Devonian rise in atmospheric oxygen correlated to the radiations of terrestrial plants and large predatory fish

Tais W. Dahl; Emma U. Hammarlund; Ariel D. Anbar; David P.G. Bond; Benjamin C. Gill; Gwyneth W. Gordon; Andrew H. Knoll; Arne Thorshøj Nielsen; Niels H. Schovsbo; Donald E. Canfield

doi:10.1073/pnas.1011287107

Devonian rise in atmospheric oxygen correlated to the radiations of terrestrial plants and large predatory fish

Tais W. Dahl, Emma U. Hammarlund, Ariel D. Anbar, David P.G. Bond, Benjamin C. Gill, Gwyneth W. Gordon, Andrew H. Knoll, Arne Thorshøj Nielsen, Niels H. Schovsbo, Donald E. Canfield

248 Citationer (Scopus)

Abstract

The evolution of Earth’s biota is intimately linked to the oxygenation
of the oceans and atmosphere. We use the isotopic composition
and concentration of molybdenum (Mo) in sedimentary rocks
to explore this relationship. Our results indicate two episodes of
global ocean oxygenation. The first coincides with the emergence
of the Ediacaran fauna, including large, motile bilaterian animals,
ca. 550–560 million year ago (Ma), reinforcing previous geochemical
indications that Earth surface oxygenation facilitated this
radiation. The second, perhaps larger, oxygenation took place
around 400 Ma, well after the initial rise of animals and, therefore,
suggesting that early metazoans evolved in a relatively low oxygen
environment. This later oxygenation correlates with the diversification
of vascular plants, which likely contributed to increased
oxygenation through the enhanced burial of organic carbon in
sediments. It also correlates with a pronounced radiation of large
predatory fish, animals with high oxygen demand. We thereby
couple the redox history of the atmosphere and oceans to major
events in animal evolution.

Originalsprog	Engelsk
Tidsskrift	National Academy of Sciences. Proceedings
Vol/bind	107
Udgave nummer	42
Sider (fra-til)	17911-17915
Antal sider	5
ISSN	0027-8424
DOI	https://doi.org/10.1073/pnas.1011287107
Status	Udgivet - 19 okt. 2010

Adgang til dokumentet

10.1073/pnas.1011287107

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Citationsformater

Dahl, T. W., Hammarlund, E. U., Anbar, A. D., Bond, D. P. G., Gill, B. C., Gordon, G. W., Knoll, A. H., Nielsen, A. T., Schovsbo, N. H., & Canfield, D. E. (2010). Devonian rise in atmospheric oxygen correlated to the radiations of terrestrial plants and large predatory fish. National Academy of Sciences. Proceedings, 107(42), 17911-17915. https://doi.org/10.1073/pnas.1011287107

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title = "Devonian rise in atmospheric oxygen correlated to the radiations of terrestrial plants and large predatory fish",

abstract = "The evolution of Earth{\textquoteright}s biota is intimately linked to the oxygenationof the oceans and atmosphere. We use the isotopic compositionand concentration of molybdenum (Mo) in sedimentary rocksto explore this relationship. Our results indicate two episodes ofglobal ocean oxygenation. The first coincides with the emergenceof the Ediacaran fauna, including large, motile bilaterian animals,ca. 550–560 million year ago (Ma), reinforcing previous geochemicalindications that Earth surface oxygenation facilitated thisradiation. The second, perhaps larger, oxygenation took placearound 400 Ma, well after the initial rise of animals and, therefore,suggesting that early metazoans evolved in a relatively low oxygenenvironment. This later oxygenation correlates with the diversificationof vascular plants, which likely contributed to increasedoxygenation through the enhanced burial of organic carbon insediments. It also correlates with a pronounced radiation of largepredatory fish, animals with high oxygen demand. We therebycouple the redox history of the atmosphere and oceans to majorevents in animal evolution.",

author = "Dahl, {Tais W.} and Hammarlund, {Emma U.} and Anbar, {Ariel D.} and Bond, {David P.G.} and Gill, {Benjamin C.} and Gordon, {Gwyneth W.} and Knoll, {Andrew H.} and Nielsen, {Arne Thorsh{\o}j} and Schovsbo, {Niels H.} and Canfield, {Donald E.}",

year = "2010",

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doi = "10.1073/pnas.1011287107",

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T1 - Devonian rise in atmospheric oxygen correlated to the radiations of terrestrial plants and large predatory fish

AU - Dahl, Tais W.

AU - Hammarlund, Emma U.

AU - Anbar, Ariel D.

AU - Bond, David P.G.

AU - Gill, Benjamin C.

AU - Gordon, Gwyneth W.

AU - Knoll, Andrew H.

AU - Nielsen, Arne Thorshøj

AU - Schovsbo, Niels H.

AU - Canfield, Donald E.

PY - 2010/10/19

Y1 - 2010/10/19

N2 - The evolution of Earth’s biota is intimately linked to the oxygenationof the oceans and atmosphere. We use the isotopic compositionand concentration of molybdenum (Mo) in sedimentary rocksto explore this relationship. Our results indicate two episodes ofglobal ocean oxygenation. The first coincides with the emergenceof the Ediacaran fauna, including large, motile bilaterian animals,ca. 550–560 million year ago (Ma), reinforcing previous geochemicalindications that Earth surface oxygenation facilitated thisradiation. The second, perhaps larger, oxygenation took placearound 400 Ma, well after the initial rise of animals and, therefore,suggesting that early metazoans evolved in a relatively low oxygenenvironment. This later oxygenation correlates with the diversificationof vascular plants, which likely contributed to increasedoxygenation through the enhanced burial of organic carbon insediments. It also correlates with a pronounced radiation of largepredatory fish, animals with high oxygen demand. We therebycouple the redox history of the atmosphere and oceans to majorevents in animal evolution.

AB - The evolution of Earth’s biota is intimately linked to the oxygenationof the oceans and atmosphere. We use the isotopic compositionand concentration of molybdenum (Mo) in sedimentary rocksto explore this relationship. Our results indicate two episodes ofglobal ocean oxygenation. The first coincides with the emergenceof the Ediacaran fauna, including large, motile bilaterian animals,ca. 550–560 million year ago (Ma), reinforcing previous geochemicalindications that Earth surface oxygenation facilitated thisradiation. The second, perhaps larger, oxygenation took placearound 400 Ma, well after the initial rise of animals and, therefore,suggesting that early metazoans evolved in a relatively low oxygenenvironment. This later oxygenation correlates with the diversificationof vascular plants, which likely contributed to increasedoxygenation through the enhanced burial of organic carbon insediments. It also correlates with a pronounced radiation of largepredatory fish, animals with high oxygen demand. We therebycouple the redox history of the atmosphere and oceans to majorevents in animal evolution.

U2 - 10.1073/pnas.1011287107

DO - 10.1073/pnas.1011287107

M3 - Journal article

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SN - 0027-8424

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JO - National Academy of Sciences. Proceedings

JF - National Academy of Sciences. Proceedings

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