Basalt Petrogenesis Beneath Slow - and Ultraslow-Spreading Arctic Mid-Ocean Ridges

To explore the ability of melting mafic lithologies to produce alkaline ocean-island basalts (OIB), a study was carried out measuring clinopyroxene (Cpx)- melt and garnet (Gt)-melt partition coefficients during silica-poor garnet pyroxenite melting for a suite of trace elements, including U and Th,...

Full description

Bibliographic Details
Main Author: Elkins, Lynne J.
Other Authors: MASSACHUSETTS INST OF TECH CAMBRIDGE CENTER FOR METEOROLOGY AND PHYSICAL OCEANOGRAPHY
Format: Text
Language:English
Published: 2009
Subjects:
Physical and Dynamic Oceanography
Geology
Geochemistry and Mineralogy
*RADIOACTIVE ISOTOPES
*GEOLOGIC AGE DETERMINATION
*OCEAN RIDGES
MELTING
NEODYMIUM
STRONTIUM
URANIUM
GARNET
TRACE ELEMENTS
LEAD(METAL)
THORIUM
ARCTIC OCEAN ISLANDS
GEOLOGIC MODELS
MARINE GEOLOGY
MAGMA
THESES
BASALT
CLINOPYROXENE
GARNET PYROXENITE
KOLBEINSEY RIDGE
MAGMA TRANSPORT PROCESSES
Arctic
Arctic Ocean
Gakkel Ridge
Kolbeinsey
Kolbeinsey Ridge
Ocean Island
Online Access:http://www.dtic.mil/docs/citations/ADA501860
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA501860
Description
Summary:To explore the ability of melting mafic lithologies to produce alkaline ocean-island basalts (OIB), a study was carried out measuring clinopyroxene (Cpx)- melt and garnet (Gt)-melt partition coefficients during silica-poor garnet pyroxenite melting for a suite of trace elements, including U and Th, at 2.5GPa and 1420-1450 degrees C. Forward-melting calculations using the results to model time-dependent uranium-series isotopes do not support presence of a fixed quantity of garnet pyroxenite in the source of OIB. To use U-series isotopes to further constrain mantle heterogeneity and the timing and nature of melting and melt transport processes, U-Th-Pa-Ra disequilibria, radiogenic isotopes, and trace-element compositions were measured for the slow-spreading Arctic mid-ocean ridges (MOR). A case study of 33 young MOR basalts (MORB) from the shallow endmember of the global ridge system, the Kolbeinsey Ridge found that unaltered Kolbeinsey MORB have universally high (230Th/238U) (1.165-1.296) and relatively uniform (230Th/232Th) (1.196-1.324), SigmaNd, 87Sr/86Sr SigmaHf, and Pb isotopes. This suggests a homogeneous mantle source and a long peridotite melting column produces the thick Kolbeinsey crust. Trace element ratios suggest a young, depleted mantle source. Data from the slow- to ultraslow Mohns and Knipovich Ridges north of Kolbeinsey form a sloped array, and (230Th/232Th) correlates systematically with radiogenic isotopic variations. These data are readily reproduced by models for heterogeneous mantle melting. MORB from 85 degrees E on the global ultraslow-spreading endmember Gakkel Ridge are homogeneously depleted with low (230Th/238U) and high (226Ra/230Th) that lie along a global negative correlation. Arctic data support a global mantle temperature control on mean (230Th/238U). Sponsored in part by the the National Defense Science and Engineering Graduate Fellowship Program. The original document contains color images.

Similar Items