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Duncan & Keller 2004
Duncan, R.A. and Keller, R.A. (2004). Radiometric ages for basement rocks from the Emperor Seamounts, ODP Leg 197. Geochemistry Geophysics Geosystems 5: doi: 10.1029/2004GC000704. issn: 1525-2027.
The Hawaiian-Emperor seamount chain is the type example of an age-progressive, hot spot-generated intraplate volcanic lineament. However, our current knowledge of the age distribution within this province is based largely on radiometric ages determined several decades ago. Improvements in instrumentation, sample preparation methods, and new material obtained by recent drilling warrant a reexamination of the age relations among the older Hawaiian volcanoes. We report new age determinations (40Ar-39Ar incremental heating method) on whole rocks and feldspar separates from Detroit (Sites 1203 and 1204), Nintoku (Site 1205), and Koko (Site 1206) Seamounts (Ocean Drilling Program (ODP) Leg 197) and Meiji Seamount (Deep Sea Drilling Project (DSDP) Leg 19, Site 192). Plateaus in incremental heating age spectra for Site 1203 lava flows give a mean age of 75.8 ¿ 0.6 (2s) Ma, which is consistent with the normal magnetic polarity directions observed and biostratigraphic age assignments. Site 1204 lavas produced discordant spectra, indicating Ar loss by reheating and K mobilization. Six plateau ages from lava flows at Site 1205 give a mean age of 55.6 ¿ 0.2 Ma, corresponding to Chron 24r. Drilling at Site 1206 intersected a N-R-N magnetic polarity sequence of lava flows, from which six plateau ages give a mean age of 49.1 ¿ 0.2 Ma, corresponding to the Chron 21n-22r-22n sequence. Plateau ages from two feldspar separates and one lava from DSDP Site 192 range from 34 to 41 Ma, significantly younger than the Cretaceous age of overlying sediments, which we relate to postcrystallization K mobilization. Combined with new dating results from Suiko Seamount (DSDP Site 433) and volcanoes near the prominent bend in the lineament , the overall trend is increasing volcano age from south to north along the Emperor Seamounts, consistent with the hot spot model. However, there appear to be important departures from the earlier modeled simple linear age progression, which we relate to changes in Pacific plate motion and the rate of southward motion of the Hawaiian hot spot. The Hawaiian-Emperor seamount chain is the type example of an age-progressive, hot spot-generated intraplate volcanic lineament. However, our current knowledge of the age distribution within this province is based largely on radiometric ages determined several decades ago. Improvements in instrumentation, sample preparation methods, and new material obtained by recent drilling warrant a reexamination of the age relations among the older Hawaiian volcanoes. We report new age determinations (40Ar-39Ar incremental heating method) on whole rocks and feldspar separates from Detroit (Sites 1203 and 1204), Nintoku (Site 1205), and Koko (Site 1206) Seamounts (Ocean Drilling Program (ODP) Leg 197) and Meiji Seamount (Deep Sea Drilling Project (DSDP) Leg 19, Site 192). Plateaus in incremental
BACKGROUND DATA FILES

Abstract
Abstract

Table 1
Table 1
Table 1B
Table 1b

Sample Selection & Coverage
Sample Selection and Coverage
Sample Preparation
Sample Preparation
Methods
Methods

Keywords
Tectonophysics, Dynamics, convection currents and mantle plumes, Tectonophysics, Plate motions—general, Information Related to Geographic Region, Pacific Ocean, Hawaiian-Emperor hot spot track, 40Ar-39Ar geochronology, hot spot motion
Project -- G-cubed.org Themes -- Movement, Dynamics and Geochemical evolution of the Hawaiian hotspot
This theme reports of the Ocean Drilling Leg 197 paleomagnetic tests of the hotspot motion and implications for plate motion reference frames, numerical models of plume advection, and volcanologic, radiometric and geochemical variations along the Hawaiian-Emperor hotspot chain
Journal
Geochemistry Geophysics Geosystems
Publisher
American Geophysical Union
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