Hafnium isotopes in zircons document the gradual onset of mobile-lid tectonics

A. M. Bauer; J. R. Reimink; T. Chacko; Bradford James Foley; S. B. Shirey; D. G. Pearson

doi:10.7185/geochemlet.2015

Hafnium isotopes in zircons document the gradual onset of mobile-lid tectonics

A. M. Bauer, J. R. Reimink, T. Chacko, Bradford James Foley, S. B. Shirey, D. G. Pearson

Research output: Contribution to journal › Article › peer-review

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Abstract

The tectonic regime of the early Earth has proven enigmatic due to a scarcity of preserved continental crust, yet how early continents were generated is key to deciphering Earth's evolution. Here we show that a compilation of data from 4.3 to 3.4 Ga igneous and detrital zircons records a secular shift to higher 176Hf/177Hf after ~3.8-3.6 Ga. This globally evident shift indicates that continental crust formation before ~3.8-3.6 Ga largely occurred by internal reworking of long-lived mafic protocrust, whereas later continental crust formation involved extensive input of relatively juvenile magmas, which were produced from rapid remelting of oceanic lithosphere. We propose that this secular shift in the global hafnium isotope record reflects a gradual yet widespread transition from stagnant-lid to mobile-lid tectonics on the early Earth.

Original language	English (US)
Pages (from-to)	1-6
Number of pages	6
Journal	Geochemical Perspectives Letters
Volume	14
DOIs	https://doi.org/10.7185/geochemlet.2015
State	Published - 2020

All Science Journal Classification (ASJC) codes

Environmental Chemistry
Geology
Geochemistry and Petrology

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10.7185/geochemlet.2015

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title = "Hafnium isotopes in zircons document the gradual onset of mobile-lid tectonics",

abstract = "The tectonic regime of the early Earth has proven enigmatic due to a scarcity of preserved continental crust, yet how early continents were generated is key to deciphering Earth's evolution. Here we show that a compilation of data from 4.3 to 3.4 Ga igneous and detrital zircons records a secular shift to higher 176Hf/177Hf after ~3.8-3.6 Ga. This globally evident shift indicates that continental crust formation before ~3.8-3.6 Ga largely occurred by internal reworking of long-lived mafic protocrust, whereas later continental crust formation involved extensive input of relatively juvenile magmas, which were produced from rapid remelting of oceanic lithosphere. We propose that this secular shift in the global hafnium isotope record reflects a gradual yet widespread transition from stagnant-lid to mobile-lid tectonics on the early Earth. ",

author = "Bauer, {A. M.} and Reimink, {J. R.} and T. Chacko and Foley, {Bradford James} and Shirey, {S. B.} and Pearson, {D. G.}",

note = "Funding Information: We thank Richard Carlson, Joshua Davies, Jonathan Tucker, Joyce Sim, Lara Wagner, and Tim Jones for fruitful discussions or comments on earlier versions of this manuscript. We would like to thank Tony Kemp and one anonymous reviewer for insights that improved this manuscript, Klaus Mezger for comments on an earlier version of this manuscript, and Maud Boyet for editorial handling. This project was in part supported by a Carnegie Fellowship (JRR), and NSERC funds (TC and DGP). AB thanks the Simons Foundation Collaboration on the Origins of Life for support while at Yale University. Publisher Copyright: {\textcopyright} 2020 The Authors.",

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doi = "10.7185/geochemlet.2015",

language = "English (US)",

volume = "14",

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journal = "Geochemical Perspectives Letters",

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AU - Bauer, A. M.

AU - Reimink, J. R.

AU - Chacko, T.

AU - Foley, Bradford James

AU - Shirey, S. B.

AU - Pearson, D. G.

N1 - Funding Information: We thank Richard Carlson, Joshua Davies, Jonathan Tucker, Joyce Sim, Lara Wagner, and Tim Jones for fruitful discussions or comments on earlier versions of this manuscript. We would like to thank Tony Kemp and one anonymous reviewer for insights that improved this manuscript, Klaus Mezger for comments on an earlier version of this manuscript, and Maud Boyet for editorial handling. This project was in part supported by a Carnegie Fellowship (JRR), and NSERC funds (TC and DGP). AB thanks the Simons Foundation Collaboration on the Origins of Life for support while at Yale University. Publisher Copyright: © 2020 The Authors.

PY - 2020

Y1 - 2020

N2 - The tectonic regime of the early Earth has proven enigmatic due to a scarcity of preserved continental crust, yet how early continents were generated is key to deciphering Earth's evolution. Here we show that a compilation of data from 4.3 to 3.4 Ga igneous and detrital zircons records a secular shift to higher 176Hf/177Hf after ~3.8-3.6 Ga. This globally evident shift indicates that continental crust formation before ~3.8-3.6 Ga largely occurred by internal reworking of long-lived mafic protocrust, whereas later continental crust formation involved extensive input of relatively juvenile magmas, which were produced from rapid remelting of oceanic lithosphere. We propose that this secular shift in the global hafnium isotope record reflects a gradual yet widespread transition from stagnant-lid to mobile-lid tectonics on the early Earth.

AB - The tectonic regime of the early Earth has proven enigmatic due to a scarcity of preserved continental crust, yet how early continents were generated is key to deciphering Earth's evolution. Here we show that a compilation of data from 4.3 to 3.4 Ga igneous and detrital zircons records a secular shift to higher 176Hf/177Hf after ~3.8-3.6 Ga. This globally evident shift indicates that continental crust formation before ~3.8-3.6 Ga largely occurred by internal reworking of long-lived mafic protocrust, whereas later continental crust formation involved extensive input of relatively juvenile magmas, which were produced from rapid remelting of oceanic lithosphere. We propose that this secular shift in the global hafnium isotope record reflects a gradual yet widespread transition from stagnant-lid to mobile-lid tectonics on the early Earth.

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Hafnium isotopes in zircons document the gradual onset of mobile-lid tectonics

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