Proterozoic ocean chemistry and evolution: A bioinorganic bridge?

A. D. Anbar; A. H. Knoll

doi:10.1126/science.1069651

Proterozoic ocean chemistry and evolution: A bioinorganic bridge?

A. D. Anbar, A. H. Knoll

Research output: Contribution to journal › Review article › peer-review

900 Scopus citations

Abstract

Recent data imply that for much of the Proterozoic Eon (2500 to 543 million years ago), Earth's oceans were moderately oxic at the surface and sulfidic at depth. Under these conditions, biologically important trace metals would have been scarce in most marine environments, potentially restricting the nitrogen cycle, affecting primary productivity, and limiting the ecological distribution of eukaryotic algae. Oceanic redox conditions and their bioinorganic consequences may thus help to explain observed patterns of Proterozoic evolution.

Original language	English (US)
Pages (from-to)	1137-1142
Number of pages	6
Journal	Science
Volume	297
Issue number	5584
DOIs	https://doi.org/10.1126/science.1069651
State	Published - Aug 16 2002
Externally published	Yes

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title = "Proterozoic ocean chemistry and evolution: A bioinorganic bridge?",

abstract = "Recent data imply that for much of the Proterozoic Eon (2500 to 543 million years ago), Earth's oceans were moderately oxic at the surface and sulfidic at depth. Under these conditions, biologically important trace metals would have been scarce in most marine environments, potentially restricting the nitrogen cycle, affecting primary productivity, and limiting the ecological distribution of eukaryotic algae. Oceanic redox conditions and their bioinorganic consequences may thus help to explain observed patterns of Proterozoic evolution.",

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T2 - A bioinorganic bridge?

AU - Anbar, A. D.

AU - Knoll, A. H.

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N2 - Recent data imply that for much of the Proterozoic Eon (2500 to 543 million years ago), Earth's oceans were moderately oxic at the surface and sulfidic at depth. Under these conditions, biologically important trace metals would have been scarce in most marine environments, potentially restricting the nitrogen cycle, affecting primary productivity, and limiting the ecological distribution of eukaryotic algae. Oceanic redox conditions and their bioinorganic consequences may thus help to explain observed patterns of Proterozoic evolution.

AB - Recent data imply that for much of the Proterozoic Eon (2500 to 543 million years ago), Earth's oceans were moderately oxic at the surface and sulfidic at depth. Under these conditions, biologically important trace metals would have been scarce in most marine environments, potentially restricting the nitrogen cycle, affecting primary productivity, and limiting the ecological distribution of eukaryotic algae. Oceanic redox conditions and their bioinorganic consequences may thus help to explain observed patterns of Proterozoic evolution.

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Proterozoic ocean chemistry and evolution: A bioinorganic bridge?

Abstract

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