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CHIKYU MAIL NEWS Vol. 82, December 20th 2007

This mail news service provides you with information
about the Deep Sea Drilling Vessel "Chikyu" and
science and technology for the IODP Earth exploration.

CHIKYU HAKKEN WEB SITE
http://www.jamstec.go.jp/chikyu/
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[JAMSTEC Press Release]
December 19, 2007
Integrated Ocean Drilling Program (IODP) 
Nankai Trough Seismogenic Zone Experiment (NanTroSEIZE)
Expedition 315 Successfully Completes the Coring Operation
http://www.jamstec.go.jp/e/about/press_release/20071219/index.html
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1. Outline
The Japan Agency for Marine-Earth Science and Technology
(JAMSTEC; Mr. Yasuhiro Kato, President) is pleased to announce
that the Deep-sea Drilling Vessel Chikyu has just completed IODP (*1)
expedition, "Expedition 315" of the "Nankai Trough Seismogenic Zone
Experiment (NanTroSEIZE)" as of December 18th.

2. Expedition 315 overview
The Expedition 315 has completed 33 days mission carrying out
scientific drilling in the Kumano basin off the Kii Peninsula from
November 16th to December 18th. The main scientific objective
of this expedition was to obtain detail profile of upper limit of plate
boundary at shallow part of the Nankai Trough Seismogenic Zone
by the means of drilling and collecting core samples.
Due to difficult operational conditions mainly related to strong
Kuroshio current, the well head installation for the future riser
drilling has been postponed.

Dr. Juichiro Ashi (Associate Professor, Graduate School of Frontier
Sciences, the University of Tokyo, Japan) and Dr. Siegfried Lallemant
(Professor, Earth Sciences Department, Cergy-Pontoise University,
France) are the Co-Chief Scientists, while the science party
comprises 25 onboard scientists from 6 countries.

3. Primary operational results
At the 2 sites which are accretionary prism (*2) of Nankai Trough
(Site C0001) and landward side of Kumano forearc basin (*3)
(Site C0002), drilling operations were conducted at 8 holes and
core samples were successfully collected down to 458 meters and
1,057 meters below seafloor (mbsf), respectively.

Site C0001 targeted a small slope basin (*4) overlying the
accretionary prism, previously identified on 3D seismic reflection
profiles obtained during a preliminary site survey. Samples were
collected from the 200 meter thick recent slope basin and the
underlying accretionary complex down to a final depth of 458 meters
below seafloor.

At Site C0002, the objective was to drill through the thick Kumano
forearc basin composed of alternating layers of sandstone and
mudstone, and core samples have been successfully collected down
to 1,057 meters below seafloor, reaching the main body of the
accretionary prism.

The data collected at this site will provide important new constraints
for the scientific models but also critical information for the engineers
who are preparing the future deep riser drilling at this site.

Many small faults were described and measured in the samples
obtained during this expedition both by visual observation and by
nondestructive 3 D structural analyses with a CT scan.
The results confirm the present stress condition revealed by Logging
While Drilling (LWD) during the previous Expedition 314 and provide
new insights in the temporal changes of the stress field.

In addition, new age determinations obtained by combining
micropaleontology and paleomagnetic studies were critical to
understand the evolution of this part of the Nankai subduction
complex though time and geological history of the seismogenic zone.

During the coring operation, good quality data of borehole
temperature were obtained by a sensor embedded to core sampling
system. Those allowed us to evaluate the thermal gradient in the
upper layers. These new data used with thermal conductivities
measured on the cores will result in more accurate estimates of
the heat flow and thus in a better knowledge of the temperatures
at greater depths near the seismogenic zone.

Core samples and data collected and analyzed during this expedition
were highly valuable for a better understanding of the seismic
processes in the accretionary prism off Kumano basin. In order to
achieve this goal, a large number of samples will be dedicated to
intensive mechanical studies conducted by both onboard and shore
based scientists in their institutes after the cruise.

3. Following expeditions
The next NanTroSEIZE Expedition 316 which immediately began
since December 19th. Science party, comprises 26 scientists from
10 countries, with Co-Chief Scientists Dr. Gaku Kimura (University
of Tokyo) and Dr. Elizabeth Screaton (University of Florida).
This expedition will obtain samples down to 1,000 meters below
seafloor during a survey focusing on mechanical and hydrogeological
conditions of the two most prominent faults of the accretionary
complex: the frontal thrust and the main splay fault. The Chikyu will
return to the Port of Shingu on February 5th, 2008.

(*1): Integrated Ocean Drilling Program (IODP)
The Integrated Ocean Drilling Program (IODP) is an international
marine research drilling program dedicated to advancing scientific
understanding of Earth by monitoring and sampling subseafloor
environments. Through multiple platforms, preeminent scientists
explore IODP principal themes: the deep biosphere, environmental
change, and solid earth cycles. IODP has been operating since
October 2003, led by Japan and the USA. IODP now has 21 member
countries. 

(*2): Accretionary Prism
The Nankai Trough runs from the Suruga Bay, through off Tokai,
Kii and Shikoku, and to off Kyushu, where the Philippine Sea Plate
is subducting under the southwest Japan (Usually, 'trough' indicates
a topographic feature having an elongated depression, but here
means 'trench', one is approximately 770 km long). Along this
subduction zone, sediment on the plate is being scraped off and
added to the continental plate, with such newly-formed geological
sediments called "Accretionary prism". Its development and history
are very important in understanding the basic process of orogenesis,
and front-line research is being conducted in the seismogenic zone. 

(*3): Forearc basin
Geological formation created by sediment blocked by developed
accretionary prism. 

(*4): Slope basin
Geological formation created by sediment accumulated in the
depression in accretionary prism. 

Contacts:
(For Chikyu)
Mr. Takeo Tanaka, e-mail: cdex@jamstec.go.jp
Manager, Planning and Coordination Department
The Center for Deep Earth Exploration (CDEX)
Japan Agency for Marine-Earth Science and Technology 

(For Research)
Dr. Siegfried Lallemant
Co-Chief Scientist of Expedition 315
Professor, Earth Sciences Department
Cergy-Pontoise University, France
Tel: +33-1-34-25-63-28
Fax: +33-1-34-25-61-00 

Dr. Juichiro Ashi
Co-Chief Scientist of Expedition 315
Associate Professor, Graduate School of Frontier Sciences
University of Tokyo, Japan
Tel: +81-3-5351-6439
Fax: +81-3-5351-6438 

(For Publication)
Mr. Shinji Oshima, e-mail: press@jamstec.go.jp
Manager, Planning Department Press Office
Japan Agency for Marine-Earth Science and Technology 


----- Appendix: Summary of Coring Operation -----
Drilling site:C0001 (Proposed site: NT2-03)
North Latitude:33.14 East Longitude:136.42

Hole: E
Water depth (below seafloor): 2188.5m
Core sampling depth: 0m to 118.1m
Summary of Result: Collected samples by Hydraulic Piston
Core Sampling System (HPCS)

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Hole: F
Water depth (below seafloor) : 2187.5m
Core sampling depth: 108.0m to 229.8m (HPCS),
229.8m to 248.8m (ESCS)
Summary of Result: Collected samples by Hydraulic Piston
Core Sampling System (HPCS) and Extended Shoe Coring
System (ESCS)

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Hole: G
Water depth (below seafloor): 2187.0m
Core sampling depth: NA
Summary of Result: Abandoned drilling since ROV cable tangled
to drill pipe right after starting core sampling by Rotary Core
Barrel Sampling System (RCB).

-----
Hole: H
Water depth (below seafloor): 2197.0m
Core sampling depth: 240.0m to 458.0m
Summary of Result: Collected samples by Rotary Core Barrel
Sampling System (RCB). Skip coring the difficult portion and
tried to collect samples from 600meters below seafloor or deeper,
borehole wall was not stable. Moved to next site.

-----
Hole: I
Water depth (below seafloor): 2198.5m
Core sampling depth: NA
Summary of Result: Tried to collect samples by Rotary Core Barrel
Sampling System (RCB) from 600mbsf or deeper, but borehole wall
was not stable. Moved to next site.

--------------------
Drilling site:C0002(Proposed site:NT3-01)
North Latitude:33.18 East Longitude:136.38

-----
Hole: B
Water depth (below seafloor): 1937.5m
Core sampling depth: 475.5m to 1057.0m
Summary of Result: Collected samples by Rotary Core Barrel
Sampling System (RCB). Abandoned further coring since borehole
wall conditions never get any better despite many efforts.

-----
Hole: C
Water depth (below seafloor): 1937.1m
Core sampling depth: 0m to 13.77m
Summary of Result: Collected samples by Hydraulic Piston Core
Sampling System (HPCS).


-----
Hole: D
Water depth (below seafloor): 1937.1m
Core sampling depth: 0m to 204.0m
Summary of Result: Collected samples by Hydraulic Piston Core
Sampling System (HPCS). Evaluated geological intensity of shallow
portion for future riser drilling.

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*About core sampling system
Hydraulic Piston Core Sampling System (HPCS): Applied to very
soft formations. Stub edgy tip like knife into layers using hydraulic
pressure, and collect core without rotate drill bit.

Extended Shoe Coring System (ESCS): Applied to soft formation
that is difficult to collect. Tip of the system can adjust to layers
intensity using spring power.

Rotary Core Barrel Sampling System (RCB): Applied to layers
of middle to high intensity. Collect samples while rotating drill bit
and scraping layers. Good for consolidated layers with less ruptures.

Drilled only: Zone at where only drilling was operated (no core
sampling) in accordance with scientific objectives.

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Go to NanTroSEIZE Special Site:
http://www.jamstec.go.jp/chikyu/eng/CHIKYU/status.html

Go to Expedition 315 Photo Gallery:
http://www.jamstec.go.jp/chikyu/eng/Expedition/NantroSEIZE/exp315_pg.html

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CHIKYU HAKKEN web site introduces you to every
aspect of the Deep Sea Drilling Vessel "Chikyu" and
science and technology for the IODP Earth exploration.
http://www.jamstec.go.jp/chikyu/

The Integrated Ocean Drilling Program (IODP) is an
international marine research drilling program dedicated
to advancing scientific understanding of the Earth by
monitoring and sampling sub seafloor environments.
IODP drilling operations aboard the Chikyu are managed by
JAMSTEC through CDEX, Japan Implementing Organization.
http://www.iodp.org

"CHIKYU HAKKEN" means Discover the Earth in Japanese.
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