Chemostratigraphy of Paleoproterozoic carbonate successions of the Wyoming Craton: tectonic forcing of biogeochemical change?

Bekker, Andrey

doi:10.1016/s0301-9268(02)00164-x

Cited by 144 publications

(56 citation statements)

References 119 publications

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“…Accepting these compositions as representative of the global pool of oceanic DIC would imply a near-trebling of f. Writing three years after Karhu & Holland (1996) published 'Carbon isotopes and the rise of atmospheric oxygen', Melezhik et al (1999) drew on additional data to define three apparently separate pulses of isotopic enrichment. That dissection of the record yields the three spikes in f that are represented by broken lines in figure 9a (alternative stratigraphic correlations yield only two spikes; Bekker et al 2003). The isotopic signal has been associated with other lines of geochemical evidence indicating that the atmosphere became more oxidizing at about the same time.…”

Section: ð6:2þmentioning

confidence: 85%

The carbon cycle and associated redox processes through time

Hayes

Waldbauer

2006

Phil. Trans. R. Soc. B

428

308

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Earth's biogeochemical cycle of carbon delivers both limestones and organic materials to the crust. In numerous, biologically catalysed redox reactions, hydrogen, sulphur, iron, and oxygen serve prominently as electron donors and acceptors. The progress of these reactions can be reconstructed from records of variations in the abundance of 13 C in sedimentary carbonate minerals and organic materials. Because the crust is always receiving new CO 2 from the mantle and a portion of it is being reduced by photoautotrophs, the carbon cycle has continuously released oxidizing power. Most of it is represented by Fe 3C that has accumulated in the crust or been returned to the mantle via subduction. Less than 3% of the estimated, integrated production of oxidizing power since 3.8 Gyr ago is represented by O 2 in the atmosphere and dissolved in seawater. The balance is represented by sulphate. The accumulation of oxidizing power can be estimated from budgets summarizing inputs of mantle carbon and rates of organic-carbon burial, but levels of O 2 are only weakly and indirectly coupled to those phenomena and thus to carbon-isotopic records. Elevated abundances of 13 C in carbonate minerals ca 2.3 Gyr old, in particular, are here interpreted as indicating the importance of methanogenic bacteria in sediments rather than increased burial of organic carbon.

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Section: ð6:2þmentioning

confidence: 85%

The carbon cycle and associated redox processes through time

Hayes

Waldbauer

2006

Phil. Trans. R. Soc. B

428

308

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“…Iron formations in the Quadrilátero Ferrífero region in Brazil, Middleback Ridge (Gawler Craton) in South Australia, Nimba and Simandou Ranges in Liberia and Guinea, Krivoy Rog area in Ukraine, and Kursk Magnetic Anomaly (KMA) region in Russia are broadly similar in age based on available geochronological and chemostratigraphical constraints, and also display similar patterns of macrobanding (Prilutzky et al, 1992;Kulik and Korzhnev, 1997;Egal et al, 2002;Bekker et al, 2003;Phillips et al, 2006;Spier et al, 2007;Szpunar et al, 2011). These IFs were also deposited on reactivated continental margins, and are separated by prominent unconformities from overlying Palaeoproterozoic sequences, which correspond to a long gap in sedimentation following the supercontinent assembly at ca.…”

mentioning

confidence: 99%

Iron formations: A global record of Neoarchaean to Palaeoproterozoic environmental history

Konhauser

Planavsky

Hardisty

et al. 2017

Earth-Science Reviews

379

257

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“…Oscillatory δ 13 C pathways encountered in carbonate sequences worldwide have been attributed, in the long term, to periods of high tectonic activity during which inputs and outputs of the available C org resulted in changes in the C-isotope composition of seawater respectively (Derry et al 1992, Lindsay and Brasier 2002, Bekker et al 2003. For instance, enriched δ 13 C values have been attributed to periods of high tectonic activity during which enhanced C org burial causes high levels of oxygenation levels in ocean and atmosphere, as well as high biologic diversification events (Des Marais 1997).…”

Section: Global Implications Of the Late Mesoproterozoic-early Neopromentioning

confidence: 99%

“…For instance, enriched δ 13 C values have been attributed to periods of high tectonic activity during which enhanced C org burial causes high levels of oxygenation levels in ocean and atmosphere, as well as high biologic diversification events (Des Marais 1997). These values are also expected during periods of high C org sequestration during widespread subduction of C org -rich sedimentary slabs and during widespread oceanic closure (Lindsay and Brasier 2000, Bekker et al 2003. Alternatively, it has also been proposed that short lasting phenomena such as upwelling, relative sea level changes, ocean water stratiphication, among other, can also generate fluctuating, environment dependant δ 13 C pathways in the sedimentary record as observed in Phanerozoic sedimentary succession (Mitchell et al 1996, Scholle andArthur 1980).…”

Section: Global Implications Of the Late Mesoproterozoic-early Neopromentioning

confidence: 99%

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C- and Sr-isotope stratigraphy of the São Caetano complex, Northeastern Brazil: a contribution to the study of the Meso-Neoproterozoic seawater geochemistry

Silva

Sial

Ferreira

et al. 2005

An. Acad. Bras. Ciênc.

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C-isotope and 87 Sr/ 86 Sr values for five carbonate successions from the São Caetano Complex, northeastern Brazil, were used to constrain their depositional age and to determine large variations in the C-and Srisotopic composition of seawater under the framework of global tectonic events. Three C-isotope stages were identified from base to top in a composed chemostratigraphic section: (1) The C-and Sr-chemostratigraphic pathways permit to state: (a) the C-and Sr-isotope secular curves registered primary fluctuations of the isotope composition of seawater during late Mesoproterozoic-early Neoproterozoic transition in the Borborema Province, and (b) onset of the Cariris Velhos/Greenville cycle, widespread oceanic rifting, continental magmatic arc formation and onset of the agglutination of Rodinia supercontinent, mostly controlled the C-and Sr-isotope composition of seawater during the C-isotope stages 1, 2 and 3.

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Chemostratigraphy of Paleoproterozoic carbonate successions of the Wyoming Craton: tectonic forcing of biogeochemical change?

Cited by 144 publications

References 119 publications

The carbon cycle and associated redox processes through time

The carbon cycle and associated redox processes through time

Iron formations: A global record of Neoarchaean to Palaeoproterozoic environmental history

C- and Sr-isotope stratigraphy of the São Caetano complex, Northeastern Brazil: a contribution to the study of the Meso-Neoproterozoic seawater geochemistry

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