JpGU-AGU Joint Meeting 2017

講演情報

[EE] 口頭発表

セッション記号 U (ユニオン) » ユニオン

[U-03] [EE] Discoveries from Subseafloor Sampling and Monitoring using Scientific Ocean Drilling

2017年5月22日(月) 09:00 〜 10:30 国際会議室 (国際会議場 2F)

コンビーナ:末広 潔(国立研究開発法人海洋研究開発機構)、James A Austin(University of Texas at Austin)、Keir Becker(University of Miami)、村山 雅史(高知大学農林海洋科学部海洋資源科学科)、座長:Becker Keir(University of Miami)、座長:Strasser Michael(Institute of Geology, University of Innsbruck)

10:15 〜 10:30

[U03-06] Seafloor and subseafloor experiments at the Hikurangi subduction margin to investigate the causes and consequences of slow slip events

★招待講演

*Laura M Wallace1Demian M Saffer2Philip Barnes3Yoshihiro Ito4Kimihiro Mochizuki5Charles A Williams1Spahr Webb6Ryota Hino7Evan Solomon8Patrick Fulton9 (1.GNS Science, New Zealand、2.Pennsylvania State University、3.NIWA, New Zealand、4.Kyoto University、5.ERI, University of Tokyo、6.Columbia University、7.Tohoku Univerity、8.University of Washington、9.Texas A&M University)

キーワード:subduction, scientific drilling, slow slip events

Slow slip events (SSEs) involve transient aseismic slip on a fault (lasting weeks to months) at a rate intermediate between plate boundary displacement rates and that required to generate seismic waves. Only since the advent of dense, plate boundary–scale geodetic networks in the last decade has the importance of these events as a significant mode of fault slip been recognized. The northern Hikurangi subduction margin, New Zealand is the site of the shallowest well-documented slow slip events (SSEs) on Earth. Due to the close proximity of the SSE source area to the seafloor at the offshore Hikurangi margin (<2-15 km), it has become an important international target for a variety of geophysical studies to understand the offshore physical mechanisms that lead to slow slip. A recent seafloor geodetic study using Absolute Pressure Gauges measured 1.5-5.5 cm of vertical deformation of the seafloor during large slow slip. These data demonstrate for the first time that slow slip continues to within at least 2-3 km of the seafloor, and it is possible that it occurs all the way to the trench (Wallace et al., 2016). We also show that using realistic elastic properties in the geodetic inversions greatly increases the amount of shallow slip needed to fit the data.

The centerpiece of efforts to understand slow slip at the Hikurangi margin is a series of IODP proposals (781A-Full and 781B-Full) to undertake riserless (Joides Resolution) and riser (Chikyu) drilling, and CORK observatory installation on a transect spanning the shallow Hikurangi SSEs. Joides Resolution drilling is scheduled at the Hikurangi margin for November-December 2017 and March-May 2018 on Expeditions 372 and 375. These two expeditions aim to investigate the processes and in situ conditions that underlie subduction zone SSEs at northern Hikurangi through coring and logging of the frontal thrust, upper plate, and incoming sedimentary succession, and by installation of borehole observatories in the frontal thrust and upper plate above the slow slip source area. The LWD data will be acquired on Expedition 372, while coring and installation of the CORK observatories will take place on Expedition 375. We will also discuss the plans and scientific objectives for the upcoming JOIDES Resolution drilling.