The Palaeoproterozoic perturbation of the Global Carbon Cycle : the Lomagundi-Jatuli Isotopic Event

Melezhik, Victor A.
Fallick, Anthony E.
Martin, Adam P.
Condon, Daniel J.
Kump, Lee R.
Brasier, Alex T.
Salminen, Paula E.

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Publication date

October 2013

DOI

10.1007/978-3-642-29670-3_3

Publisher

Springer Science and Business Media LLC

Language

English

Abstract

On Earth, carbon cycles through the land, ocean, atmosphere, living and dead biomass and the planet’s interior. The global carbon cycle can be divided into the tectonically driven geological cycle and the biological/physicochemical cycles. The former operates over millions of years, whereas the latter operate over much shorter time scales (days to thousands of years). Within the geological cycle, atmospheric carbon dioxide concentration is controlled by the balance between weathering, biological drawdown, size of sedimentary reservoir, subduction, metamorphism and volcanism over time periods of hundreds of millions of year

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The Palaeoproterozoic perturbation of the Global Carbon Cycle : the Lomagundi-Jatuli Isotopic Event

Abstract

Extracted data

The Palaeoproterozoic perturbation of the Global Carbon Cycle : the Lomagundi-Jatuli Isotopic Event

Abstract

Extracted data

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