Litcius/Paper detail

Emergence of peraluminous crustal magmas and implications for the early Earth

Michael Ackerson, Dustin Trail, Jacob E. Buettner

2021Geochemical Perspectives Letters21 citationsDOIOpen Access PDF

Abstract

Detrital zircons from the Jack Hills (JH) metasedimentary belt of Western Australia are a record of the first 1.5 billion years of Earth history and can be used to help reconstruct the conditions of crust formation and secular changes therein. Beginning as early as ca. 4.3 Ga, but becoming more pronounced in the mid-Archean, a peraluminous signature begins to emerge from the JH zircon record. Combined with trace elements (P, REEs) and Ti-in-zircon thermometry, this increase in peraluminosity is likely the result of deep (>7 kbar) partial melting of hydrous mafic protoliths or partial melting of metasedimentary source material. In a geodynamic context, these results may suggest a gradual shift from a vertical tectonic regime toward a horizontal tectonic regime with potential subduction-like or collisional processes creating the necessary conditions for peraluminous melt generation beginning locally at least by 3.6 billion years ago (Ga).

Topics & Concepts

GeologyEarth (classical element)AstrobiologyEarly EarthPetrologyGeochemistryPhysicsMathematical physicsGeological and Geochemical Analysis
Emergence of peraluminous crustal magmas and implications for the early Earth | Litcius