This is actually major news. It strongly supports the proposition that the
opening of the North West Passage in 2007 was a unique event that was not
matched during the Medieval Warming nor the Bronze Age. This is a huge surprise and it would need
rapid extinction of the reported plankton which appears exceedingly unlikely.
Thus the proposition of the unusual
nature of the Arctic warming must be considered proven. One just does not get plankton injections on
a million year cycle like this.
The big question at the moment is
whether or not the sea ice is still losing mass or not. Navy measurements suggest that the mass has
been recovering over the past three years.
I do not know enough about them to know if they are reliable or not. At worst, the sea ice appears to be generally
stable.
It could be simply be that the
2007 reduction was a low probability combination of a cyclical low and a rare
wind system.
Pacific Plankton Crosses to Atlantic ...Thanks
to Arctic Meltdown
Warmer temperatures in the North are allowing species to shift from
ocean to ocean.
David Biello reports
June 26, 2011
Neodenticula seminae, a microscopic strand of photosynthesizing
plankton, is common in much of the northern Pacific Ocean .
The plankton hadn't been seen in the northern Atlantic in some 800,000 years—until a survey in 1999 turned up a bunch in the
Warming’s most obvious oceanic effect is the opening of the fabled Northwest Passage for the first time in recorded history. Which makes it more likely for N. seminae to have fellow travelers.
Pacific zooplankton—microscopic animals—have made the trip, and clams, oysters, snails and slugs may soon follow. These Pacific denizens could displace or disrupt their Atlantic cousins, potentially transforming the entire food web. Which is why a consortium of 17 marine institutes in 10 European countries is now monitoring the migrations, an effort known as Climate Change and European Marine Ecosystem Research.
Over the last decade, N. seminae has firmly established itself in the Labrador Sea, waters near
—David Biello
PRODIGAL PLANKTON RETURNS TO THE ATLANTIC
Analysis by Kieran Mulvaney
Sun Jun 26, 2011 03:50 PM ET
Last year, it was a gray whale.
No gray whale had been recorded in the North
Atlantic since
at least the 18th century, when whalers may have driven them to extinction
in the region. So when one showed
up in the Mediterranean last May, it not unreasonably generated a lot of
attention, as well as (also not unreasonably) speculation about how it got
there.
The most likely and generally accepted explanation was that it was a
solitary sentinel of climate change: that an ice-free Northwest Passage had
enabled the whale, which had swum north from its breeding grounds in the
Pacific to its feeding grounds north of Alaska, to swim steadily east until
emerging, doubtless confused and disoriented, in the eastern hemisphere.
Now, scientists have revealed, it wasn't such a solitary sentinel after
all. Another long-lost marine species has returned to Atlantic waters from
which it long ago departed - although this species is considerably smaller than
a gray whale.
Much smaller, in fact.
According to researchers with the Sir Alister Hardy Foundation
for Ocean Science, a species of plankton called Neodenticula seminae is
an Atlantic resident again, 800,000 years after it became extinct in the ocean.
And whereas last year's gray whale was a one-off occurrence, the microscopic
plant has been documented with sufficient frequency over the last several years
to determine that the species has indeed returned. As with the lost whale, the
plankton's arrival has been facilitated, the researchers say, by melting polar
ice providing an easier passage for transport from one ocean basin to the
other.
The discovery is among several examples of global warming-induced
changes in marine life in the Atlantic Ocean ,
according to Project
CLAMER (Climate Change and European Marine Ecosystem Research), a
consortium of 17 marine institutes in 10 European nations. The project is
synthesizing the results of almost 300 EU-funded climate change-related
research projects over 13 years in Europe's oceans and near-shore waters, as
well as the Mediterranean, Baltic, and Black Seas
Jellyfish are increasing in
the northeast Atlantic, often forming massive blooms. A venomous warm-water
species, Pelagia noctiluca, dominates in many areas and outbreaks have
become an annual event, forcing the closing of beaches. This form of jellyfish
is a gluttonous predator of juvenile fish, so researchers consider its spread a
harmful trend. Recently, the highly venomous Portuguese Man-of-War (Physalia
physalis), a jellyfish-like subtropical creature, were found more regularly in
northern Atlantic waters.
Off Northwest Europe, the
warming trend has led to earlier spawning of cod, while phytoplankton have kept
their traditional biological schedule. The result is a timing mismatch between
the cod's larval production and its food supply.
Warmer temperatures and
stratification of the water are allowing living and dead microscopic organic
matter to form massive, mucous-like blobs in the Mediterranean
Sea . This noxious material harbors bacteria and viruses that could
kill fish.
In the North Sea, several fish
species, including sea bass, mullet, solenette and scaldfish, are moving
northward and increasing in numbers as the water warm.
Overall, says Carlo Heip, Director General of the Royal Netherlands Institute for Sea
Research, studies show that the impacts of climate change on marine life
composition in the Atlantic are likely to be mixed - some species could, in
fact, thrive and parts of the ocean gain in biodiversity and productivity.
"But most of the impacts are so clearly negative, and the scope of
change so potentially huge that, taken together, they constitute brightly
flashing warning signals," he says.
Illustration of records of phytoplankton Neodenticula seminae courtesy
of the Sir Alister Hardy Foundation for Ocean Science (SAHFOS)
Warming oceans cause largest movement of marine species in two million
years
Swarms of venomous jelly fish and poisonous algae are migrating into
British waters due to changes in the ocean temperatures, a major new study has
revealed.
The venomous warm-water species Pelagia noctiluca Photo:
ALAMY
By Richard Gray, Science Correspondent
6:45AM BST 26 Jun 2011
Warming ocean waters are causing the largest movement of marine species
seen on Earth in more than two million years, according to scientists.
In the Arctic, melting sea ice during recent summers has allowed a
passage to open up from the Pacific ocean into the North Atlantic, allowing
plankton, fish and even whales to into the Atlantic Ocean
from the Pacific.
The discovery has sparked fears delicate marine food webs could be
unbalanced and lead to some species becoming extinct as competition for food
between the native species and the invaders stretches resources.
Rising ocean temperatures are also allowing species normally found in
warmer sub-tropical regions to into the northeast Atlantic .
A venomous warm-water species Pelagia noctiluca has forced
the closure of beaches and is now becoming increasingly common in the waters
around Britain
The highly venomous Portuguese Man-of-War, which is normally found in
subtropical waters, is also regularly been found in the northern Atlantic
waters.
A form of algae known as dinoflagellates has also been found
to be moving eastwards across the Atlantic towards Scandinavia and the North Sea .
Huge blooms of these marine plants use up the oxygen in the water and
can produce toxic compounds that make shellfish poisonous.
Plankton sampling in the north Atlantic over the past 70 years have
also shown that other species of plankton, normally only found in the Pacific
ocean, have now become common in Atlantic waters.
The scientists, who have been collaborating on the Climate Change and
European Marine Ecosystems Research project, found the plankton species, called Neodenticula
seminae, traveled into the Atlantic through a passage through the Arctic sea
ice around that has opened up a number of times in the last decade from the
Pacific Ocean.
Larger species including a grey whale have also been found to have made
the journey through the passage, which winds it’s way from the Pacific coast of
Alaska through the islands of northern Canada and down past Greenland into the
Atlantic Ocean, when it opened first in 1998, and then again in 2007 and
2010.
Professor Chris Reid, from the Sir Alister Hardy Foundation for Ocean
Science at the Plymouth Marine Laboratory, said:
“It seems for the first time in probably thousands of years a huge area of sea
water opened up between Alaska and the west of
Greenland , allowing a huge transfer of water
and species between the two oceans.
“The opening of this passage allowed the wind to drive a current
through this passage and the water warmed up making it favourable for species
to get through.
“In 1999 we discovered a species in the north west
Atlantic that we hadn’t seen before, but we
know from surveys in the north Pacific that it is very abundant there.
"This species died out in the Atlantic
around 800,000 years ago due to glaciation that changed the conditions it
needed to survive.
“The implications are huge. The last time there was an incursion of
species from the Pacific into the Atlantic was
around two to three million years ago.
"Large numbers of species were introduced from the Pacific and
made large numbers of local Atlantic species extinct.
“The impact on salmon and other fish resources could be very dramatic.
The indications are that as the ice is continuing to melt in the summer months,
climate change could lead to complete melting within 20 to 30 years, which
would see huge numbers of species migrating.
"It could have impacts all the way down to the British Isles and
down the east coast of the United
States
He added: “With the jellyfish we are seeing them move further north
from tropical and subtropical regions as a result of warming sea
temperatures."
Researchers say the invading plankton species is likely to cause
widespread changes to the food web in the Atlantic ocean
as the invading species are less nutritious than native species, which are
eaten by many fish and large whales.
Changes in populations of tiny animals called copepods, which are an
essential food source for fish such as cod, herring and mackerel, are already
being blamed for helping to drive the collapse of fish stocks as the native
species of copepods have been replaced with smaller less nutritious varieties.
This has resulted in declines in North Sea birds, the researchers
claim, while Harbour porpoises have also migrated northwards North
Sea after sand eels followed the poleward movement of the copepods
they ate.
Scientists taking part in the project from the Institute for Marine
Resources & Ecosystem Studies, in the Netherlands ,
found that warmer water would also lead more species in the North and Irish sea as species move from more southerly areas.
But they found that the Atlantic ocean west of Scotland
Dr Carlo Heip, director general of the Royal Netherlands Institute for
Sea Research, which led the project that is a collaboration of more than 17
institutes in 10 different countries, said: “We need to learn much more about
what’s happening in Europe’s seas, but the signs already point to far more
trouble than benefit from climate change.
“Despite the many unknowns, it’s obvious that we can expect damaging
upheaval as we overturn the workings of a system that’s so complex and
important.
“The migrations are an example of how changing climate conditions cause
species to move or change their behaviour, leading to shifts in ecosystems that
are clearly visible.”
The researchers conclude that these changes will have serious
implications for commercial fisheries and on the marine environment.
Among the other species to have migrated from the Pacific Ocean into
the Atlantic was a grey whale that was spotted as far south as the Mediterrean
off the coast of Spain and Israel
Grey whales have been extinct in the Atlantic
Ocean for more than a hundred years due to hunting and scientists
found the animal had crossed through openings in the Arctic sea ice.
Dr Katja Philippart, from the Royal Netherland’s Institute for Sea
Research, added: “We have seen very small plankton and large whales migrating
from the Pacific into the North Atlantic , so
there will certainly be many other species, including fish, that we haven’t
detected yet.
“To see a whale in this part of the world was quite remarkable and when
we looked at it we concluded it can only have come from one place.”
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