Rapid marine oxygen variability : Driver of the Late Ordovician mass extinction

Greenhouse−icehouse transition in the Late Ordovician marks a step change in extinction regime in the marine plankton

Crampton, James S
Cooper, Roger A
Sadler, Peter M
Foote, Michael

February 2016

Two distinct regimes of extinction dynamic are present in the major marine zooplankton group, the gr...

Was the Late Ordovician mass extinction truly exceptional?

Rasmussen, Christian M. Ø.
Vandenbroucke, Thijs
Nogues-Bravo, David
Finnegan, Seth

January 2023

The Late Ordovician mass extinction event is the oldest of the five great extinction events in the f...

Late Ordovician mass extinction caused by volcanism, warming, and anoxia, not cooling and glaciation

Bond, David P.G.
Grasby, Stephen E.

May 2020

The Ordovician saw major diversification in marine life abruptly terminated by the Late Ordovician m...

Rapid marine oxygen variability: Driver of the Late Ordovician mass extinction

Liu, Mu
Chen, Daizhao
Hammarlund, Emma
Bond, David P.G.
Kozik, Nevin P.
Young, Seth A.
Newby, Sean M.
Them, Theodore R.
Owens, Jeremy D.

November 2022

The timing and connections between global cooling, marine redox conditions, and biotic turnover are ...

Sulfidic anoxia in the oceans during the Late Ordovician mass extinctions – insights from molybdenum and uranium isotopic global redox proxies

Dahl, Tais W.
Hammarlund, Emma U.
Rasmussen, Christian Mac Ørum
Bond, David P.G.
Canfield, Donald E.

July 2021

The Late Ordovician Mass Extinction wiped out 85% of animal species in two phases (LOME1 and LOME2)....

Stable ocean redox during the main phase of the Great Ordovician Biodiversification Event

del Rey, Álvaro
Rasmussen, Christian Mac Ørum
Calner, Mikael
Wu, Rongchang
Asael, Dan
Dahl, Tais W.

December 2022

The Great Ordovician Biodiversification Event (GOBE) represents the greatest increase in marine anim...

Ocean euxinia and climate change "double whammy" drove the Late Ordovician mass extinction

Zou, C
Qiu, Z
Poulton, SW
Dong, D
Wang, H
Chen, D
Lu, B
Shi, Z
Tao, H

April 2018

The Late Ordovician mass extinction (LOME, ca. 445 Ma) was the first of the "Big Five" Phanerozoic e...

A nutrient control on expanded anoxia and global cooling during the Late Ordovician mass extinction

Qiu, Z
Zou, C
Mills, BJW
Xiong, Y
Tao, H
Lu, B
Liu, H
Xiao, W
Poulton, S

April 2022

Expanded ocean anoxia and global cooling have been invoked as major causal mechanisms for the Late O...

Thallium isotopes reveal protracted anoxia during the Toarcian (Early Jurassic) associated with volcanism, carbon burial, and mass extinction

Them II, Theodore R.
Gill, Benjamin C.
Caruthers, Andrew H.
Gerhardt, Angela M.
Gröcke, Darren R.
Lyons, T.W.
Marroquín, Selva M.
Nielsen, S.G.
Trabucho-Alexandre, João
Owens, J.D.

June 2018

For this study, we generated thallium (Tl) isotope records from two anoxic basins to track the earli...

Data for Globally limited but severe shallow shelf euxinia during the end-Triassic extinction

Bond, Andrew D.
Dickson, Alexander J.
Ruhl, Micha
Bos, Remco
van de Schootbrugge, Bas

September 2023

One of the most severe extinctions of complex marine life in Earth’s history occurred at the end of ...

Decreasing Phanerozoic extinction intensity as a consequence of Earth surface oxygenation and metazoan ecophysiology

Stockey, Richard
Pohl, Alexandre
Ridgwell, Andy
Finnegan, Seth
Sperling, Erik

October 2021

International audienceThe decline in background extinction rates of marine animals through geologic ...

Greenhouse−icehouse transition in the Late Ordovician marks a step change in extinction regime in the marine plankton

Crampton, James S
Cooper, Roger A
Sadler, Peter M
Foote, Michael

February 2016

Two distinct regimes of extinction dynamic are present in the major marine zooplankton group, the gr...

Was the Late Ordovician mass extinction truly exceptional?

Rasmussen, Christian M. Ø.
Vandenbroucke, Thijs
Nogues-Bravo, David
Finnegan, Seth

January 2023

The Late Ordovician mass extinction event is the oldest of the five great extinction events in the f...

Late Ordovician mass extinction caused by volcanism, warming, and anoxia, not cooling and glaciation

Bond, David P.G.
Grasby, Stephen E.

May 2020

The Ordovician saw major diversification in marine life abruptly terminated by the Late Ordovician m...

Rapid marine oxygen variability: Driver of the Late Ordovician mass extinction

Liu, Mu
Chen, Daizhao
Hammarlund, Emma
Bond, David P.G.
Kozik, Nevin P.
Young, Seth A.
Newby, Sean M.
Them, Theodore R.
Owens, Jeremy D.

November 2022

The timing and connections between global cooling, marine redox conditions, and biotic turnover are ...

Sulfidic anoxia in the oceans during the Late Ordovician mass extinctions – insights from molybdenum and uranium isotopic global redox proxies

Dahl, Tais W.
Hammarlund, Emma U.
Rasmussen, Christian Mac Ørum
Bond, David P.G.
Canfield, Donald E.

July 2021

The Late Ordovician Mass Extinction wiped out 85% of animal species in two phases (LOME1 and LOME2)....

Stable ocean redox during the main phase of the Great Ordovician Biodiversification Event

del Rey, Álvaro
Rasmussen, Christian Mac Ørum
Calner, Mikael
Wu, Rongchang
Asael, Dan
Dahl, Tais W.

December 2022

The Great Ordovician Biodiversification Event (GOBE) represents the greatest increase in marine anim...

Ocean euxinia and climate change "double whammy" drove the Late Ordovician mass extinction

Zou, C
Qiu, Z
Poulton, SW
Dong, D
Wang, H
Chen, D
Lu, B
Shi, Z
Tao, H

April 2018

The Late Ordovician mass extinction (LOME, ca. 445 Ma) was the first of the "Big Five" Phanerozoic e...

A nutrient control on expanded anoxia and global cooling during the Late Ordovician mass extinction

Qiu, Z
Zou, C
Mills, BJW
Xiong, Y
Tao, H
Lu, B
Liu, H
Xiao, W
Poulton, S

April 2022

Expanded ocean anoxia and global cooling have been invoked as major causal mechanisms for the Late O...

Thallium isotopes reveal protracted anoxia during the Toarcian (Early Jurassic) associated with volcanism, carbon burial, and mass extinction

Them II, Theodore R.
Gill, Benjamin C.
Caruthers, Andrew H.
Gerhardt, Angela M.
Gröcke, Darren R.
Lyons, T.W.
Marroquín, Selva M.
Nielsen, S.G.
Trabucho-Alexandre, João
Owens, J.D.

June 2018

For this study, we generated thallium (Tl) isotope records from two anoxic basins to track the earli...

Data for Globally limited but severe shallow shelf euxinia during the end-Triassic extinction

Bond, Andrew D.
Dickson, Alexander J.
Ruhl, Micha
Bos, Remco
van de Schootbrugge, Bas

September 2023

One of the most severe extinctions of complex marine life in Earth’s history occurred at the end of ...

Decreasing Phanerozoic extinction intensity as a consequence of Earth surface oxygenation and metazoan ecophysiology

Stockey, Richard
Pohl, Alexandre
Ridgwell, Andy
Finnegan, Seth
Sperling, Erik

October 2021

International audienceThe decline in background extinction rates of marine animals through geologic ...

Greenhouse−icehouse transition in the Late Ordovician marks a step change in extinction regime in the marine plankton

Crampton, James S
Cooper, Roger A
Sadler, Peter M
Foote, Michael

February 2016

Two distinct regimes of extinction dynamic are present in the major marine zooplankton group, the gr...

Was the Late Ordovician mass extinction truly exceptional?

Rasmussen, Christian M. Ø.
Vandenbroucke, Thijs
Nogues-Bravo, David
Finnegan, Seth

January 2023

The Late Ordovician mass extinction event is the oldest of the five great extinction events in the f...

Late Ordovician mass extinction caused by volcanism, warming, and anoxia, not cooling and glaciation

Bond, David P.G.
Grasby, Stephen E.

May 2020

The Ordovician saw major diversification in marine life abruptly terminated by the Late Ordovician m...

Rapid marine oxygen variability : Driver of the Late Ordovician mass extinction

Abstract

Extracted data

Rapid marine oxygen variability : Driver of the Late Ordovician mass extinction

Abstract

Extracted data

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