A new study is revealing that a reversal in the Earth's magnetic poles 42,000 to 41,000 years ago may have led to environmental crises that resulted in mass extinctions. The period is called the Laschamps excursion and the research used precise carbon dating obtained from ancient tree fossils to study its effects.
The team details how they created a precise radiocarbon
record around the time of the "Laschamps geomagnetic reversal about 41,000
years ago from the rings of New Zealand swamp kauri trees."
"This record reveals a substantial increase in the
carbon-14 content of the atmosphere culminating during the period of weakening
magnetic field strength preceding the polarity switch." The team concluded
that the "geomagnetic field minimum caused substantial changes in atmospheric
ozone concentration that drove synchronous global climate and
environmental" with their model investigating the consequences of this
event.
The researchers also emphasized that it's the first study of
its kind to determine a link between pole reversals and environmental changes.
To conduct the study Cooper and his team used cross-sections from four ancient
trees recovered from a swamp at Ngāwhā Springs in northern New Zealand and
tested them for carbon-14.
The team then simulated how a changing magnetic field might
affect atmospheric weather patterns. Their results indicated that the increase
of charged particles entering the atmosphere would also result in a rise in the
production of atmospheric hydrogen and nitrogen oxides.
These molecules would consume ozone, thwarting the
stratospheric ozone from shielding Earth’s denizens from ultraviolet radiation.
These changes would also disrupt sunlight from being absorbed at different
layers in the atmosphere, leading to a large-scale cooling of the planet.
However, although the research is generally interesting and
sound, the researchers rely a little too much on hypotheses. It's as if they
are looking for anything that happened 42,000 years ago that could possibly be
related to changing environmental circumstances.
In the end, what happened 42,000 years ago still remains
unknown. But the work could inspire more research to examine the principles
behind these mass extinctions. The study was published in the journal Science.