The mass extinction at the Cretaceous- Paleogene boundary marks one of the most important biotic turnover events in Earth history. Yet, despite decades of study, the causes of the Cretaceous-Paleogene boundary crises remain under debate. An important tool that has the capacity to greatly improve our understanding of the events around the Cretaceous-Paleogene boundary is the geomagnetic polarity time scale (GPTS). The GPTS is used for age control in numerous Cretaceous-Paleogene boundary studies, including the timing of Deccan Traps volcanism, a majority of studies in marine sections, and studies on climate and ecological change across the Cretaceous-Paleogene boundary. The current calibration of the GPTS for circum- Cretaceous-Paleogene bou...
An accurate and precise geomagnetic polarity time scale is crucial to the development of a chronolog...
We present a revised Cenozoic geochronology based upon a best-fit to selected high-temperature radio...
An accurate and precise geomagnetic polarity time scale is crucial to the development of a chronolog...
The mass extinction at the Cretaceous- Paleogene boundary marks one of the most important biotic tur...
The need for precise and accurate time constraints in Earth sciences is pivotal to successfully unra...
Despite decades of study, the exact cause of the Cretaceous-Paleogene boundary (KPB) mass extinction...
Recently reported radioisotopic dates and magnetic anomaly spacings have made it evident that modifi...
Detailed understanding of ecosystem decline and recovery attending the Cretaceous-Paleogene boundary...
Paleomagnetic and cycle stratigraphic analyses of nearly 7000\ua0m of section from continuous cores ...
As climate change became a major international hot topic, scientists look to the geologic past for p...
We present a revised Paleogene geochronology based upon a best fit to selected high temperature radi...
As climate change became a major international hot topic, scientists look to the geologic past for p...
High-resolution geochronology provides a means to evaluate the timescales of responses to major shif...
An expanded Oligocene-Miocene boundary interval recovered in the Cape Roberts Project CRP-2A core fr...
We reevaluate the Eocene geomagnetic polarity time scale on the basis of single-crystal 40Ar/39Ar ag...
An accurate and precise geomagnetic polarity time scale is crucial to the development of a chronolog...
We present a revised Cenozoic geochronology based upon a best-fit to selected high-temperature radio...
An accurate and precise geomagnetic polarity time scale is crucial to the development of a chronolog...
The mass extinction at the Cretaceous- Paleogene boundary marks one of the most important biotic tur...
The need for precise and accurate time constraints in Earth sciences is pivotal to successfully unra...
Despite decades of study, the exact cause of the Cretaceous-Paleogene boundary (KPB) mass extinction...
Recently reported radioisotopic dates and magnetic anomaly spacings have made it evident that modifi...
Detailed understanding of ecosystem decline and recovery attending the Cretaceous-Paleogene boundary...
Paleomagnetic and cycle stratigraphic analyses of nearly 7000\ua0m of section from continuous cores ...
As climate change became a major international hot topic, scientists look to the geologic past for p...
We present a revised Paleogene geochronology based upon a best fit to selected high temperature radi...
As climate change became a major international hot topic, scientists look to the geologic past for p...
High-resolution geochronology provides a means to evaluate the timescales of responses to major shif...
An expanded Oligocene-Miocene boundary interval recovered in the Cape Roberts Project CRP-2A core fr...
We reevaluate the Eocene geomagnetic polarity time scale on the basis of single-crystal 40Ar/39Ar ag...
An accurate and precise geomagnetic polarity time scale is crucial to the development of a chronolog...
We present a revised Cenozoic geochronology based upon a best-fit to selected high-temperature radio...
An accurate and precise geomagnetic polarity time scale is crucial to the development of a chronolog...
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