In recent years, Earth system sciences are urgently calling for innovation on improving
accuracy, enhancing model intelligence level, scaling up operation, and reducing costs in …

Event stratigraphy is used to help characterise the Anthropocene as a chronostratigraphic
concept, based on analogous deep-time events, for which we provide a novel …

Climate tip** points occur when change in a part of the climate system becomes self-
perpetuating beyond a warming threshold, leading to substantial Earth system impacts …

Under current emission trajectories, temporarily overshooting the Paris global warming limit
of 1.5° C is a distinct possibility. Permanently exceeding this limit would substantially …

Specific components of the Earth system may abruptly change their state in response to
gradual changes in forcing. This possibility has attracted great scientific interest in recent …

Abstract The Cretaceous Period (145 to 66 Ma) was a prolonged warmhouse to hothouse
period characterized by high atmospheric CO 2 conditions, elevated surface temperatures …

The Eocene–Oligocene Transition (∼ 33.9 Ma) marks the largest step transformation within
the Cenozoic cooling trend and is characterized by a sudden growth of the Antarctic ice …

Sea level and deep-sea temperature variations are key indicators of global climate changes.
For continuous records over millions of years, deep-sea carbonate microfossil–based δ18O …

Abstract The Eocene-Oligocene transition (EOT) at∼ 34 Ma marked a significant global
cooling on Earth when the ice cover in the Antarctic was formed. How the regional …

Climate tip** elements are large-scale subsystems of the Earth that may transgress critical
thresholds (tip** points) under ongoing global warming, with substantial impacts on the …