27.5-Million-Year Cycle of Geological Activity Discovered
From:
New York University
June 20, 2021 – Geologic activity
on Earth appears to follow a 27.5-million-year cycle, giving the planet a
“pulse,” according to a new study published in the journal Geoscience
Frontiers.
“Many geologists believe that geological
events are random over time. But our study provides statistical evidence for a
common cycle, suggesting that these geologic events are correlated and not
random,” said Michael Rampino, a geologist and professor in New York
University’s Department of Biology, as well as the study’s lead author.
Over the past five decades, researchers
have proposed cycles of major geological events — including volcanic activity
and mass
extinctions on land and sea — ranging from roughly 26 to 36
million years. But early work on these correlations in the geological record
was hampered by limitations in the age-dating of geologic events, which
prevented scientists from conducting quantitative investigations.
However, there have been significant
improvements in radio-isotopic dating techniques and changes in the geologic
timescale, leading to new data on the timing of past events. Using the latest
age-dating data available, Rampino and his colleagues compiled updated records
of major geological events over the last 260 million years and conducted new
analyses.
The team analyzed the ages of 89
well-dated major geological events of the last 260 million years. These events
include marine and land extinctions, major volcanic outpourings of lava called
flood-basalt eruptions, events when oceans were depleted of oxygen, sea-level
fluctuations, and changes or reorganization in the Earth’s tectonic plates.
They found that these global geologic
events are generally clustered at 10 different timepoints over the 260 million
years, grouped in peaks or pulses of roughly 27.5 million years apart. The most
recent cluster of geological events was approximately 7 million years ago,
suggesting that the next pulse of major geological activity is more than 20
million years in the future.
The researchers posit that these pulses
may be a function of cycles of activity in the Earth’s interior — geophysical
processes related to the dynamics of plate tectonics and climate. However,
similar cycles in the Earth’s orbit in space might also be pacing these events.
“Whatever the origins of these cyclical
episodes, our findings support the case for a largely periodic, coordinated,
and intermittently catastrophic geologic record, which is a departure from the
views held by many geologists,” explained Rampino.
Reference: “A pulse of the Earth: A
27.5-Myr underlying cycle in coordinated geological events over the last 260
Myr” by Michael R. Rampino, Ken Caldeira and Yuhong Zhu, 17 June 2021, Geoscience
Frontiers. DOI:
10.1016/j.gsf.2021.101245
In addition to Rampino, study authors
include Yuhong Zhu of NYU’s Center for Data Science and Ken Caldeira of the
Carnegie Institution for Science.
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