In 1980, Walter Alvarez and his group at the University of California, Berkeley, discovered a thin layer of clay in the geologic record, which contained an unexpected amount of the rare element iridium.
They proposed that the iridium-rich layer was evidence of a massive comet hitting the Earth 66 million years ago, at the time of the extinction of the dinosaurs. The Alvarez group suggested that the global iridium-rich layer formed as fallout from an intense dust cloud caused by the impact. The cloud of dust covered the Earth, producing darkness and cold. In 1990, the large 100-mile diameter crater from the impact was found in Mexico’s Yucatan Peninsula.
A collision would have been disastrous for life on Earth. Don Davis
The timing of this impact, together with the fossil record, have led most researchers to conclude that this collision caused the mass extinction of the dinosaurs and many other forms of life. Subsequent studies found evidence of other mass extinctions in the geologic past, which seem to have happened at the same time as pulses of impacts, determined from the record of impact craters on the Earth. And these co-incidences occurred every 30 million years.
Why do these extinctions and impacts appear to happen within an underlying cycle? The answer may lie in our position in the Milky Way Galaxy.
Artist’s impression of the Milky Way’s structure. NASA/JPL-Caltech/ESO/R. Hurt
Our Galaxy is best understood as an enormous disc. Our solar system revolves around the circumference of the disc every 250 million years. But the path is not smooth, it’s wavy. The Earth passes through the mid-plane of the disc once every 30 million years.
An edge-on view of our Milky Way Galaxy shows its disk-like nature. NASA
I believe that the cycle of extinctions and impacts is related to times when the Sun and planets plunge through the crowded disc of our Galaxy. Normally, comets orbit the Sun at the edge of the solar system, very far from the Earth. But when the solar system passes through the crowded disc, the combined gravitational pull of visible stars, interstellar clouds and invisible dark matter disturbs the comets and sends some of them on alternate paths, sometimes crossing the Earth’s orbit, where they can collide with the planet.
Recognition of this 30-million-year galactic cycle is the key to understanding why extinctions happen on a regular schedule. But it may also explain other geologic phenomena as well. In further studies, we found that a number of geological events, including pulses of volcanic eruptions, mountain building, magnetic field reversals, climate and major changes in sea level show a similar 30 million year cycle. Could this also be related to the way our solar system travels through the Galaxy?
Dark matter is invisible but its gravity bends and magnifies the light of galaxies located far behind it. NASA, N. Benitez (JHU), T. Broadhurst (Racah Institute of Physics/The Hebrew University), H. Ford (JHU), M. Clampin (STScI),G. Hartig (STScI), G. Illingworth (UCO/Lick Observatory), the ACS Science Team and ESA
A possible cause of the geological activity may be interactions of the Earth with dark matter in the Galaxy. Dark matter, which has never been seen, is most likely composed of tiny subatomic particles that reveal their presence solely by their gravitational pull.
As the Earth passes through the Galaxy’s disc, it will encounter dense clumps of dark matter. The dark matter particles can be captured by the Earth and can build up in the Earth’s core. If the dark matter density is great enough, the dark matter particles eventually annihilate one another, which adds a large amount of internal heat to the Earth that can drive global pulses of geologic activity.
Dark matter is concentrated in the narrow disc of the Galaxy, so geologic activity should show the same 30-million-year cycle. Thus, the evidence from the Earth’s geological history supports a picture in which astrophysical phenomena govern the Earth’s geological and biological evolution.
And if you’re wondering about your own prospects for encountering this dark matter-driven phenomenon? We’re just passing through the Galaxy’s dense disk within the last couple of million years, so a comet shower may be in the offing.