Ishizuka, Osamu et al. (2011): Making and breaking an island arc; a new perspective from the Oligocene Kyushu-Palau Arc, Philippine Sea

Leg/Site/Hole:
ODP 126
ODP 185
ODP 195
DSDP 31
DSDP 59
DSDP 31 296
DSDP 59 448
ODP 185 1149
ODP 195 1201
ODP 126 792
ODP 126 793
ODP 129 801
ODP 185 801
Identifier:
2012-021755
georefid

10.1029/2010GC003440
doi

Creator:
Ishizuka, Osamu
Geological Survey of Japan, Tsukuba, Japan
author

Taylor, Rex N.
University of Southampton, United Kingdom
author

Yuasa, Makoto
Hydrographic and Oceanographic Department of Japan, Japan
author

Ohara, Yasuhiko
author

Identification:
Making and breaking an island arc; a new perspective from the Oligocene Kyushu-Palau Arc, Philippine Sea
2011
Geochemistry, Geophysics, Geosystems - G (super 3)
American Geophysical Union and The Geochemical Society, United States
12
5
The Kyushu-Palau Ridge (KPR) is a 2600 km long remnant island arc that is separated from the active Izu-Bonin-Mariana (IBM) arc by a series of spreading and rift basins. We present (super 40) Ar/ (super 39) Ar ages and geochemical data for the entire length of the Kyushu-Palau arc as well as for the conjugate arc which is stranded within the IBM fore arc. New (super 40) Ar/ (super 39) Ar ages indicate that the KPR was active between 25 and 48 Ma, but the majority of the exposed volcanism occurred in the final phase, between 25 and 28 Ma. Rifting of the Kyushu-Palau arc to form the Shikoku and Parece Vela basins occurred simultaneously along the length of the arc (circa 25 Ma), and at a similar distance from the trench. Unlike the IBM, the KPR has only limited systematic along-arc geochemical trends. Two geochemical components within the KPR indicate an origin in the suprasubduction mantle. First, EM-1-like lavas are identified in a restricted section of the arc, suggesting a localized heterogeneity. Second, EM-2-like arc volcanoes formed on juvenile West Philippine Basin crust, potentially reflecting ingress of mantle from the then active EM-2 province which lies in the west. Another geochemical heterogeneity is found at the KPR-Daito Ridge intersection where the arc developed on preexisting Cretaceous Daito Ridge crust. The geochemical characteristics at this intersection likely result from the involvement of sub-Daito Ridge lithospheric mantle. Subduction flux beneath the KPR generally matches post-45 Ma Eocene/Oligocene lavas in the IBM fore arc, involving fluids and melts derived from altered igneous crust.
Coverage:Geographic coordinates:
North:29.2025
West:133.3131East: 135.0600
South:16.2027

Solid-earth geophysics; Isotope geochemistry; absolute age; Ar/Ar; basalts; Cenozoic; Cretaceous; Daito Ridge; Deep Sea Drilling Project; DSDP Site 296; DSDP Site 448; Eocene; geochemistry; igneous rocks; IPOD; island arcs; isotope ratios; isotopes; Izu-Bonin Arc; Kyushu-Palau Ridge; lead; Leg 126; Leg 185; Leg 195; Leg 31; Leg 59; lithosphere; mantle; Mariana Islands; Mesozoic; metals; Micronesia; mid-ocean ridge basalts; North Pacific; Northwest Pacific; Ocean Drilling Program; ocean-island basalts; Oceania; ODP Site 1149; ODP Site 1201; ODP Site 792; ODP Site 793; ODP Site 801; Oligocene; Pacific Ocean; Paleogene; Parece Vela Basin; Pb-206/Pb-204; Pb-207/Pb-204; Philippine Sea; Pigafetta Basin; radioactive isotopes; Shikoku Basin; stable isotopes; Tertiary; volcanic rocks; West Pacific; West Philippine Basin;

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