Natural cycles in Earth's rotational axis and its orbit around the sun drive climatic changes, and now researchers have ...

after the early 20th century Serbian physicist Milutin Milankovitch. The key players in these cycles are Earth's obliquity, the precession of its rotational axis and the shape of Earth's orbit ...

Variations in the Earth's orbit, known as Milankovitch cycles, play a role in long-term climate changes. These cycles include eccentricity (the shape of the orbit), obliquity (the tilt of the Earth's ...

The hypothesis of a glacio-eustatic control specifically connects Milankovitch cycles—such as the 100,000-year eccentricity cycle, and the 41,000-year obliquity cycle—to the frequency and intensity ...

Collectively known as Milankovitch cycles, these periodic changes occur roughly every ... and the second harmonic of obliquity at 20,500 years. No one has been able to establish a clear link between ...

The study builds on the century-old Milankovitch theory, which links ice age cycles to shifts in Earth’s axial tilt (obliquity) and its wobble (precession), both of which influence solar energy ...

Earth naturally cycles between ice ages and warm periods based on three astronomical cycles: precession (Earth’s wobble), obliquity (tilt), and eccentricity ... proposed by Serbian mathematician ...

This study leverages the empirical datasets and microbial-explicit SOC model to show a thermal threshold of microbial CUE and heterotrophic respiration at 15 °C, implying a potential abrupt ...