Stable oxygen isotope ratios in zircons from oceanic crust

Lower ocean crust is primarily gabbroic, although 1-2% felsic igneous rocks that are referred to collectively as plagiogranites occur locally. Recent experimental evidence suggests that plagiogranite magmas can form by hydrous partial melting of gabbro triggered by seawater-derived fluids, and thus...

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Bibliographic Details
Main Authors: Grimes, Craig B, Ushikubo, Takayuki, John, Barbara E, Valley, John W
Format: Dataset
Language:English
Published: PANGAEA 2011
Subjects:
118-735B
179-1105A
209-1270D
209-1275D
304-U1309B
304-U1309D
305-U1309D
Atlantic
DRILL
Drilling/drill rig
Exp304
Exp305
Indian Ocean
Integrated Ocean Drilling Program / International Ocean Discovery Program
IODP
Joides Resolution
Leg118
Leg179
Leg209
Marvel2000
MULT
Multiple investigations
North Atlantic Ocean
Ocean Drilling Program
Oceanic Core Complex Formation
Atlantis Massive 1
Atlantis Massive 2
ODP
South Indian Ridge
South Indian Ocean
Indian
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.772319
https://doi.org/10.1594/PANGAEA.772319
Description
Summary:Lower ocean crust is primarily gabbroic, although 1-2% felsic igneous rocks that are referred to collectively as plagiogranites occur locally. Recent experimental evidence suggests that plagiogranite magmas can form by hydrous partial melting of gabbro triggered by seawater-derived fluids, and thus they may indicate early, high-temperature hydrothermal fluid circulation. To explore seawater-rock interaction prior to and during the genesis of plagiogranite and other late-stage magmas, oxygen-isotope ratios preserved in igneous zircon have been measured by ion microprobe. A total of 197 zircons from 43 plagiogranite, evolved gabbro, and hydrothermally altered fault rock samples have been analyzed. Samples originate primarily from drill core acquired during Ocean Drilling Program and Integrated Ocean Drilling Program operations near the Mid-Atlantic and Southwest Indian Ridges. With the exception of rare, distinctively luminescent rims, all zircons from ocean crust record remarkably uniform d18O with an average value of 5.2 ± 0.5 per mil (2SD). The average d18O(Zrc) would be in magmatic equilibrium with unaltered MORB [d18O(WR) ~5.6-5.7 per mil], and is consistent with the previously determined value for equilibrium with the mantle. The narrow range of measured d18O values is predicted for zircon crystallization from variable parent melt compositions and temperatures in a closed system, and provides no indication of any interactions between altered rocks or seawater and the evolved parent melts. If plagiogranite forms by hydrous partial melting, the uniform mantle-like d18O(Zrc) requires melting and zircon crystallization prior to significant amounts of water-rock interactions that alter the protolith d18O. Zircons from ocean crust have been proposed as a tectonic analog for >3.9 Ga detrital zircons from the earliest (Hadean) Earth by multiple workers. However, zircons from ocean crust are readily distinguished geochemically from zircons formed in continental crustal environments. Many of the >3.9 Ga zircons ...

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