South Australian U-Pb Zircon (CA-ID-TIMS) Age Supports Globally Synchronous Sturtian Deglaciation

Grant M. Cox; Vincent Isakson; Paul F. Hoffman; Thomas M. Gernon; Mark D. Schmitz; Sameh Shahin; Alan S. Collins; Wolfgang Preiss; Morgan L. Blades; Ross N. Mitchell; Adam Nordsvan

doi:10.1016/j.precamres.2018.07.007

South Australian U-Pb Zircon (CA-ID-TIMS) Age Supports Globally Synchronous Sturtian Deglaciation

Grant M. Cox
, Vincent Isakson
, Paul F. Hoffman
, Thomas M. Gernon
, Mark D. Schmitz
, Sameh Shahin
, Alan S. Collins
, Wolfgang Preiss
, Morgan L. Blades
, Ross N. Mitchell
, Adam Nordsvan

Geosciences Department

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

70 Scopus citations

Abstract

A central prediction of the Snowball Earth hypothesis is that glacial onset should be synchronous at low latitudes, and its termination should be rapid and synchronous globally. High precision U/Pb zircon ages provide supporting evidence for the synchronous onset (within error) of the Sturtian glaciation (ca. 716 Ma) on multiple continents. Successful application of Re-Os techniques on organic rich shales and carbonates allow for the possibility of a globally synchronous Sturtian deglaciation (ca. 660 Ma), but the sparse isotopic age constraints leave this open to debate. Here we report the first high precision U-Pb zircon age of 663.03 ± 0.11 Ma (2σ) for the end Sturtian recorded in the Wilyerpa Formation of South Australia. This age supports previously published ages and is permissive with a globally synchronous deglaciation. In conjunction with the timing of glacial onset, this age reinforces the ca. 58 Myr duration of the Sturtian Snowball.

Original language	American English
Pages (from-to)	257-263
Number of pages	7
Journal	Precambrian Research
Volume	315
DOIs	https://doi.org/10.1016/j.precamres.2018.07.007
State	Published - Sep 2018

Keywords

CA-ID-TIMS
Snowball Earth
South Australia
Sturtian
Wilyerpa Formation
synchronous deglaciation

EGS Disciplines

Earth Sciences
Geophysics and Seismology

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10.1016/j.precamres.2018.07.007

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@article{cce48cce7fa24f129e8f8c812e5b9297,

title = "South Australian U-Pb Zircon (CA-ID-TIMS) Age Supports Globally Synchronous Sturtian Deglaciation",

abstract = "A central prediction of the Snowball Earth hypothesis is that glacial onset should be synchronous at low latitudes, and its termination should be rapid and synchronous globally. High precision U/Pb zircon ages provide supporting evidence for the synchronous onset (within error) of the Sturtian glaciation (ca. 716 Ma) on multiple continents. Successful application of Re-Os techniques on organic rich shales and carbonates allow for the possibility of a globally synchronous Sturtian deglaciation (ca. 660 Ma), but the sparse isotopic age constraints leave this open to debate. Here we report the first high precision U-Pb zircon age of 663.03 ± 0.11 Ma (2σ) for the end Sturtian recorded in the Wilyerpa Formation of South Australia. This age supports previously published ages and is permissive with a globally synchronous deglaciation. In conjunction with the timing of glacial onset, this age reinforces the ca. 58 Myr duration of the Sturtian Snowball.",

keywords = "CA-ID-TIMS, Snowball Earth, South Australia, Sturtian, Wilyerpa Formation, synchronous deglaciation",

author = "Cox, \{Grant M.\} and Vincent Isakson and Hoffman, \{Paul F.\} and Gernon, \{Thomas M.\} and Schmitz, \{Mark D.\} and Sameh Shahin and Collins, \{Alan S.\} and Wolfgang Preiss and Blades, \{Morgan L.\} and Mitchell, \{Ross N.\} and Adam Nordsvan",

note = "Publisher Copyright: {\textcopyright} 2018",

year = "2018",

month = sep,

doi = "10.1016/j.precamres.2018.07.007",

language = "American English",

volume = "315",

pages = "257--263",

}

TY - JOUR

T1 - South Australian U-Pb Zircon (CA-ID-TIMS) Age Supports Globally Synchronous Sturtian Deglaciation

AU - Cox, Grant M.

AU - Isakson, Vincent

AU - Hoffman, Paul F.

AU - Gernon, Thomas M.

AU - Schmitz, Mark D.

AU - Shahin, Sameh

AU - Collins, Alan S.

AU - Preiss, Wolfgang

AU - Blades, Morgan L.

AU - Mitchell, Ross N.

AU - Nordsvan, Adam

PY - 2018/9

Y1 - 2018/9

N2 - A central prediction of the Snowball Earth hypothesis is that glacial onset should be synchronous at low latitudes, and its termination should be rapid and synchronous globally. High precision U/Pb zircon ages provide supporting evidence for the synchronous onset (within error) of the Sturtian glaciation (ca. 716 Ma) on multiple continents. Successful application of Re-Os techniques on organic rich shales and carbonates allow for the possibility of a globally synchronous Sturtian deglaciation (ca. 660 Ma), but the sparse isotopic age constraints leave this open to debate. Here we report the first high precision U-Pb zircon age of 663.03 ± 0.11 Ma (2σ) for the end Sturtian recorded in the Wilyerpa Formation of South Australia. This age supports previously published ages and is permissive with a globally synchronous deglaciation. In conjunction with the timing of glacial onset, this age reinforces the ca. 58 Myr duration of the Sturtian Snowball.

AB - A central prediction of the Snowball Earth hypothesis is that glacial onset should be synchronous at low latitudes, and its termination should be rapid and synchronous globally. High precision U/Pb zircon ages provide supporting evidence for the synchronous onset (within error) of the Sturtian glaciation (ca. 716 Ma) on multiple continents. Successful application of Re-Os techniques on organic rich shales and carbonates allow for the possibility of a globally synchronous Sturtian deglaciation (ca. 660 Ma), but the sparse isotopic age constraints leave this open to debate. Here we report the first high precision U-Pb zircon age of 663.03 ± 0.11 Ma (2σ) for the end Sturtian recorded in the Wilyerpa Formation of South Australia. This age supports previously published ages and is permissive with a globally synchronous deglaciation. In conjunction with the timing of glacial onset, this age reinforces the ca. 58 Myr duration of the Sturtian Snowball.

KW - CA-ID-TIMS

KW - Snowball Earth

KW - South Australia

KW - Sturtian

KW - Wilyerpa Formation

KW - synchronous deglaciation

UR - https://www.scopus.com/pages/publications/85051398956

UR - https://scholarworks.boisestate.edu/geo_facpubs/432

U2 - 10.1016/j.precamres.2018.07.007

DO - 10.1016/j.precamres.2018.07.007

M3 - Article

SN - 0301-9268

VL - 315

SP - 257

EP - 263

JO - Precambrian Research

JF - Precambrian Research

ER -

South Australian U-Pb Zircon (CA-ID-TIMS) Age Supports Globally Synchronous Sturtian Deglaciation

Abstract

Keywords

EGS Disciplines

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