Analysis of Antarctic ice cores reveals the world's oceans cooled by 2.5 C over the last three million years.
Most of the ocean cooling occurred around 2.7 million years ago.
Methane levels remained unchanged, while carbon dioxide levels changed slightly between 2.9-1.2 million years ago.
Ocean circulation and ice sheet growth were primary drivers of long-term cooling, not just gas levels.
Detailed Insights:
The study challenges the assumption that greenhouse gas concentrations are the sole drivers of long-term climate change.
Changes in ocean circulation patterns can alter heat distribution, leading to regional and global cooling.
The growth of ice sheets increases Earth's albedo, reflecting more solar radiation and contributing to cooling.
This research highlights the complex interplay of factors influencing Earth's climate beyond atmospheric composition.
Scientific/Technical Concepts Involved:
Ice Cores: Cylindrical ice samples drilled from glaciers and ice sheets, containing trapped air bubbles and other materials that provide a record of past climate conditions.
Ocean Circulation: The large-scale movement of water in the oceans, driven by factors like wind, temperature, and salinity differences, which distributes heat around the globe.
Albedo: The measure of how much light that hits a surface is reflected without being absorbed.