首页|Disparities in oxygen isotopes of detrital and igneous zircon identify erosional bias in crustal rock record
Disparities in oxygen isotopes of detrital and igneous zircon identify erosional bias in crustal rock record
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NSTL
Elsevier
The detrital zircon oxygen isotope record has been used to describe 4.4 billion years of crustal evolution and maturation. Implicit in the application and use of large databases of oxygen isotope ratio (delta O-18) from detrital zircon is that such data are more representative of the history of the continental crust than are exposed rocks. Here we show that the delta O-18 of igneous zircon in preserved rocks varies greatly from the detrital zircon record over time, both in terms of the magnitude of delta O-18 and the secular variation. Starting from 4.0 Ga and lasting throughout the Archean, the detrital zircon record shows consistently higher delta O-18 values than the rock record. In post-Archean times, detrital zircon delta O-18 is conspicuously higher during periods associated with supercontinent amalgamation. Differences between detrital and igneous zircon delta O-18 records imply that the igneous source rocks from which high delta O-18 detrital zircon are derived have been entirely eroded and are not represented in the known geological record. We postulate that the 'missing' record of high delta O-18 magmatic rocks consists of upper crustal sedimentary-derived melts from collisional belts, such as that found in the Himalayan orogen. The observation of higher delta O-18 in Archean detrital zircon further requires a revision of the current paradigm for Archean magmatism. More broadly, recognition of a `missing' component of the upper crustal rock record calls into question the degree to which the detrital zircon record accurately reflects the composition of the bulk continental crust. (C) 2021 Elsevier B.V. All rights reserved.
NSTL
Elsevier
