Add to ORKGThe Ordovician (∼487 to 443 Ma) ended with the formation of extensive Southern Hemisphere ice sheets, known as the Hirnantian glaciation, and the second largest mass extinction in Earth History. It was followed by the Silurian (∼443 to 419 Ma), one of the most climatically unstable periods of the Phanerozoic as evidenced by several large scale (> 5‰) carbon isotope (δ13C) perturbations associated with further extinction events. Despite several decades of research, the cause of these environmental instabilities remains enigmatic. Here, we provide osmium (187Os/188Os) and lithium (δ7Li) isotope measurements of marine sedimentary rocks that cover four Silurian δ13C excursions. Osmium and Li isotope records resemble those previously recorded fo...
This thesis utilizes osmium (Os) isotope, together with other geochemical proxies, to investigate th...
Silicate weathering is a key process by which CO2 is removed from the atmosphere. It has been propos...
The long-term stability of Earth's climate throughout the Phanerozoic stands in marked contrast to t...
The Ordovician (∼487 to 443 Ma) ended with the formation of extensive Southern Hemisphere ice sheets...
ArticleThis is the final version of the article. Available from European Association of Geochemistry...
An abrupt rise in temperature, forced by a massive input of CO2 into the atmosphere, is commonly inv...
This is the author accepted manuscript. This is an open access article. The final version is availab...
The Ocean Anoxic Event 2 (OAE2) about 93.5 million years ago was marked by high atmospheric CO 2 con...
Large igneous provinces (LIPs) are proposed to have caused a number of episodes of abrupt environmen...
The evolution of the global carbon and silicon cycles is thought to have contributed to the long-ter...
Here we present initial 187Os/188Os (Osi) values integrated with δ13Corg for the first Paleozoic sec...
The Paleocene-Eocene Thermal Maximum (PETM; ~55.9 Ma) was a geologically rapid warming period associ...
This thesis utilizes osmium (Os) isotope, together with other geochemical proxies, to investigate th...
Silicate weathering is a key process by which CO2 is removed from the atmosphere. It has been propos...
The long-term stability of Earth's climate throughout the Phanerozoic stands in marked contrast to t...
The Ordovician (∼487 to 443 Ma) ended with the formation of extensive Southern Hemisphere ice sheets...
ArticleThis is the final version of the article. Available from European Association of Geochemistry...
An abrupt rise in temperature, forced by a massive input of CO2 into the atmosphere, is commonly inv...
This is the author accepted manuscript. This is an open access article. The final version is availab...
The Ocean Anoxic Event 2 (OAE2) about 93.5 million years ago was marked by high atmospheric CO 2 con...
Large igneous provinces (LIPs) are proposed to have caused a number of episodes of abrupt environmen...
The evolution of the global carbon and silicon cycles is thought to have contributed to the long-ter...
Here we present initial 187Os/188Os (Osi) values integrated with δ13Corg for the first Paleozoic sec...
The Paleocene-Eocene Thermal Maximum (PETM; ~55.9 Ma) was a geologically rapid warming period associ...
This thesis utilizes osmium (Os) isotope, together with other geochemical proxies, to investigate th...
Silicate weathering is a key process by which CO2 is removed from the atmosphere. It has been propos...
The long-term stability of Earth's climate throughout the Phanerozoic stands in marked contrast to t...