Title

Seismic Detection of an Active Subglacial Magmatic Complex in Marie Byrd Land, Antarctica

Authors

Amanda C. Lough, Washington University in St. Louis
Douglas A. Wiens, Washington University in St. Louis
C. Grace Barcheck, Washington University in St. Louis
Sridhar Anandakrishnan, The Pennsylvania State University
Richard C. Aster, Colorado State University - Fort Collins
Donald D. Blankenship, University of Texas at Austin
Audrey D. Huerta, Central Washington UniversityFollow
Andrew Nyblade, The Pennsylvania State University
Duncan A. Young, University of Texas at Austin
Terry J. Wilson, The Ohio State University

Document Type

Article

Department or Administrative Unit

Geological Sciences

Publication Date

11-17-2013

Abstract

Numerous volcanoes exist in Marie Byrd Land, a highland region of West Antarctica. High heat flow through the crust in this region may influence the stability of the West Antarctic Ice Sheet. Volcanic activity progressed from north to south in the Executive Committee mountain range between the Miocene and Holocene epochs, but there has been no evidence for recent magmatic activity. Here we use a recently deployed seismic network to show that in 2010 and 2011, two swarms of seismic activity occurred at 25–40 km depth beneath subglacial topographic and magnetic highs, located 55 km south of the youngest subaerial volcano in the Executive Committee Range. We interpret the swarm events as deep long-period earthquakes based on their unusual frequency content. Such earthquakes occur beneath active volcanoes, are caused by deep magmatic activity and, in some cases, precede eruptions. We also use radar profiles to identify a prominent ash layer in the ice overlying the seismic swarm. Located at 1,400 m depth, the ash layer is about 8,000 years old and was probably sourced from the nearby Mount Waesche volcano. Together, these observations provide strong evidence for ongoing magmatic activity and demonstrate that volcanism continues to migrate southwards along the Executive Committee Range. Eruptions at this site are unlikely to penetrate the 1.2 to 2-km-thick overlying ice, but would generate large volumes of melt water that could significantly affect ice stream flow.

Comments

This article was originally published in Nature Geoscience. The full-text article from the publisher can be found here.

Due to copyright restrictions, this article is not available for free download through ScholarWorks @ CWU.

Recommended Citation

Lough, A.C. et al. (2013). Seismic detection of an active subglacial magmatic complex in Marie Byrd Land, Antarctica. Nature Geoscience 6, 1031-1035. DOI: 10.1038/ngeo1992

Journal

Nature Geoscience

Rights

Copyright © 2013, Nature Publishing Group