As Earth and Mars orbit the Sun, they pull on each other gravitationally, causing their paths to stretch and relax in a cycle that repeats roughly every 2.4 million years. These subtle orbital shifts change how close the planets approach the sun, which in turn can alter their long-term climate patterns.
As Earth and Mars orbit the Sun, they pull on each other gravitationally, causing their paths to stretch and relax in a cycle that repeats roughly every 2.4 million years. These subtle orbital shifts change how close the planets approach the sun, which in turn can alter their long-term climate patterns.
New research shows that the Mars–Earth cycle once had a 1.6-million-year cycle that coincided with major climate swings. The work was recently published in the Proceedings of the National Academy of Sciences (PNAS).
The study was led by Yanan Fang of the Nanjing Institute of Geology and Palaeontology and Paul Olsen of the Lamont-Doherty Earth Observatory, which is part of the Columbia Climate School.
The researchers found geologic evidence for the shorter 1.6-million-year rhythm preserved in Jurassic lake sediments of the Sangonghe Formation in northwestern China. They measured signals lined up to form three complete 1.6-million-year “beats” centered around 183 million years ago. One beat aligns with the Jenkyns Event, when huge lava eruptions in present-day South Africa briefly but sharply warmed the planet via a massive release of volcanic CO2.
Read More: Columbia Climate School
Image: The Sangonghe Formation in northwestern China, showing periodic variations in sediments caused by climate cycles, where the research team collected samples of Jurassic lake sediments. (Photo Credit: Paul Olsen)
