Published online: 17 April 2007; | doi:10.1038/news070416-4 /
http://www.nature.com/news/2007/070416/full/070416-4.html
Decades needed to tell whether ocean currents are slowing
Researchers pin down when we'll know the effects of climate on water flow.Quirin Schiermeier


| Still flowing: the Atlantic current plays a major role in heat transport on our planet. Getty |
|
Is
the powerful Atlantic current that has a major role in ocean
circulation slowing down? We won't know until we have collected more
than 20 years' worth of continuous measurements, researchers said on
Monday at the general assembly of the European Geoscience Union in
Vienna, Austria.
The
Atlantic Meridional Overturning Circulation (MOC), a key component of
the climate system, is responsible for one-quarter of the global
northward transport of heat. It has been under close scrutiny since
spring 2004, when ocean scientists set in operation an array of more
than 20 instruments moored on the ocean floor between the Bahamas and
the Canary Islands, as part of the international Rapid Climate Change
(RAPID) programme.
Scientists
have reason to suspect that this current is slowing - a process that
could cause massive changes in climate to northern Europe, and have
untold knock-on effects around the globe thanks to a huge shift in the
heat distribution on the planet.
One study,
published in 2005, looked at five sets of ship-based measurements made
between 1957 and 2004, and hinted at an alarming 30% reduction of the
MOC during that period. Models have predicted
that this magnitude of slowing might take place by 2100, not by 2004.
But the error estimates in the 2005 study were very large, and it was
unclear whether it was a true trend or just a blip.
Johanna
Baehr, a physical oceanographer formerly at the Max Planck Institute of
Meteorology in Hamburg, Germany, has now shown that with this type of
information - snapshots from shipboard measurements carried out every
10 to 20 years - it would take well over a century to reliably detect a
30% reduction of the flow.
The
RAPID array is a huge improvement in that the moored instruments
measure ocean temperature and salinity every 20 minutes. But Baehr, who
is now at the Massachusetts Institute of Technology in Cambridge,
calculates that even with these continuous measurements it will take
20-30 years to detect a statistically significant trend.
"With
existing observations we cannot distinguish between natural variability
and a possible long-term downward trend," she says.
Long-term planThe
first two years of RAPID observations can't reveal any long-term
trends, but do suggest that the variability of the MOC over time is
larger than had been previously assumed. That makes spotting a trend
quite difficult.
RAPID
is measuring the annual mean flow of the current to the precision of
1.5 million cubic metres per second; by comparison, models predict a
reduction in flow of about 5 million to 10 million cubic metres per
second by 2050. This precision is sufficient to be able to immediately
detect an unlikely abrupt collapse of the MOC. But for the more likely
scenario of a gradual slowdown, the array would need to remain
operational at least twice as long as is currently planned, says Baehr.
The programme is currently funded until 2014.
That's
already a relatively long commitment period, notes Stuart Cunningham, a
principal investigator in the RAPID programme at the National
Oceanography Centre in Southampton, UK. The UK agency supporting the
programme (the Natural Environment Research Council) "has never funded
any programme for so long", he says. And there is no UK agency for
long-term funding of operational oceanography, he says. To ensure
longer funding, he says, "we basically would need a new agency."
The array is threatened by various activities that break the instruments, including
illegal
fishing off the African coast, and hurricanes. On average, a couple of
emergency missions to fix the moors are needed each year. "But RAPID is
designed with enough redundancy to always remain operational," says
Cunningham.
References- Bryden H. L., Longworth H. R. & Cunningham S. A. Nature,
438
.
655
-
657
(2005).
- Intergovernmental Panel on Climate Change Climate Change 2001: The Scientific Basis (Cambridge Univ. Press, Cambridge, 2001).