Dreyer, Brian et al. (2006): Source and petrogenesis of the igneous complex cored during ODP Leg 205; implications for off-axis plume-ridge interaction on the Cocos Plate
Leg/Site/Hole:
Related Expeditions:
ODP 205
Identifier:
ID:
2007-025138
Type:
georefid
ID:
10.2973/odp.proc.sr.205.212.2006
Type:
doi
Creator:
Name:
Dreyer, Brian
Affiliation:
Washington University, Department of Earth and Plantary Sciences, Saint Louis, MO, United States
Role:
author
Name:
Chavagnac, Valerie M. C.
Affiliation:
Universitaet Bremen, Federal Republic of Germany
Role:
author
Name:
Morris, Julie D.
Affiliation:
Texas A&M University, United States
Role:
author
Name:
Font, Laura
Affiliation:
Southampton Oceanography Centre, United Kingdom
Role:
author
Identification:
Title:
Source and petrogenesis of the igneous complex cored during ODP Leg 205; implications for off-axis plume-ridge interaction on the Cocos Plate
Year:
2006
Source:
In: Morris, Julie D., Villinger, Heinrich W., Klaus, Adam, Cardace, Dawn M., Chavagnac, Valerie M. C., Clift, Peter D., Haeckel, Matthias, Hisamitsu, Toshio, Kastner, Miriam, Pfender, Marion, Saffer, Demian M., Santelli, Cara, Schramm, Burkhard, Screaton, Elizabeth J., Solomon, Evan A., Strasser, Michael, Moe, Kyaw Thu, Vannucchi, Paola, Proceedings of the Ocean Drilling Program; scientific results; fluid flow and subduction fluxes across the Costa Rica convergent margin; implications for the seismogenic zone and subduction factory; covering Leg 205 of the cruises of the Drilling Vessel JOIDES Resolution; Victoria, Canada, to Balboa, Panama; Sites 1253-1255; 2 September-6 November 2002
Publisher:
Texas A&M University, Ocean Drilling Program, College Station, TX, United States
Volume:
205
Issue:
Pages:
Abstract:
New major and trace element analyses of Ocean Drilling Program Leg 170 and 205 mafic igneous samples are presented along with Sr and Nd isotopic results. Samples were cored from a sill unit (Subunit 4A) and a lower igneous unit (Subunit 4B) whose lower boundary was not drilled. The samples are dominantly microcrystalline to medium-grained glomerocrystic plagioclase-clinopyroxene gabbro in a nearly holocrystalline groundmass. Samples are dominantly low-K subalkaline tholeiites with trace element systematics that correlate with unit stratigraphy. Using isotopic data, trace element ratios little affected by fractionation, and abundance data from the least fractionated samples, it is possible to model their mantle sources and subsequent igneous processing. Melting models suggest that small differences in degrees of partial melting can generate the two geochemical groups identified within the igneous complex. Crystal fractionation and accumulation have further modified the melt compositions, particularly within the lower stratigraphic unit. Mixing models indicate that these units are derived from a mantle source that is 50%-70% enriched compared to depleted mid-ocean ridge source mantle. In the context of the complex regional tectonic and volcanic history of the Cocos plate, this igneous complex likely represents melts of depleted upper mantle that were previously enriched during transit near the Galapagos hotspot. A postenrichment change in the local-regional tectonic stress regime may have triggered decompression melting and emplacement of the igneous complex far from any active spreading center or plume. Preexisting plate fractures, ridge jumps, and abandoned spreading centers may have facilitated distal reach of plume-overprinted material.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage: Geographic coordinates: North:9.4000 West:-86.1200 East:
-86.1000 South:9.3800
Keywords: Isotope geochemistry; Solid-earth geophysics; basalts; Central America; Cocos Plate; cores; Costa Rica; crystal fractionation; East Pacific; genesis; geochemistry; hot spots; igneous rocks; Leg 205; major elements; mantle; mantle plumes; Middle America Trench; North Pacific; Northeast Pacific; Ocean Drilling Program; Pacific Ocean; partial melting; plate tectonics; plumes; sea-floor spreading; spreading centers; tholeiite; trace elements; upper mantle; volcanic rocks;
.