Geochemical characterisation of Neoproterozoic marine habitats: Evidence from trace elements and Nd isotopes in the Urucum iron and manganese formations, Brazil

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Sebastian Viehmann
  • Michael Bau
  • Bernhard Bühn
  • Elton L. Dantas
  • Fábio R.D. Andrade
  • Detlef H.G. Walde

External Research Organisations

  • Jacobs University Bremen
  • Universidade de Brasilia
  • Universidade de Sao Paulo
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Details

Original languageEnglish
Pages (from-to)74-96
Number of pages23
JournalPrecambrian research
Volume282
Publication statusPublished - 1 Sept 2016
Externally publishedYes

Abstract

The Urucum iron and manganese formation (IF and MnF) in the Neoproterozoic Santa Cruz Formation, Brazil, provides unique insights into Neoproterozoic seawater and the habitat for the evolution of the Ediacaran fauna. Pure Urucum IF drill core samples, i.e. chemical sediments that are devoid of any syn- or post-depositional alteration, are reliable and robust archives of Neoproterozoic seawater proxies. They display low concentrations of rather immobile elements and shale-normalized rare earths and yttrium (REYSN) patterns similar to those of modern seawater. Positive LaSN and GdSN anomalies, enrichment of heavy relative to light REYSN, negative CeSN anomalies and super-chondritic Y/Ho ratios indicate a depositional environment dominated by open ocean water masses and oxic atmosphere–hydrosphere conditions. The REYSN patterns of manganese-rich chemical sediments from the Mn1 and Mn2 horizons, however, show significantly different REY distributions between and within these units. While REYSN patterns from the Mn2 unit are similar to those of the IF, the REY systematics of the Mn1 horizon can be subdivided into two different groups. Fe-poor group A shows rather flat REYSN patterns with large negative CeSN anomalies, while Fe-rich group B shows insignificant to positive CeSN anomalies, YbSN/PrSN ratios below unity and sub-chondritic Y/Ho ratios, suggesting that trace element distributions are controlled by the mineralogical composition rather than by sedimentation rate. Pure IF samples, reflecting Urucum seawater, yield εNd0.635Ga values between −4.56 and −4.08, and are more positive than those of the MnF (−5.52 to −4.66) and associated siliciclastic rocks (−8.35 to −7.69), and are considerably more radiogenic than the crystalline Rio Apa Basement (−13.7). While clastic sediments originated from the Amazonia Craton, the dissolved REY budget of Urucum seawater was derived from terrigenous material of the nearby Neoproterozoic Brasília Belt. There is no evidence for any REY input via high-temperature, hydrothermal fluids or for REY input from a mantle source.

Keywords

    BIF, Marinoan glaciation, Neoproterozoic, REE, Seawater, Urucum

ASJC Scopus subject areas

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Geochemical characterisation of Neoproterozoic marine habitats: Evidence from trace elements and Nd isotopes in the Urucum iron and manganese formations, Brazil. / Viehmann, Sebastian; Bau, Michael; Bühn, Bernhard et al.
In: Precambrian research, Vol. 282, 01.09.2016, p. 74-96.

Research output: Contribution to journalArticleResearchpeer review

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@article{363b142f45ca41b38263d345ddf4883e,
title = "Geochemical characterisation of Neoproterozoic marine habitats: Evidence from trace elements and Nd isotopes in the Urucum iron and manganese formations, Brazil",
abstract = "The Urucum iron and manganese formation (IF and MnF) in the Neoproterozoic Santa Cruz Formation, Brazil, provides unique insights into Neoproterozoic seawater and the habitat for the evolution of the Ediacaran fauna. Pure Urucum IF drill core samples, i.e. chemical sediments that are devoid of any syn- or post-depositional alteration, are reliable and robust archives of Neoproterozoic seawater proxies. They display low concentrations of rather immobile elements and shale-normalized rare earths and yttrium (REYSN) patterns similar to those of modern seawater. Positive LaSN and GdSN anomalies, enrichment of heavy relative to light REYSN, negative CeSN anomalies and super-chondritic Y/Ho ratios indicate a depositional environment dominated by open ocean water masses and oxic atmosphere–hydrosphere conditions. The REYSN patterns of manganese-rich chemical sediments from the Mn1 and Mn2 horizons, however, show significantly different REY distributions between and within these units. While REYSN patterns from the Mn2 unit are similar to those of the IF, the REY systematics of the Mn1 horizon can be subdivided into two different groups. Fe-poor group A shows rather flat REYSN patterns with large negative CeSN anomalies, while Fe-rich group B shows insignificant to positive CeSN anomalies, YbSN/PrSN ratios below unity and sub-chondritic Y/Ho ratios, suggesting that trace element distributions are controlled by the mineralogical composition rather than by sedimentation rate. Pure IF samples, reflecting Urucum seawater, yield εNd0.635Ga values between −4.56 and −4.08, and are more positive than those of the MnF (−5.52 to −4.66) and associated siliciclastic rocks (−8.35 to −7.69), and are considerably more radiogenic than the crystalline Rio Apa Basement (−13.7). While clastic sediments originated from the Amazonia Craton, the dissolved REY budget of Urucum seawater was derived from terrigenous material of the nearby Neoproterozoic Bras{\'i}lia Belt. There is no evidence for any REY input via high-temperature, hydrothermal fluids or for REY input from a mantle source.",
keywords = "BIF, Marinoan glaciation, Neoproterozoic, REE, Seawater, Urucum",
author = "Sebastian Viehmann and Michael Bau and Bernhard B{\"u}hn and Dantas, {Elton L.} and Andrade, {F{\'a}bio R.D.} and Walde, {Detlef H.G.}",
note = "Funding information: This research was developed within a joint project between the Deutsche Forschungsgesellschaft ( DFG ) and the Brazilian Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tecnol{\'o}gico ( CNPq ) granted to M.B. and B.B., respectively. Financial and logistic support are gratefully acknowledged. A three-months stay at the Universidade de Bras{\'i}lia by S.V. was funded by the Deutscher Akademischer Austausch Dienst ( DAAD ). S.V. and M.B. acknowledge the Jacobs University Bremen for a temporary Ph.D. scholarship and Katja Schmidt, Jacobs University Bremen, for helpful discussions. We appreciate the assistance of the UnB Geochronology lab team at the UnB. We also greatly acknowledge the support of Adriana Zapparoli and her colleagues from the Vale Company which gave access to the mining area and the drill core samples, and a continuing helpful and pleasant cooperation. We greatly acknowledge the editorial handling of Randall Parrish and the constructive reviews of Thomas Angerer and Simon V. Hohl that significantly improved the final version of our manuscript.",
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month = sep,
day = "1",
doi = "10.1016/j.precamres.2016.07.006",
language = "English",
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Download

TY - JOUR

T1 - Geochemical characterisation of Neoproterozoic marine habitats

T2 - Evidence from trace elements and Nd isotopes in the Urucum iron and manganese formations, Brazil

AU - Viehmann, Sebastian

AU - Bau, Michael

AU - Bühn, Bernhard

AU - Dantas, Elton L.

AU - Andrade, Fábio R.D.

AU - Walde, Detlef H.G.

N1 - Funding information: This research was developed within a joint project between the Deutsche Forschungsgesellschaft ( DFG ) and the Brazilian Conselho Nacional de Desenvolvimento Científico e Tecnológico ( CNPq ) granted to M.B. and B.B., respectively. Financial and logistic support are gratefully acknowledged. A three-months stay at the Universidade de Brasília by S.V. was funded by the Deutscher Akademischer Austausch Dienst ( DAAD ). S.V. and M.B. acknowledge the Jacobs University Bremen for a temporary Ph.D. scholarship and Katja Schmidt, Jacobs University Bremen, for helpful discussions. We appreciate the assistance of the UnB Geochronology lab team at the UnB. We also greatly acknowledge the support of Adriana Zapparoli and her colleagues from the Vale Company which gave access to the mining area and the drill core samples, and a continuing helpful and pleasant cooperation. We greatly acknowledge the editorial handling of Randall Parrish and the constructive reviews of Thomas Angerer and Simon V. Hohl that significantly improved the final version of our manuscript.

PY - 2016/9/1

Y1 - 2016/9/1

N2 - The Urucum iron and manganese formation (IF and MnF) in the Neoproterozoic Santa Cruz Formation, Brazil, provides unique insights into Neoproterozoic seawater and the habitat for the evolution of the Ediacaran fauna. Pure Urucum IF drill core samples, i.e. chemical sediments that are devoid of any syn- or post-depositional alteration, are reliable and robust archives of Neoproterozoic seawater proxies. They display low concentrations of rather immobile elements and shale-normalized rare earths and yttrium (REYSN) patterns similar to those of modern seawater. Positive LaSN and GdSN anomalies, enrichment of heavy relative to light REYSN, negative CeSN anomalies and super-chondritic Y/Ho ratios indicate a depositional environment dominated by open ocean water masses and oxic atmosphere–hydrosphere conditions. The REYSN patterns of manganese-rich chemical sediments from the Mn1 and Mn2 horizons, however, show significantly different REY distributions between and within these units. While REYSN patterns from the Mn2 unit are similar to those of the IF, the REY systematics of the Mn1 horizon can be subdivided into two different groups. Fe-poor group A shows rather flat REYSN patterns with large negative CeSN anomalies, while Fe-rich group B shows insignificant to positive CeSN anomalies, YbSN/PrSN ratios below unity and sub-chondritic Y/Ho ratios, suggesting that trace element distributions are controlled by the mineralogical composition rather than by sedimentation rate. Pure IF samples, reflecting Urucum seawater, yield εNd0.635Ga values between −4.56 and −4.08, and are more positive than those of the MnF (−5.52 to −4.66) and associated siliciclastic rocks (−8.35 to −7.69), and are considerably more radiogenic than the crystalline Rio Apa Basement (−13.7). While clastic sediments originated from the Amazonia Craton, the dissolved REY budget of Urucum seawater was derived from terrigenous material of the nearby Neoproterozoic Brasília Belt. There is no evidence for any REY input via high-temperature, hydrothermal fluids or for REY input from a mantle source.

AB - The Urucum iron and manganese formation (IF and MnF) in the Neoproterozoic Santa Cruz Formation, Brazil, provides unique insights into Neoproterozoic seawater and the habitat for the evolution of the Ediacaran fauna. Pure Urucum IF drill core samples, i.e. chemical sediments that are devoid of any syn- or post-depositional alteration, are reliable and robust archives of Neoproterozoic seawater proxies. They display low concentrations of rather immobile elements and shale-normalized rare earths and yttrium (REYSN) patterns similar to those of modern seawater. Positive LaSN and GdSN anomalies, enrichment of heavy relative to light REYSN, negative CeSN anomalies and super-chondritic Y/Ho ratios indicate a depositional environment dominated by open ocean water masses and oxic atmosphere–hydrosphere conditions. The REYSN patterns of manganese-rich chemical sediments from the Mn1 and Mn2 horizons, however, show significantly different REY distributions between and within these units. While REYSN patterns from the Mn2 unit are similar to those of the IF, the REY systematics of the Mn1 horizon can be subdivided into two different groups. Fe-poor group A shows rather flat REYSN patterns with large negative CeSN anomalies, while Fe-rich group B shows insignificant to positive CeSN anomalies, YbSN/PrSN ratios below unity and sub-chondritic Y/Ho ratios, suggesting that trace element distributions are controlled by the mineralogical composition rather than by sedimentation rate. Pure IF samples, reflecting Urucum seawater, yield εNd0.635Ga values between −4.56 and −4.08, and are more positive than those of the MnF (−5.52 to −4.66) and associated siliciclastic rocks (−8.35 to −7.69), and are considerably more radiogenic than the crystalline Rio Apa Basement (−13.7). While clastic sediments originated from the Amazonia Craton, the dissolved REY budget of Urucum seawater was derived from terrigenous material of the nearby Neoproterozoic Brasília Belt. There is no evidence for any REY input via high-temperature, hydrothermal fluids or for REY input from a mantle source.

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KW - Marinoan glaciation

KW - Neoproterozoic

KW - REE

KW - Seawater

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