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Evidence for crustal brines and deep fluid infiltration in an oceanic transform fault

Christine Chesley, R. L. Evans, J. M. Warren, Andrew Gase, Jacob Perez, Christopher Armerding, Hannah Brewer, Paige Koenig, Eric Attias, Bailey Fluegel, Jae Deok Kim, Natalie A. Hummel, K. P. Enright, Emilia Topp-Johnson, M. S. Boettcher

2025Science Advances8 citationsDOIOpen Access PDF

Abstract

Although oceanic transform faults (OTFs) are ubiquitous plate boundaries, the geological processes occurring along these systems remain underexplored. The Gofar OTF of the East Pacific Rise has gained attention due to its predictable, yet enigmatic, earthquake cycle. Here, we present results from the first ever controlled-source electromagnetic survey of an OTF, which sampled Gofar. We find that the fault is characterized by a subvertical conductor, which extends into the lower crust and thus implies deep fluid penetration. We also image subhorizontal crustal conductors distributed asymmetrically about the fault. We interpret these subhorizontal anomalies as crustal brines, and we suggest that the high permeability of the fault combined with the influence of melt in the transform domain can promote hydrothermal circulation and brine condensation at OTFs.

Topics & Concepts

GeologyTransform faultCrustHydrothermal circulationSeismologyFault (geology)PetrologyGeochemistryEarth scienceGeophysicsearthquake and tectonic studiesEarthquake Detection and AnalysisGeological and Geochemical Analysis