66 Million Years of Earth’s Climate Changes Revealed in Unprecedented Detail From Ocean Sediments

The CENOGRID shows Earth has experienced four distinct climate states over the last 66 million years. The detailed climatic changes of the past can be studied like a colorful barcode and provide context for ongoing anthropogenic change and how exceptional it is. Earth’s climate has gradually cooled for the last 50 million years, but unmitigated anthropogenic changes reverse this cooling trend and far exceed the warmest climates of the last 66 million years.
Credit: Thomas Westerhold   ENLARGE

Changes in the Earth’s climate over the last 66 million years have been revealed in unprecedented detail by a team involving UCL researchers, highlighting four distinctive climatic states and the natural million- and thousand-year variability that Earth’s climate has experienced.

Published this month in Science, the new global “climate reference curve” created by the team is the first record to continually and accurately trace how the Earth’s climate has changed since the great extinction of the dinosaurs 66 million years ago.

It was achieved by bringing together research from 12 international laboratories using sample material from the ocean floor collected over more than five decades of international scientific drilling expeditions by the International Ocean Discovery Program (IODP) and its predecessors.

Led by researchers from MARUM — Center for Marine Environmental Sciences at the University of Bremen, the Potsdam Institute for Climate Impact Research (PIK) and UCL, the authors used advanced mathematical analysis of this highly accurate climate reference curve to identify four climatic states, classified as “Hothouse,” “Warmhouse,” “Coolhouse,” and “Icehouse.” These states are recognized by the characteristic pattern of their climate variability. The distinctive climatic “beat’ of each state is driven by greenhouse gas concentrations and polar ice volume, with higher CO2 and little-to-no global ice volume during the Hothouse and Warmhouse compared to the Coolhouse and Icehouse.

To generate the climate reference curve, called CENOGRID (CENOzoic Global Reference benthic foraminifer carbon and oxygen Isotope Dataset), the team analyzed and compiled the oxygen and carbon isotopes from tiny microfossils found in deep-sea sediments. For the first time, this period of Earth’s history was accurately dated by identifying the imprint of semi-periodical changes in Earth’s orbit around the sun in CENOGRID.

The CENOGRID is the clearest and most accurate view of past climate conditions to date, providing information about past deep-sea temperatures, global ice volumes, and the carbon cycle. These detailed climatic changes can be studied like a colorful barcode and used to draw comparisons between the past, present, and future.

Co-author Dr. Anna Joy Drury (UCL Earth Sciences), said: “We use CENOGRID to understand what Earth’s normal range of natural climate change and variability is and how quickly Earth recovered from past events. While we show that the Earth previously experienced warm climate states, these were characterized by extreme climate events and were radically different from our modern world. Since the peak warmth of the Hothouse, Earth’s climate has gradually cooled over the last 50 million years, but the present and predicted rapid anthropogenic changes reverse this trend and, if unabated, far exceed the natural variability of the last 66 million years. CENOGRID’s window into the past provides context for the ongoing anthropogenic change and how exceptional it is.”

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