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July
2014 Shows Hottest Ocean Surface Temperatures on Record as New Warm
Kelvin Wave Forms
18
August, 2014
According
to NOAA’s Climate Prediction Center, July of 2014 was the 4th
hottest in the 135 year global temperature record. Land surface
temperatures measured 10th hottest in the global record while ocean
surface temperatures remained extraordinarily hot, tying July of 2009
as the hottest on record for all years on measure over the past two
centuries.
Overall,
land temperatures were 0.74 C above the 1950 to 1981 average and
ocean surface temperatures were 0.59 C above the same average.
These
new record or near record highs come after the hottest second quarter
year in the global temperature record where combined land and ocean
temperatures exceeded all previous global high temperatures in the
measure.
Much
Hotter Than Normal July
Few
regions around the globe showed cooler than average temperatures
during July with zones over the east-central US, in the Atlantic just
south of Greenland, and off South America in the Southern Ocean as
the only regions showing cooler than normal temperatures. Record
warmest temperatures ranged from Scandinavia to Iceland to Northeast
Siberia, from California to Alaska to the Northeast Pacific, along a
broad stretch of Pacific Ocean waters east of the Philippines and New
Guinea, in pools in the North and South Atlantic Oceans off the
coasts of North and South America, and in spots from Australia
through the Indian Ocean to South Africa.
(Land and Ocean temperature anomalies for July of 2014. Image source: NOAA’s Climate Prediction Center.)
Overall,
most of the surface of the Earth featured above average to record
warmest conditions, while a minority of the Earth’s surface showed
average or below average temperatures.
These
new global heat records were reached even as slightly cooler than
average waters began to up-well in the critical Eastern Equatorial
Pacific region. A powerful Kelvin Wave that initiated during late
winter and spring of 2014 failed to set off a summer El Nino and
finally faded out, reducing heat transfer from Pacific Ocean waters
to atmosphere. Even so, the ocean to atmosphere heat dump was enough
to set off two record hot months for May and June and a record hot
ocean surface month for July as ocean surface waters remained
extraordinarily warm across many regions.
(Ocean surface temperatures remained at or near record hot levels during July and August of 2014 despite a failed El Nino development in the Equatorial Pacific. The above graphic shows global water temperatures for August 18 at an extraordinary +1.13 C above the already hotter than normal 1979 to 2000 average. Image source: University of Maine.)
New
Warm Kelvin Wave Begins to Form
Though
the atmosphere failed to respond to a powerful Kelvin Wave issuing
across the Pacific earlier this year, stifling the development of a
predicted El Nino, it appears a new warm Kelvin Wave is now beginning
to form. Moderate west wind back bursts near New Guinea initiated
warm water down-welling and propagation across the Pacific Ocean
during July and early August. The down-welling warmth appeared to
link up with warm water upwelling west of New Guinea and began a
thrust across the Pacific over the past week.
As
of the most recent sub-sea float analysis, anomalies in the new
Kelvin Wave ranged as warm as 4-5 C above average:
(New warm Kelvin Wave forming in the Equatorial Pacific. Image source: Climate Prediction Center.)
These
sub-sea temps are rather warm for an early phase Kelvin Wave and may
indicate another ocean to atmosphere heat delivery is on its way,
despite a broader failure of El Nino to form by this summer.
Typically,
strong Kelvin Waves provide the energy necessary for El Nino to form.
The heating of surface waters due to warm water upwelling in the
Equatorial Pacific tends to set off atmospheric feedbacks that
perpetuate an El Nino pattern in which waters remain warmer than
average in the Central and Eastern Equatorial Pacific for many
months. Without these atmospheric responses, El Nino cannot form.
During
2013 and 2014, strong Kelvin Waves forming during spring time were
not enough to over-ride prevailing and historically strong trade wind
patterns thereby allowing El Nino to emerge.
Atmospheric
‘Hiatus’ is No Halt to Global Warming
(Global ocean heat content for 0-2000 meters of depth shows inexorable upward trend despite the so-called atmospheric warming hiatus. Image source: NOAA Ocean Heat Content.)
This
natural variability, which typically lasts for 20-30 years began
around the year 2000 and has continued through 2014. During such
periods of negative PDO, we would expect rates of atmospheric warming
to cease or even to go slightly negative. Unfortunately, even though
PDO has been negative for nearly 15 years, a phase which during the
1940s to 1970s drove 0.35 C of transient atmospheric cooling against
an overall larger warming trend, we have still seen atmospheric
warming in the range of 0.1 C per decade.
This
is bad news. For as ocean heat content is spiking, the transfer from
atmosphere to ocean has not been enough to even briefly cut off
atmospheric warming. And at some point, the oceans will deliver a
portion of their latent heat back to the atmosphere, causing an even
more rapid pace of temperature increase than was seen during the
1980s through 2000s period.
In
other words, we’ve bent the cycle of natural variability to the
point where we see warming, albeit slower warming, during times when
we should have seen atmospheric cooling. And all indicators —
radiative balance measured by satellite, deep ocean water
temperatures, glacial melt, and atmosphere — show ongoing and
inexorable warming.
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