preliminary Results Site C0009mentioning

confidence: 94%

IODP Expedition 319, NanTroSEIZE Stage 2: First IODP Riser Drilling Operations and Observatory Installation Towards Understanding Subduction Zone Seismogenesis

McNeill

Saffer

Byrne

et al. 2010

Scientific Drilling

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The Nankai Trough Seismogenic Zone Experiment (NanTroSEIZE) is a major drilling project designed to investigate fault mechanics and the seismogenic behavior of subduction zone plate boundaries. Expedition 319 is the first riser drilling operation within scientific ocean drilling. Operations included riser drilling at Site C0009 in the forearc basin above the plate boundary fault, non-riser drilling at Site C0010 across the shallow part of the megasplay fault system-which may slip during plate boundary earthquakes-and initial drilling at Site C0011 (incoming oceanic plate) for Expedition 322. At Site C0009, new methods were tested, including analysis of drill mud cuttings and gas, and in situ measurements of stress, pore pressure, and permeability. These results, in conjunction with earlier drilling, will provide a) the history of forearc basin development (including links to growth of the megasplay fault system and modern prism), b) the first in situ hydrological measurements of the plate boundary hanging wall, and c) integration of in situ stress measurements (orientation and magnitude) across the forearc and with depth. A vertical seismic profile (VSP) experiment provides improved constraints on the deeper structure of the subduction zone. At Site C0010, logging-while-drilling measurements indicate significant changes in fault zone and hanging wall properties over short (<5 km) along-strike distances, suggesting different burial and/or uplift history. The first borehole observatory instruments were installed at Site C0010 to monitor pressure and temperature within the megasplay fault zone, and methods of deployment of more complex observatory instruments were tested for future operations.

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Section: Preliminary Results Site C0009mentioning

confidence: 94%

IODP Expedition 319, NanTroSEIZE Stage 2: First IODP Riser Drilling Operations and Observatory Installation Towards Understanding Subduction Zone Seismogenesis

McNeill

Saffer

Byrne

et al. 2010

Scientific Drilling

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“…[6] Saffer et al [2010] and Lin et al [2010] reported there is no breakout identified shallower than 1285 mbsf. However, the stick and slip motion of the tool due to the rugose or sticky borehole condition distorted and blurred the initial image which recorded incorrect depth and distorting images.…”

Section: Borehole Condition and Stress Orientation At Site C0009mentioning

confidence: 99%

“…[4] Many drilling projects and expeditions such like Cajon Pass well; TCDP and NanTroSEIZE Expedition 314 have indicated that the borehole breakout and tensile fractures are formed by the acting principal stresses [Moos and Zoback, 1990;Wu et al, 2007;Lin et al, 2010]. High-resolution resistivity images measured from Formation MicroImager (FMI) are widely used for detection of such stress estimation.…”

Section: Borehole Condition and Stress Orientation At Site C0009mentioning

confidence: 99%

Stress state estimation by geophysical logs in NanTroSEIZE Expedition 319‐Site C0009, Kumano Basin, southwest Japan

Kinoshita

Yukitoshi

2012

Geophysical Research Letters

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To understand the stress regime in the shallow portion of the Nankai Trough seismogenic zone, we carefully investigated the resistivity image logs at IODP Site C0009 that penetrated to 1600 meters below the sea floor (mbsf) in the central Kumano forearc basin. During the riser drilling, several downhole measurements were run including image logs, caliper and comprehensive geophysical logs sets. Borehole resistivity images obtained by a wireline‐logging tool were reprocessed in order to eliminate image artifacts generated by sticky tool movements, etc. The constraints on the possible magnitude and orientation of horizontal principal stresses are provided from the borehole images, rock strength, and logging data. The absence of borehole breakouts above 1285 mbsf represents a small difference (<10 MPa) between horizontal principal stresses and reflects the normal faulting and strike–slip faulting stress regimes. A stable, continuous breakout was observed in the resistivity image logs suggest that the stress state is in a strike–slip faulting and tending to reverse faulting regime below 1285 mbsf. The differential horizontal stress (up to 15 MPa) is significantly larger than in the shallow portion of the borehole (SHAMX ≫ Sv > Shmin).

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“…Within Unit III, both P and S wave velocities increase with depth, except in some regions where V p drops sharply, which we interpret as a function of the presence of free gas (discussed below). Within Unit IV, the borehole experienced stability problems, with frequent occurrence of drilling-induced compressive failure (i.e., borehole breakouts [Lin et al, 2010]), resulting in noisier sonic data. However, an increase in sonic velocity with depth is still distinguishable, especially in the P wave data (Figure 2).…”

Section: Sonic Datamentioning

confidence: 99%

Quantification of free gas in the Kumano fore-arc basin detected from borehole physical properties: IODP NanTroSEIZE drilling Site C0009

Doan

Conin

Henry

et al. 2011

Geochem. Geophys. Geosyst.

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[1] The Kumano fore-arc basin overlies the Nankai accretionary prism, formed by the subduction of the Philippine Sea Plate beneath the Eurasian plate offshore the Kii Peninsula, SW Honshu, Japan. Seismic surveys and boreholes within the framework of the Nankai Trough Seismogenic Zone Experiment (NanTroSEIZE) project show evidence of gas hydrates and free gas within the basin. Here we use high-quality borehole sonic data from Integrated Oceanic Drilling Program (IODP) Site C0009 to quantify the free gas distribution in the landward part of the basin. The Brie theory is used to quantify gas content from sonic logs, which are calibrated from laboratory measurements on drill cores. First, we show that the sonic data are Copyright 2011 by the American Geophysical Union 1 of 12 mainly sensitive to the fluid phase filling the intergranular pores (effective porosity), rather than to the total porosity that includes water bound to clay minerals. We then compare the effective porosity to lithodensityderived porosity that acts as a proxy for total porosity. The combination of these two data sets also allows assessment of clay mineralogy of the sediments. Second, we compute free gas saturation and find a gasrich interval that is restricted to a lithological unit characterized by a high abundance of wood fragments and lignite. This unit, at the base of the fore-arc basin, is a hydrocarbon source that should be taken into account in models explaining gas distribution and the formation of the bottom-simulating reflector within the Kumano fore-arc basin.

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Present‐day principal horizontal stress orientations in the Kumano forearc basin of the southwest Japan subduction zone determined from IODP NanTroSEIZE drilling Site C0009

Cited by 82 publications

References 18 publications

IODP Expedition 319, NanTroSEIZE Stage 2: First IODP Riser Drilling Operations and Observatory Installation Towards Understanding Subduction Zone Seismogenesis

IODP Expedition 319, NanTroSEIZE Stage 2: First IODP Riser Drilling Operations and Observatory Installation Towards Understanding Subduction Zone Seismogenesis

Stress state estimation by geophysical logs in NanTroSEIZE Expedition 319‐Site C0009, Kumano Basin, southwest Japan

Quantification of free gas in the Kumano fore-arc basin detected from borehole physical properties: IODP NanTroSEIZE drilling Site C0009

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