Stolper, Edward and Sherman, Sarah and Garcia, Michael and Baker, Michael and Seaman, Caroline (2004) Glass in the submarine section of the HSDP2 drill core, Hilo, Hawaii. Geochemistry, Geophysics, Geosystems, 5 (7). 2003GC000553. ISSN 1525-2027. http://resolver.caltech.edu/CaltechAUTHORS:STOggg04
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The Hawaii Scientific Drilling Project recovered ~3 km of basalt by coring into the flank of Mauna Kea volcano at Hilo, Hawaii. Rocks recovered from deeper than ~1 km were deposited below sea level and contain considerable fresh glass. We report electron microprobe analyses of 531 glasses from the submarine section of the core, providing a high-resolution record of petrogenesis over ca. 200 Kyr of shield building of a Hawaiian volcano. Nearly all the submarine glasses are tholeiitic. SiO2 contents span a significant range but are bimodally distributed, leading to the identification of low-SiO2 and high-SiO2 magma series that encompass most samples. The two groups are also generally distinguishable using other major and minor elements and certain isotopic and incompatible trace element ratios. On the basis of distributions of high- and low-SiO2 glasses, the submarine section of the core is divided into four zones. In zone 1 (1079–~1950 mbsl), most samples are degassed high-SiO2 hyaloclastites and massive lavas, but there are narrow intervals of low-SiO2 hyaloclastites. Zone 2 (~1950–2233 mbsl), a zone of degassed pillows and hyaloclastites, displays a continuous decrease in silica content from bottom to top. In zone 3 (2233–2481 mbsl), nearly all samples are undegassed low-SiO2 pillows. In zone 4 (2481–3098 mbsl), samples are mostly high-SiO2 undegassed pillows and degassed hyaloclastites. This zone also contains most of the intrusive units in the core, all of which are undegassed and most of which are low-SiO2. Phase equilibrium data suggest that parental magmas of the low-SiO2 suite could be produced by partial melting of fertile peridotite at 30–40 kbar. Although the high-SiO2 parents could have equilibrated with harzburgite at 15–20 kbar, they could have been produced neither simply by higher degrees of melting of the sources of the low-SiO2 parents nor by mixing of known dacitic melts of pyroxenite/eclogite with the low-SiO2 parents. Our hypothesis for the relationship between these magma types is that as the low-SiO2 magmas ascended from their sources, they interacted chemically and thermally with overlying peridotites, resulting in dissolution of orthopyroxene and clinopyroxene and precipitation of olivine, thereby generating high-SiO2 magmas. There are glasses with CaO, Al2O3, and SiO2 contents slightly elevated relative to most low-SiO2 samples; we suggest that these differences reflect involvement of pyroxene-rich lithologies in the petrogenesis of the CaO-Al2O3-enriched glasses. There is also a small group of low-SiO2 glasses distinguished by elevated K2O and CaO contents; the sources of these samples may have been enriched in slab-derived fluid/melts. Low-SiO2 glasses from the top of zone 3 (2233–2280 mbsl) are more alkaline, more fractionated, and incompatible-element-enriched relative to other glasses from zone 3. This excursion at the top of zone 3, which is abruptly overlain by more silica-rich tholeiitic magmas, is reminiscent of the end of Mauna Kea shield building higher in the core.
|Additional Information:||Copyright 2004 by the American Geophysical Union. Received: 19 March 2003; Revised: 5 March 2004; Accepted: 22 April 2004; Published: 30 July 2004. We thank the entire Hawaii Scientific Drilling Project team for their assistance, but in particular Don DePaolo and Don Thomas for their roles in the leadership of the project. This work was supported by NSF grants EAR-9528594 (Caltech) and EAR-9528534 (University of Hawaii) and by The International Continental Scientific Drilling Program (ICDP). Caltech Division of Geological and Planetary Science contribution number 8937. University of Hawaii SOEST contribution number 6353.|
|Subject Keywords:||basaltic glass; Hawaii; HSDP; Mauna Kea; petrogenesis; 3640 Mineralogy and Petrology: Igneous petrology; 3655 Mineralogy and Petrology: Major element composition; 8439 Volcanology: Physics and chemistry of magma bodies|
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|Official Citation:||Stolper, E., S. Sherman, M. Garcia, M. Baker, and C. Seaman (2004), Glass in the submarine section of the HSDP2 drill core, Hilo, Hawaii, Geochem. Geophys. Geosyst., 5, Q07G15, doi:10.1029/2003GC000553.|
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|Deposited On:||19 Dec 2005|
|Last Modified:||09 Dec 2016 05:47|
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