Scientists have predicted future glacial periods by matching Earth's past ice ages to its orbit around the sun. But their new ...

Glacial cycles aren’t random; they follow a predictable rhythm dictated by Earth’s orbit. A study analyzing climate records ...

Earth’s climate has never been static. It shifts between warm interglacial periods and deep freezes, driven by complex ...

The work elucidates how it came to pass. Obliquity causes variation in seasonality over a 41,000-year period, which affects ...

Despite decades of research, precisely how the various parts of the solar insolation cycles affect glacial cycles is not ...

Beginning around 2.5 million years ago, Earth entered an era marked by successive ice ages and interglacial periods, emerging ...

Coauthor of the study, Professor Lorraine Lisiecki of the University of California, Santa Barbara, added: “This is important ...

The ebb and flow of Pleistocene glacial cycles is not random; it follows a predictable pattern dictated by the distinct and deterministic influence of ...

Changes in Earth’s orbit drive long-term glacial cycles, but a new forecast suggests this ancient pattern is being disrupted ...

Earth's history is a roller-coaster of climate fluctuations, of relative warmth giving way to frozen periods of glaciation ...

The ebb and flow of Pleistocene glacial cycles is not random; it follows a predictable pattern dictated by the distinct and deterministic influence of Earth’s orbital geometry, according to a new ...

Scientists successfully observed 'orbital pumping', a new phenomenon in which orbital currents are generated from the ...