This revelation tightens our
understanding of the counter flow that emerges from the Arctic ,
that was thought more vulnerable to surface heating. It appears that it is not.
We know that shifts in volume or
even position if possible could possibly change the heat content of the surface
waters of the Gulf Stream . We even know that this happened during the
Bronze Age for a sustained period.
The real question is how that
this may be so. The truth of it is that
we need to do much more in this type of data gathering to even have a competent
empirical model to experiment with properly.
Present evidence suggests that
the heat input into the Arctic notched upwards
perhaps three decades ago. This has
positively increased the global atmospheric heat content to provide a more uniform
warm climate and increasing the CO2 content possibly at the same time.
What nags me is our lack of
understanding of the significantly warmer Bronze Age. It is plausible that this resulted from a
well covered Sahara as that is the one think
that changed significanly.
New Iceland current
could sway N. Atlantic climate
Sun Aug 21, 2011 5:00pm GMT
North Icelandic Jet feeds "conveyor belt" current
May impact North Atlantic response to
climate change
New current recently confirmed, suspected for decades
By Deborah Zabarenko, Environment Correspondent
WASHINGTON, Aug 21 (Reuters) - A newly discovered deep, cold current
flowing off Iceland's coast may reveal that the North Atlantic is less
sensitive to climate change than previously thought, researchers reported on
Sunday.
The new current, the North Icelandic Jet, feeds the Atlantic Meridional
Overturning Circulation, a giant pattern known as the "great ocean
conveyor belt," or by the disconcerting acronym AMOC.
Because this pattern is critically important for regulating Earth's
climate, including European and North American climates, any strong influences
on it, and their response to a warming Earth, are of keen scientific and
practical interest.
The "conveyor belt" current, introduced to movie-goers in the
Al Gore environmental film "An Inconvenient Truth," carries warm
surface water from the tropical Atlantic toward the Arctic .
In the process, the water warms the air in high latitudes, then cools, sinks
and returns toward the equator, flowing as a deep stream at lower ocean depths.
Climate specialists reckoned that most of the cold water that made up
that deep south-flowing stream came from off the Greenland coast and was made
up of fresh glacier-melt water, produced by new warmth in glacier-covered Greenland .
Because fresh water freezes at a higher temperature than salt water,
these specialists suggested that this fresh water from glaciers and other
warming-related phenomena would get into the North
Atlantic , where it could freeze and prevent the water from sinking
to make up the bottom of the conveyor belt.
AMOC RUNNING AMOK?
If that happened, and the AMOC was disrupted or slowed at the place in
the far north where the warm water at the surface cools and sinks -- called the
overturning -- it could eventually lead to a colder Northern Hemisphere.
However, the newly confirmed North Icelandic Jet appears to contribute
more to the deeper part of the AMOC than the Greenland
current does, according to research published in the journal Nature Geoscience.
(For a graphic, see: link.reuters.com/qev33s)
"Present thinking contends that increased fresh water delivered to
the North Atlantic, due to melting ice and increased precipitation under a
warming climate, will slow down or halt the overturning" of the AMOC, said
study co-author Robert Pickart of Woods Hold Oceanographic Institution.
This might not be the case if the overturning occurs in the interior of
the Iceland Sea ,
which feeds the North Icelandic Jet, Pickart said in an email interview from Reykjavik
"It is not inconceivable that this open-ocean process is less
sensitive to fresh water forcing than the presently accepted mechanism ...
which might lead one to speculate that the deepest part of the overturning may
be less sensitive to climate change," he said.
The existence of the NIJ was suspected for decades but was only
confirmed recently by Icelandic researchers using underwater velocity
measurements taken from a ship. The NIJ current can't be seen by satellites or
detected by its temperature or salinity, but it does move a bit faster than the
surrounding water, Pickart said.
Pickart and researchers from Norway
and Iceland
Ocean Current Could Lead To Cooling Of Northern Hemisphere Climate
By MARK DUNPHY - Sun Aug 21, 9:39 pm
The research vessel Knorr navigates the Iceland Sea
An international team of researchers has confirmed the presence of a
deep-reaching ocean circulation system off Iceland
The current, called the North Icelandic Jet (NIJ), contributes to a key
component of the Atlantic Meridional Overturning Circulation (AMOC), also known
as the “great ocean conveyor belt,” which is critically important for
regulating Earth’s climate.
Climate specialists have been concerned that the conveyor belt is
slowing down due to a rise in global temperatures. They suggest that increasing
amounts of fresh water from melting ice and other warming-related phenomena are
making their way into the northern North Atlantic, where it could freeze, which
would prevent the water from sinking and decrease the need for the loop to
deliver as much warm water as it does now. Eventually, this could lead to a colder
climate in the northern hemisphere.
The team, which includes physical oceanographers from the Woods Hole
Oceanographic Institution (WHOI), announced their findings in a paper published
in the August 21 online issue of the journal Nature Geoscience.
As part of the planet’s reciprocal relationship between ocean
circulation and climate, the “great ocean conveyor belt” transports warm
surface water to high latitudes where the water warms the air, then cools,
sinks, and returns towards the equator as a deep flow.
Crucial to this warm-to-cold oceanographic choreography is the Denmark Strait Overflow Water (DSOW), the largest of the
deep, overflow plumes that feed the lower limb of the conveyor belt and return
the dense water south through gaps in the Greenland-Scotland Ridge.
For years it has been thought that the primary source of the Denmark Overflow is a current adjacent to
Greenland known as the East Greenland Current.
However, this view was recently called into question by two oceanographers from
Iceland who discovered a
deep current flowing southward along the continental slope of Iceland
Now, the team of researchers—including the two Icelanders who
discovered it—has confirmed that the Icelandic Jet is not only a major
contributor to the DSOW but “is the primary source of the densest overflow
water.”
The North Icelandic Jet in cross-section, adjacent to the continental
slope of Iceland
“These results implicate water mass transformation and exchange near
Iceland as central contributors to the deep limb of the Atlantic Meridional
Overturning Circulation, and raise new questions about how global ocean
circulation will respond to future climate change,” said Eric Itsweire,
program director in the U.S. National Science Foundation (NSF)’s Division
of Ocean Sciences, which funded the research.
“In our paper we present the first comprehensive measurements of the
NIJ,” said Robert S. Pickart of WHOI, one of the authors of the study.
“Our data demonstrate that the NIJ indeed carries overflow water into Denmark
Strait and is distinct from the East Greenland
Current. We show that the NIJ constitutes approximately half of the total
overflow transport and nearly all of the densest component.
The researchers used a numerical model to hypothesize where and how the
NIJ is formed. “We’ve identified a new paradigm,” he said. “We’re hypothesizing
a new, overturning loop” of warm water to cold.
While a subsequent cooling of scenario is far from certain, it is
critical that researchers understand the overturning process, he said, to be
able to make accurate predictions about the future of climate and circulation
interaction. “If a large fraction of the overflow water comes from the NIJ,
then we need to re-think how quickly the warm-to-cold conversion of the AMOC
occurs, as well as how this process might be altered under a warming climate,”
Pickart said.
Pickart and a team of scientists from the U.S., Iceland, Norway, and
the Netherlands are
scheduled to embark on Monday on a cruise aboard the WHOI-operated R/V Knorr to
collect new information on the overturning in the Iceland Sea
“During our upcoming cruise on the Knorr we will, for the first time,
deploy an array of year-long moorings across the entire Denmark Strait to
quantify the NIJ and distinguish it from the East Greenland Current,” Pickart
said. “Then we will collect shipboard measurements in the Iceland Sea
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