The
Earth seems to have been smoking a lot recently. Volcanoes are currently
erupting in Iceland, Hawaii, Indonesia and
Mexico. Others, in the Philippines and Papua New Guinea, erupted recently but
seem to have calmed down. Many of these have threatened homes and forced
evacuations. But among their less-endangered spectators, these eruptions may
have raised a question: Is there such a thing as a season for volcanic
eruptions?
Surprisingly,
this may be a possibility. While volcanoes may not have “seasons” as we know
them, scientists have started to discern intriguing patterns in their activity.
Eruptions Caused by a Shortened Day
The
four seasons are caused by the Earth’s axis of rotation tilting towards and
away from the sun. But our planet undergoes another, less well-known change,
which affects it in a more subtle way. Perhaps even volcanically.
Due to
factors like the gravitational pull of the sun and moon, the speed at which the
Earth rotates constantly changes. Accordingly the length of a day actually
varies from year to year. The difference is only in the order of milliseconds.
But new research suggests that this seemingly small perturbation could bring
about significant changes on our planet – or more accurately, within it.
In
February 2014, a study in the journal Terra Nova showed
that, since the early 19th century, changes in the Earth’s rotation rate tended
to be followed by increases in global volcanic activity. It found that, between
1830 and 2013, the longest period for which a reliable record was available,
relatively large changes in rotation rate were immediately followed by an
increase in the number of large volcanic eruptions. And, more than merely being
correlated, the authors believe that the rotation changes might actually have
triggered these large eruptions.
Altering
the spin of a planet, even by a small amount, requires a huge amount of energy.
It has been estimated that changes in the Earth’s rotation rate dissipate
around 120,000 petajoules of energy each year – enough to power the United
States for the same length of time. This energy is transferred into the Earth’s
atmosphere and subsurface. And it is this second consequence that the Terra
Nova authors believe could affect volcanoes.
The vast
quantities of energy delivered to the subsurface by rotation changes are likely
to perturb its stress field. And, since the magma which feeds volcanic
eruptions resides in the Earth’s crust, stress variations there may make it
easier for the liquid rock to rise to the surface, and thereby increase the
rate of volcanic eruptions.
The Terra
Nova study is far from conclusive. Nevertheless, the idea that minute
changes to the Earth’s spin could affect volcanic motions deep within the
planet is an intriguing one.
But
there’s another natural phenomenon which has a much stronger claim to affect
volcanic activity – one which might be just as surprising: climate change.
Eruptions Caused by Climate Change
In
recent decades, it has become apparent that the consequences of planetary ice
loss might not end with rising sea levels. Evidence has been building that in
the past, periods of severe loss of glaciers were followed by a significant
spike in volcanic activity.
Around
19,000 years ago, glaciation was at a peak. Much of Europe and North America
was under ice. Then the climate warmed, and the glaciers began to recede. The
effect on the planet was generally quite favorable for humankind.
But,
since the mid-1970s, a number of studies have suggested that, as the ice vanished,
volcanic eruptions became much more frequent. A 2009 study, for example, concluded
that between 12,000 and 7,000 years ago, the global level of volcanic activity
rose by up to six times. Around the same period the rate of volcanic activity
in Iceland soared to at least 30 times
today’s level.
There
is supporting evidence from continental Europe,
North America and Antarctica that volcanic activity also increased after
earlier deglaciation cycles. Bizarrely, then, volcanic activity seems – at
least sometimes – to rise and fall with ice levels. But why? Again, this
strange effect might be down to stress.
Ice
sheets are heavy. Each year, Antarctica’s loses around 40 billion metric tons.
They are so heavy, in fact, that as they grow, they cause the Earth’s crust to
bend – like a plank of wood when placed under weight. The corollary of this is
that, when an ice sheet melts, and its mass is removed, the crust springs back.
This upward flexing can lead to a drop in stress in the underlying rocks,
which, the theory goes, makes it easier for magma to reach the surface and feed
volcanic eruptions.
The
link between climate change and volcanism is still poorly understood. Many
volcanoes do not seem to have been affected by it. Nor is it a particularly
pressing concern today, even though we face an ice-free future. It can take
thousands of years after the glaciers melt for volcanic activity to rise.
Yet
while it may not be an immediate hazard, this strange effect is a reminder that
our planet can respond to change in unforeseen ways. Contrary to their brutish
reputation, volcanoes are helping scientists understand just how sensitive our
planet can be.
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