The oceans
around Hawai`i are changing in many ways—and the latest to be detected is how
fast the great currents flow.
Certainly the
seas are warming, are acidifying, are rising, but now thereʻs evidence they are
churning in ways that had not been predicted.
The evidence
has been building. Five years ago, a paper in Science by Scripps researchers
Dean Roemmich and John Gilson reported the great South Pacific Gyre had been
increasing in speed, driven by increased surface winds.
Those winds
drive currents, and the currents have been speeding up for the past
quarter-century, says a new report in Science Advances.
"We have
found a strong acceleration in the global mean ocean circulation over the past
two decades. The acceleration is deep-reaching and particularly prominent in
the global tropical oceans and can be attributed to the planetary
intensification of surface winds since the 1990s," the authors wrote.
The currents
not only are increasing in energy by 15 percent a decade, but they are also
driving ocean mixing between shallow and deep waters.
"The
increasing trend in kinetic energy is particularly prominent in the global
tropical oceans, reaching depths of thousands of meters," say the authors,
Chinese, American and Australian researchers Shijian Hu, Janet Sprintall, Cong
Guan, Michael J. McPhaden, Fan Wang, Dunxin Hu and Wenju Cai. The paper is
entitled "Deep-reaching acceleration of global mean ocean circulation over
the past two decades."
What that
means is complicated. It can mean that more atmospheric heating can be trapped
and delivered into the deep oceans, reducing some of the immediate surface
impacts of global warming, but also changing conditions for marine life in the deep oceans. It can change weather patterns on land and over the
seas.
There is
still a lot to know. Most of this paper is based on observations that go down
2000 meters (a little more than a mile), and it is still uncertain whatʻs
happening in the very deep oceans.
"The
data-void abyssal ocean is likely to be important. Thus, intensive observations
that monitor the deep global ocean circulation are urgently needed not only for
understanding past conditions but also for reducing uncertainty in future
projections of the global ocean circulation," the authors say.
Wind speed is
driving the increased water speed, and wind speeds are expected to continue to
increase.
As little as
10 years ago, scientists were concerned that climate change was quieting the
worldʻs winds, but even as they were writing those papers, the winds were
picking up, dramatically.
©Jan TenBruggencate 2020
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