Petrogenesis of silicic magmas in iceland through space and time: The isotopic record preserved in zircon and whole rocks

Authors

Tamara L. Carley, Vanderbilt University
Calvin F. Miller, Vanderbilt University
Christopher M. Fisher, Washington State University Pullman
John M. Hanchar, Memorial University of Newfoundland
Jeffery D. Vervoort, Washington State University Pullman
Axel K. Schmitt, Universität Heidelberg
Rita C. Economos, Southern Methodist University
Brennan T. Jordan, University of South Dakota
Abraham J. Padilla, Vanderbilt University
Tenley J. Banik, Vanderbilt University

Document Type

Article

Publication Date

1-1-2020

Publication Title

Journal of Geology

Abstract

Iceland exemplifies the potential for generation of abundant silicic magma in the absence of mature island arc or preexisting continental crust. Zircon ages (U-Th and U-Pb) and isotope compositions (Hf and O), combined with whole-rock isotope data (Nd, Hf, Pb), provide insight into the petrogenesis and mantle heritage of these silicic magmas. Zircon and whole-rock samples represent the past 15 Ma of Iceland’s geologic evolution, geographic extent (marginal fjordlands to neovolcanic zones), and modern tectonic settings (on-rift, propagating-rift, off-rift). The generation of Icelandic silicic magma has been influenced by hydrothermally altered crust, via assimilation and/or anatexis, throughout Iceland’s history. This is shown by consistently depleted O isotopes in zircon (median d¹⁸ O 13.1‰; 198% below 15.3‰), and silicic rocks. Zircon d¹⁸ O values appear to have become lower and more diverse since ca. 0.7 Ma (median 11.9‰). This decrease may reflect lower d¹⁸ O of meteoric waters involved in hydrothermal alteration during the Pleistocene and/or more volumetrically significant contributions from low d¹⁸ O altered crust. Zircon O compositions from historically active volcanoes confirm that the role of altered crust is greater in on-rift than in off-rift settings; diversity in d¹⁸ O at volcanoes in propagating rift settings suggests highly variable contributions from altered crust. The silicic record (whole-rock and zircon) exhibits a correlation between geographic position and isotope composition that seems to be independent of local tectonic setting. Silicic samples of all ages collected above 657 N have more radiogenic whole-rock Hf and Nd isotopic compositions, and less radiogenic Pb, than samples collected in southern Iceland; published isotopic data for basalts suggest a similar time-independent latitudinal trend. The persistence of this trend through time suggests that northern Iceland has been underlain by a more depleted mantle source than southern Iceland throughout the island’s history.

Volume

128

Issue

1

First Page

1

Last Page

28

ISSN

00221376

E-ISSN

15375269

DOI

10.1086/706261

Recommended Citation

Carley, Tamara L.; Miller, Calvin F.; Fisher, Christopher M.; Hanchar, John M.; Vervoort, Jeffery D.; Schmitt, Axel K.; Economos, Rita C.; Jordan, Brennan T.; Padilla, Abraham J.; and Banik, Tenley J., "Petrogenesis of silicic magmas in iceland through space and time: The isotopic record preserved in zircon and whole rocks" (2020). Faculty Publications. 39.
https://red.library.usd.edu/sustainability-fp/39